CENTER FOR DRUG EVALUATION AND
RESEARCH

APPLICATION NUMBER:

0224060rig15000

OTHER 

Attachment B: Sample PMR/PMC Development Template
This template should be completed by the PMR/PMC Development Coordinator and included for each
PMR/PMC in the Action Package.

PMR/PMC Description:

PMR for Rivaroxaban:
Perform a clinical trial to evaluate the effect of renal impairment (i.e., mild,
moderate, severe)
plus the concurrent use of P-gp and moderate inhibitors of CYP3A4 on the
pharmacokinetics, pharmacodynamics, and safety of rivaroxaban in
volunteers so that appropriate dosing recommendations can be developed in
these populations.

PMR/PMC Schedule Milestones: Final Protocol Submission:
Study/Ttrial Completion:
Final Report Submission:
Other:

Submitted
02/04/11
2/29/2012
6/30/2012
MM/DD/YYYY

1. During application review, explain why this issue is appropriate for a PMR/PMC instead of a
pre-approval requirement. Check type below and describe.
Unmet need
Life-threatening condition
Long-term data needed
Only feasible to conduct post-approval
Prior clinical experience indicates safety
Small subpopulation affected
Theoretical concern
Other
Affects patients with renal impairment (i.e., mild, moderate, severe) plus the concurrent use of P-gp
and moderate inhibitors of CYP3A4 in combination with renal impairment

2. Describe the particular review issue and the goal of the study/clinical trial. If the study/clinical trial is
a FDAAA PMR, describe the risk. If the FDAAA PMR is created post-approval, describe the “new
safety information.”

Attachment B: Sample PMR/PMC Development Template

Reference ID: 2968719

Last Updated 7/1/2011

Page 1 of 4

 The applicant reports that based on its simulations using a population pharmacokinetic
approach, it anticipates that combined use of a drug that would inhibit non-renal
clearance by 30% and inhibit active renal clearance by 45% in patients with mild or
moderate renal impairment may result in an approximate 2 and 2.4 fold increase in
plasma AUC, respectively, when compared to subjects which is considered significant. Using a
physiologically based (PBPK) modeling approach FDA reached similar results, but also found that
this complex DDI may be more pronounced in the elderly.
3. If the study/clinical trial is a PMR, check the applicable regulation.
If not a PMR, skip to 4.
-

Which regulation?
Accelerated Approval (subpart H/E)
Animal Efficacy Rule
Pediatric Research Equity Act
FDAAA required safety study/clinical trial

-

If the PMR is a FDAAA safety study/clinical trial, does it: (check all that apply)
Assess a known serious risk related to the use of the drug?
Assess signals of serious risk related to the use of the drug?
Identify an unexpected serious risk when available data indicate the potential for a serious
risk?

-

If the PMR is a FDAAA safety study/clinical trial, will it be conducted as:
Analysis of spontaneous postmarketing adverse events?
Do not select the above study/clinical trial type if: such an analysis will not be sufficient to
assess or identify a serious risk
Analysis using pharmacovigilance system?
Do not select the above study/clinical trial type if: the new pharmacovigilance system that the
FDA is required to establish under section 505(k)(3) has not yet been established and is thus
not sufficient to assess this known serious risk, or has been established but is nevertheless not
sufficient to assess or identify a serious risk
Study: all other investigations, such as investigations in humans that are not clinical trials as
defined below (e.g., observational epidemiologic studies), animal studies, and laboratory
experiments?
Do not select the above study type if: a study will not be sufficient to identify or assess a
serious risk
Clinical trial: any prospective investigation in which the sponsor or investigator determines
the method of assigning investigational product or other interventions to one or more human
subjects?

4. What type of study or clinical trial is required or agreed upon (describe and check type below)? If the
study or trial will be performed in a subpopulation, list here.

Attachment B: Sample PMR/PMC Development Template

Reference ID: 2968719

Last Updated 7/1/2011

Page 2 of 4

 A multicenter, open-label, sequential design trial in both healthy subjects with normal renal
function, and otherwise healthy subjects with mild or moderate renal impairment to compare the
pharmacokinetics (PK) and pharmacodynamics (PD) of rivaroxaban (administered as a
single 5 mg and 10 mg dose) in subjects with mild or moderate renal impairment receiving multiple
doses of erythromycin, to the pharmacokinetics and pharmacodynamics of a single 10 mg dose of
rivaroxaban administered alone in subjects with normal renal function.
The Applicant agreed to conduct this study following a October 14, 2010, with the Agency. A
protocol synopsis was included in this CR response.
Required
Observational pharmacoepidemiologic study
Registry studies
Primary safety study or clinical trial
Pharmacogenetic or pharmacogenomic study or clinical trial if required to further assess safety
Thorough Q-T clinical trial
Nonclinical (animal) safety study (e.g., carcinogenicity, reproductive toxicology)
Continuation of Question 4

Nonclinical study (laboratory resistance, receptor affinity, quality study related to safety)
Pharmacokinetic studies or clinical trials
Drug interaction or bioavailability studies or clinical trials
Dosing trials
Additional data or analysis required for a previously submitted or expected study/clinical trial
(provide explanation)
Meta-analysis or pooled analysis of previous studies/clinical trials
Immunogenicity as a marker of safety
Other (provide explanation)

Agreed upon:
Quality study without a safety endpoint (e.g., manufacturing, stability)
Pharmacoepidemiologic study not related to safe drug use (e.g., natural history of disease,
background rates of adverse events)
Clinical trials primarily designed to further define efficacy (e.g., in another condition,
different disease severity, or subgroup) that are NOT required under Subpart H/E
Dose-response study or clinical trial performed for effectiveness
Nonclinical study, not safety-related (specify)
Other

5. Is the PMR/PMC clear, feasible, and appropriate?
Does the study/clinical trial meet criteria for PMRs or PMCs?
Are the objectives clear from the description of the PMR/PMC?
Has the applicant adequately justified the choice of schedule milestone dates?
Has the applicant had sufficient time to review the PMRs/PMCs, ask questions, determine
feasibility, and contribute to the development process?

Attachment B: Sample PMR/PMC Development Template

Reference ID: 2968719

Last Updated 7/1/2011

Page 3 of 4

 PMR/PMC Development Coordinator:
This PMR/PMC has been reviewed for clarity and consistency, and is necessary to further refine
the safety, efficacy, or optimal use of a drug, or to ensure consistency and reliability of drug
quality.

_______________________________________
(signature line for BLAs)

Attachment B: Sample PMR/PMC Development Template

Reference ID: 2968719

Last Updated 7/1/2011

Page 4 of 4

 --------------------------------------------------------------------------------------------------------This is a representation of an electronic record that was signed
electronically and this page is the manifestation of the electronic
signature.
--------------------------------------------------------------------------------------------------------/s/
---------------------------------------------------TYREE L NEWMAN
07/01/2011
ROBERT C KANE
07/01/2011

Reference ID: 2968719

 PMR/PMC Development Template
This template should be completed by the PMR/PMC Development Coordinator and included for each
PMR/PMC in the Action Package.

PMR/PMC Description:

PMR for Rivaroxaban:

A postmarketing pharmacovigilance study of the risk factors, clinical
management, and outcome of cases of major bleeding in association
with Xarelto® (rivaroxaban) use.
You agree to conduct an “Enhanced Pharmacovigilance Plan” that will
consist of the collection, analysis, and reporting of events termed
“major bleeding,” to consist of active solicitation of the events and
associated risk factors, subsequent therapy, and outcomes. Major
bleeding is defined as in the clinical protocols and current drug
labeling.
You agree to provide reports quarterly for the first three years
following drug approval, then annually. The final plan will be
submitted by October 30, 2011.
Submit summary information (total cases and summary of key facts in
those cases, with pertinent expert analysis of clinically relevant
information from the case series and any potential regulatory
implications such as labeling changes) quarterly for three years, then
annually.
PMR/PMC Schedule Milestones: Final Protocol Submission:
Study/Trial Completion:
Final Report Submission:

11/30/2011
06/30/2016
12/30/2016

1. During application review, explain why this issue is appropriate for a PMR/PMC instead of a
pre-approval requirement. Check type below and describe.
Unmet need
Life-threatening condition
Long-term data needed
Only feasible to conduct post-approval
Prior clinical experience indicates safety
Small subpopulation affected
Theoretical concern
Other

PMR/PMC Development Template

Reference ID: 2968733

Last Updated 7/1/2011

Page 1 of 4

 2. Describe the particular review issue and the goal of the study/clinical trial. If the study/clinical trial is
a FDAAA PMR, describe the risk. If the FDAAA PMR is created post-approval, describe the “new
safety information.”
The protocol should include:
•

Definition of major bleeding (as per your protocol, transfusion of 2 units of blood or loss
of 2 units is acceptable)

•

Methods to be used for data collection and analysis, including your solicitation of
reports of bleeding events,

•

Plan for enhanced follow-up with reporters – you will actively query and ascertain key
facts about the bleeding event, including:

•

•

Demographics (age, gender, race, location of bleeding)

•

Underlying diagnoses including specific reason for rivaroxaban treatment

•

Other relevant risk factors for bleeding

•

Dose and duration of rivaroxaban therapy

•

Concomitant medications

•

Treatment given for the bleeding (names of products, doses and duration of
treatment)

•

Any laboratory monitoring tests performed

Outcome information on:
•

Bleeding outcome – time to cessation and opinion on the role of therapy given on
the bleeding cessation

•

Survival / disability / further complications

3. If the study/clinical trial is a PMR, check the applicable regulation.
If not a PMR, skip to 4.
-

Which regulation?
Accelerated Approval (subpart H/E)
Animal Efficacy Rule
Pediatric Research Equity Act
FDAAA required safety study/clinical trial

-

If the PMR is a FDAAA safety study/clinical trial, does it: (check all that apply)
Assess a known serious risk related to the use of the drug?
Assess signals of serious risk related to the use of the drug?
Identify an unexpected serious risk when available data indicate the potential for a serious
risk?

PMR/PMC Development Template

Reference ID: 2968733

Last Updated 7/1/2011

Page 2 of 4

 -

If the PMR is a FDAAA safety study/clinical trial, will it be conducted as:
Analysis of spontaneous postmarketing adverse events?
Do not select the above study/clinical trial type if: such an analysis will not be sufficient to
assess or identify a serious risk
Analysis using pharmacovigilance system?
Do not select the above study/clinical trial type if: the new pharmacovigilance system that the
FDA is required to establish under section 505(k)(3) has not yet been established and is thus
not sufficient to assess this known serious risk, or has been established but is nevertheless not
sufficient to assess or identify a serious risk
Study: all other investigations, such as investigations in humans that are not clinical trials as
defined below (e.g., observational epidemiologic studies), animal studies, and laboratory
experiments?
Do not select the above study type if: a study will not be sufficient to identify or assess a
serious risk
Clinical trial: any prospective investigation in which the sponsor or investigator determines
the method of assigning investigational product or other interventions to one or more human
subjects?

4. What type of study or clinical trial is required or agreed upon (describe and check type below)? If the
study or trial will be performed in a subpopulation, list here.

“Enhanced Pharmacovigilance Plan” that will consist of the collection, analysis, and
reporting of events termed “major bleeding,” to consist of active solicitation of the events
and associated risk factors, subsequent therapy, and outcomes. Major bleeding as defined
in the clinical protocols and current drug labeling.

Required
Observational pharmacoepidemiologic study
Registry studies
Primary safety study or clinical trial
Pharmacogenetic or pharmacogenomic study or clinical trial if required to further assess safety
Thorough Q-T clinical trial
Nonclinical (animal) safety study (e.g., carcinogenicity, reproductive toxicology)
Continuation of Question 4

Nonclinical study (laboratory resistance, receptor affinity, quality study related to safety)
Pharmacokinetic studies or clinical trials
Drug interaction or bioavailability studies or clinical trials
Dosing trials
Additional data or analysis required for a previously submitted or expected study/clinical trial
(provide explanation)
Meta-analysis or pooled analysis of previous studies/clinical trials
Immunogenicity as a marker of safety
Other (provide explanation)

PMR/PMC Development Template

Reference ID: 2968733

Last Updated 7/1/2011

Page 3 of 4

 Agreed upon:
Quality study without a safety endpoint (e.g., manufacturing, stability)
Pharmacoepidemiologic study not related to safe drug use (e.g., natural history of disease,
background rates of adverse events)
Clinical trials primarily designed to further define efficacy (e.g., in another condition,
different disease severity, or subgroup) that are NOT required under Subpart H/E
Dose-response study or clinical trial performed for effectiveness
Nonclinical study, not safety-related (specify)
Other

5. Is the PMR/PMC clear, feasible, and appropriate?
Does the study/clinical trial meet criteria for PMRs or PMCs?
Are the objectives clear from the description of the PMR/PMC?
Has the applicant adequately justified the choice of schedule milestone dates?
Has the applicant had sufficient time to review the PMRs/PMCs, ask questions, determine
feasibility, and contribute to the development process?
PMR/PMC Development Coordinator:
This PMR/PMC has been reviewed for clarity and consistency, and is necessary to further refine
the safety, efficacy, or optimal use of a drug, or to ensure consistency and reliability of drug
quality.

_______________________________________
(signature line for BLAs)

PMR/PMC Development Template

Reference ID: 2968733

Last Updated 7/1/2011

Page 4 of 4

 --------------------------------------------------------------------------------------------------------This is a representation of an electronic record that was signed
electronically and this page is the manifestation of the electronic
signature.
--------------------------------------------------------------------------------------------------------/s/
---------------------------------------------------TYREE L NEWMAN
07/01/2011

Reference ID: 2968733

 Department of Health and Human Services
Public Health Service
Food and Drug Administration
Center for Drug Evaluation and Research
Office of Surveillance and Epidemiology

Date:

June 14, 2011

To:

Ann Farrell, MD, Director
Division of Hematology Products

Through:

Todd Bridges, RPh, Acting Deputy Director
Carol Holquist, RPh, Director
Division of Medication Error Prevention and Analysis (DMEPA)

From:

Denise V. Baugh, PharmD, BCPS, Safety Evaluator
Division of Medication Error Prevention and Analysis

Subject:

Label and Labeling Review

Drug Name:

Xarelto (Rivaroxaban) Tablets
10 mg

Application Number:

NDA 22406

Applicant:

Johnson & Johnson Pharmaceutical Research & Development

OSE RCM #:

2011-513

2
Reference ID: 2960821

 1
1.1

BACKGROUND
INTRODUCTION

This review evaluates the container labels, carton and insert labeling for Xarelto (Rivaroxaban) Tablets
(NDA 022406). We provide recommendations in Section 4 for improvements to the labels and labeling.

2

METHODS AND MATERIALS

The Division of Medication Error Prevention and Analysis uses Failure Mode and Effects Analysis
(FMEA)1, principals of human factors, and lessons learned from post marketing experience in our
evaluation of labels and labeling of drug products. For this application, we evaluated the following:
(b) (4)

– submitted December 23, 2010
Carton labeling
Container label (30 count) - submitted December 23, 2010
Blister label – submitted July 29, 2008 and
Insert labeling – substantially complete as of June 7, 2011
See Appendix A for the carton labeling, container and blister labels. There is no image for the insert
labeling.

3

RESULTS

Our review of the proposed container and blister labels, carton and insert labeling is discussed below.

3.1

LABEL AND LABELING

In our evaluation of the insert labeling, we recommended: revising the Dosage and Administration
sections to state that the product should always be taken with food and deletion of error prone
abbreviations. In our evaluation of the carton labeling, container and blister labels, we made
recommendations to relocate certain statements and increase the prominence of the established name.

4

CONCLUSIONS AND RECOMMENDATIONS

Our evaluation of the proposed container and blister labels, carton and insert labeling identified areas of
improvement to minimize medication errors. Section 4.1, Comments to the Division of Hematology
Products, contains our recommendation for the proposed insert labeling for Xarelto. We have provided
our recommendations on the container labels and carton labeling below in Section 4.2, Comments to the
Applicant. Please forward these recommendations to the Applicant prior to approval.
Please copy the Division of Medication Error Prevention and Analysis on any communication to the
Applicant with regard to this review. If you have any further questions or need clarifications on this
review, please contact Sue Kang, OSE Project Manager, at 301-796-4216.

1

Institute for Healthcare Improvement (IHI). Failure Modes and Effects Analysis. Boston. IHI:2004.

3
Reference ID: 2960821

 4.1

COMMENTS TO THE DIVISION OF HEMATOLOGY PRODUCTS

4.2

1.

The Dosage and Administration sections indicate that the 10 mg dose can be taken with or
(b) (4)
without food
. These instructions are likely to
lead to confusion and medication errors as administration of a product with or without food
is typically based upon the active ingredient(s) of the product and not the dose being
administered. We recommend revision of the labeling to indicate that the proposed product
should always be taken with food.

2.

We recommend using the terms “greater than” or “less than” instead of the “>” and “<”
symbols throughout the insert labeling as these symbols have been mistaken as the opposite
of their intended meaning. FDA launched a campaign on June 14, 2006, warning healthcare
practitioners and consumers not to use error prone abbreviations, acronyms, dose
designations, or symbols. As part of the campaign, FDA agreed not to use such error prone
designations in their approved product labeling.

3.

Define the abbreviation “P-gp” the first time it is used in the insert labeling.

4.

We note a typographical error in Section 8.7, Renal Impairment. The words ‘with’ and
‘and’ (following “n = 8”) should appear in reverse order.

5.

Add the units of measurement to Creatinine Clearance throughout the labeling and avoid
using dashes to reflect the range (e.g., revise “CrCL 30 – 50 mL/min” in Section 8.7 to read
“CrCL 30 mL/min to CrCL 50 mL/min”).

6.

The last statement in Section 2 Dosage and Administration (in Full Prescribing Information)
regarding administration of this product via feeding tube appears to contradict the statement
in Section 12.3 under Clinical Pharmacology. Please clarify the appropriateness of
administration of this drug product via feeding tube.

COMMENTS TO THE APPLICANT
1.

Blister Label, Container Label and Carton Labeling
In accordance with 21 CFR 201.10(g)(2), increase the prominence of the established name to
be commensurate with the proprietary name taking into account all pertinent factors,
including typography, layout, contrast, and other printing features.

2.

Container Label and Carton Labeling
a. Reduce the size of the graphic which appears to the left of the ‘X’ so that it does not
distract from the proprietary name.
b. Relocate the strength, “10 mg” to come after the dosage form so that it reflects the
traditional sequence of information.

3.

Carton Labeling (for Hospital Unit Dose Tablets)
a. Relocate the net quantity to appear in the upper right hand corner of the panels
and away from the statement of strength.
b. Delete storage statements from principal display panel and top panel to reduce clutter on
the label and decrease redundant statements
c. Relocate the ‘each tablet contains’ statement from the side panel to the principal display
panel.

3 Page(s) of Draft Labeling have been Withheld in Full as b4 (CCI/TS) immediately following this page
4
Reference ID: 2960821

 --------------------------------------------------------------------------------------------------------This is a representation of an electronic record that was signed
electronically and this page is the manifestation of the electronic
signature.
--------------------------------------------------------------------------------------------------------/s/
---------------------------------------------------TODD D BRIDGES on behalf of DENISE V BAUGH
06/14/2011
signing for Denise Baugh also.
CAROL A HOLQUIST
06/15/2011

Reference ID: 2960821

 DEPARTMENT OF HEALTH AND HUMAN SERVICES
PUBLIC HEALTH SERVICE
FOOD AND DRUG ADMINISTRATION
CENTER FOR DRUG EVALUATION AND RESEARCH
NDA REVIEW AND EVALUATION OF CARCINOGENICITY DATA
Application numbers:

22406, 202439

Supporting documents:

In Electronic Document Room (EDR)

Applicant’s letter dates:

22406: resubmission on 12/30/2010
202439: original submission 01/04/11

CDER stamp dates:
Product:

22406: resubmission on 01/03/11
202439: original submission on 01/05/11
Rivaroxaban (Bay 59-7939)

Indication:

Prevention of stroke and systemic embolism in
patients with non-valvular atrial fibrillation.

Applicant:

Ortho McNeil Janssen Pharmaceuticals Inc
[Bayer Schering Pharma AG (Bayer) and
Johnson & Johnson Pharmaceutical Research
and Development, L.L.C. (J&JPRD)]

Review Division:

Division of Cardiovascular and Renal Products

Reviewer:

Patricia P. Harlow, Ph.D.

Supervisor/Team Leader:

Thomas Papoian, Ph.D., D.A.B.T.

Division Director:

Norman Stockbridge, M.D., Ph.D.

Project Manager:

Alison Blaus

Template Version: September 1, 2010
Disclaimer
Except as specifically identified, all data and information discussed below and
necessary for approval of NDAs 22406 and 202439 are owned by Ortho McNeil
Janssen Pharmaceuticals Inc or are data for which Ortho McNeil Janssen
Pharmaceuticals Inc has obtained a written right of reference. Any information or data
necessary for approval of NDAs 22406 and 202439 that Ortho McNeil Janssen
Pharmaceuticals Inc does not own or have a written right to reference constitutes one of
the following: (1) published literature, or (2) a prior FDA finding of safety or effectiveness
for a listed drug, as reflected in the drug’s approved labeling. Any data or information
described or referenced below from reviews or publicly available summaries of a
previously approved application is for descriptive purposes only and is not relied upon
for approval of NDA 22406 and 202439.
1
Reference ID: 2959378

 NDA 202439

Patricia Harlow, Ph.D.

TABLE OF CONTENTS
1

EXECUTIVE SUMMARY ......................................................................................... 5
1.1
1.2
1.3

2

INTRODUCTION .................................................................................................... 5
BRIEF DISCUSSION OF NONCLINICAL FINDINGS ...................................................... 5
RECOMMENDATIONS ............................................................................................ 6

DRUG INFORMATION ............................................................................................ 7
2.1
2.2
2.3
2.4
2.5
2.6
2.7

DRUG ................................................................................................................. 7
RELEVANT INDS, NDAS, BLAS AND DMFS ........................................................... 7
DRUG FORMULATION ........................................................................................... 8
COMMENTS ON NOVEL EXCIPIENTS ....................................................................... 8
COMMENTS ON IMPURITIES/DEGRADANTS OF CONCERN ......................................... 8
PROPOSED CLINICAL POPULATION AND DOSING REGIMEN ...................................... 8
REGULATORY BACKGROUND ................................................................................ 8

3

STUDIES SUBMITTED............................................................................................ 9

4

CARCINOGENICITY ............................................................................................... 9

5

INTEGRATED SUMMARY AND SAFETY EVALUATION .................................... 51

6

APPENDIX/ATTACHMENTS................................................................................. 53

2
Reference ID: 2959378

 NDA 202439

Patricia Harlow, Ph.D.

Table of Tables
Table 1: Reviewer’s Table Summarizing Mortality in Mice - Document PH-36243........ 12
Table 2: Reviewer's Summary of Clinical Findings - Document PH-36243 ................... 14
Table 3: Reviewer's Summary of Body Weights - Document PH-36243 ....................... 14
Table 4: Sponsor’s Summaries of Food and Water Intake - Document PH-36243 ....... 15
Table 5: Reviewer's Summary - Hematology Results - Document PH-36243 ............... 17
Table 6: Reviewer's Summary Thromboplastin Times - Document PH-36243.............. 18
Table 7: Reviewer's List of Organs Collected - Document PH-36243 ........................... 19
Table 8: Reviewer's Summary of Necropsy Findings - Document PH-36243................ 20
Table 9: Sponsor's Summaries of Organ Weights - Document PH-36243 .................... 21
Table 10: Reviewer's Summary of Neoplastic Findings – Document PH-36243 ........... 22
Table 11: Reviewer's Summary Non-neoplastic Lesions – Document PH-36243 ......... 24
Table 12: Reviewer's Summary of Toxicokinetics in Mice - Document PH-36243 ........ 26
Table 13: Reviewer's Summary of Formulation Analysis - Document PH-36243 .......... 27
Table 14: Reviewer's Summary of Rat Mortality – Document PH-36242 ...................... 30
Table 15: Reviewer's Summary of Notable Clinical Signs – Document PH-36242........ 31
Table 16: Reviewer's Summary of Body Weights – Document PH-36242 .................... 31
Table 17 : Sponsor's Summaries of Food and Water Intake – Document PH-36242.... 33
Table 18: Reviewer's Summary of Hematology Parameters – Document PH-36242.... 34
Table 19: Reviewer's Summary of Thromboplastin Times – Document PH-36242 ....... 35
Table 20: Sponsor's Summary of Clinical Chemistry - A – Document PH-36242.......... 38
Table 21: Sponsor's Summary of Clinical Chemistry - Part B - Document PH-36242 ... 39
Table 22: Reviewer's Summary of Serum Potassium Values - Document PH-36242 ... 40
Table 23: Reviewer's Summary of Tissues Collected - Document PH-36242 ............... 41
Table 24: Reviewer's Summary of Gross Pathology - Document PH-36242................. 42
Table 25: Sponsor's Summaries of Organ Weights - Document PH-36242 .................. 43
Table 26: Reviewer's Summary of Spleen Weights - Document PH-36242 .................. 44
Table 27: Reviewer's Summary – Neoplastic Lesions - Document PH-36242 .............. 46
Table 28: Reviewer's Summary - Non-neoplastic Lesions - Document PH-36242........ 48
Table 29: Reviewer's Summary of Toxicokinetic Results – Document PH-36242......... 50
Table 30: Reviewer's Summary of Formulation Analyses – Document PH-36242 ........ 51
Table 31: Safety Margins for Human Dose of 20 mg Rivaroxaban Daily....................... 52
Table 32: Safety Margins for Human Dose of 10 mg Rivaroxaban Daily....................... 52

3
Reference ID: 2959378

 NDA 202439

Patricia Harlow, Ph.D.

Table of Figures
Figure 1: Structure of Rivaroxaban ................................................................................. 7
Figure 2: Reviewer's Survival Graphs - Document PH-36243....................................... 13
Figure 3: Sponsor's Body Weight Graphs - Document PH-36243................................. 15
Figure 4: Sponsor's Concentration-Time Profiles in Mice - Document PH-36243 ......... 27
Figure 5: Reviewer's Survival Graphs - Document PH-36242....................................... 30
Figure 6: Sponsor's Body Weight Graphs – Document PH-36242 ................................ 32
Figure 7: Sponsor's Plasma Concentration Profiles – Document PH-36242 ................. 50

4
Reference ID: 2959378

 NDA 202439

1

Executive Summary

1.1

Introduction

Patricia Harlow, Ph.D.

Rivaroxaban is a direct factor Xa inhibitor being developed for the prevention and
treatment of multiple thrombosis-mediated conditions, including short-term prophylaxis
of deep vein thrombosis in patients undergoing knee or hip replacement surgery under
NDA 22406 and for the longer-term prevention of stroke and systemic embolism in
patients with non-valvular atrial fibrillation under NDA 202439.
According to the ICH Guideline S1A (1996), “Carcinogenicity studies should be
performed for any pharmaceutical whose expected clinical use is continuous for at least
6 months. For the longer-term indication under NDA 202439, the study reports of the
carcinogenicity studies were submitted and reviewed. However, this document was
written separately from the remainder of the nonclinical review for NDA 202439 to
support similar incorporation of the carcinogenicity results into the label for the shorterterm indication under NDA 22406.

1.2

Brief Discussion of Nonclinical Findings

Two year carcinogenicity studies were conducted in CD-1 mice and Wistar rats.
In an adequate 104-week study using 60 CD-1 mice/sex/group, daily doses of 0, 10, 20,
and 60 mg/kg/day of rivaroxaban in ethanol/solutol HS/tap water (10/40/50% v/v) were
administered by oral gavage. The systemic exposures (AUCs) of unbound rivaroxaban
in male and female mice at the highest dose tested (60 mg/kg/day) were 1- and 1.6
times, respectively, the human exposure of unbound drug at the human dose of 20 mg
per day, and 3- and 5-times, respectively, the human exposure of unbound drug at the
human dose of 10 mg daily.
No significant treatment-related effects were observed in mice on mortality, bodyweight
gain or food consumption. At study end, slight decreases in hemoglobin concentration
and hematocrit, slightly prolonged thromboplastin times, and increased incidences of
microscopic pigment deposits were consistent with the pharmacodynamic action of
rivaroxaban as a factor Xa inhibitor. Consistent with the increase in liver nodules
macroscopically, hepatocellular tumors (adenoma and carcinoma) increased with
rivaroxaban dosage in the male, but not in the female mice. However, the incidences of
hepatocellular tumors were within historical ranges, and the attained p values do not
reach the thresholds to classify these tumors as drug-related.. Similarly, the incidences
of a few other tumors, including histiocytic sarcoma, malignant lymphoma, ovarian
cystadenoma, uterine hemangiosarcoma, and testicular Leydig cell tumors, were
numerically increased in the higher dose groups compared to those in the control
groups. However, the incidences were within historical ranges, and the attained p
values do not reach the thresholds to classify these tumors as drug-related.
In an adequate 104-week study using 50 Wistar rats/sex/group, daily doses of 0, 10, 20,
and 60 mg/kg/day of rivaroxaban in ethanol/solutol HS/tap water (10/40/50% v/v) were
administered by oral gavage. The systemic exposures (AUCs) of unbound rivaroxaban
5
Reference ID: 2959378

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in male and female rats at the highest dose tested (60 mg/kg/day) were 1.5- and 3.7
times, respectively, the human exposure of unbound drug at the human dose of 20 mg
per day, and 4- and 10-times, respectively, the human exposure of unbound drug at the
human dose of 10 mg daily.
No significant treatment-related effect was observed in rats on mortality, bodyweight
gain, and food consumption. Although only slight effects were observed on red cell
parameters on Days 184, 366, 548, and 716 , the mean values for thromboplastin time
for all treated groups on all sampling days were significantly greater (up to 1.9 and 2.5fold in males and females, respectively) than those for the control groups. Likewise, the
incidence of pigment deposition increased in some organs and across all organs in the
high dose groups consistent with the pharmacodynamic action of BAY 59-7939.
However, the incidence of valvular fibrosis in the heart increased with dose in both male
and female rats with the incidence in females statistically significant (p = 0.0048) in a
trend test, but not in a pair-wise test ( p = 0.0587).
The incidences of a few tumors in rats, including squamous cell carcinoma of the clitoral
glands, adrenal cortical adenoma, adrenal pheochromocytoma, mammary
fibroadenoma, histocytic sarcoma, and skin fibroma, were numerically increased in the
higher dose groups compared to those in the control groups. However, these incidences
were within historical ranges, and the attained p values do not reach the thresholds to
classify these tumors as drug-related according to the CDER statistical criteria.
The nonclinical and statistical reviewers concurred with the sponsor that no significant
evidence of neoplasia related to BAY 59-7939 treatment was observed either in Wistar
rats or CD-1 mice. The Executive Carcinogenicity Assessment Committee also
concluded that there were no clear drug-related neoplasms in either study.

1.3
1.3.1

Recommendations
Approvability

The results of the carcinogenicity studies support approvability of rivaroxaban.
1.3.2

Additional Non Clinical Recommendations

No additional nonclinical recommendation is necessary.
1.3.3

Labeling

For Section 13.1 of the label for NDA 22406 and NDA 202439; however, the exposure
ratios below are for NDA 22406.
Rivaroxaban was not carcinogenic when administered by oral gavage to mice or rats for
up to 2 years. The systemic exposures (AUCs) of unbound rivaroxaban in male and
female mice at the highest dose tested (60 mg/kg/day) were 3- and 5-times,
respectively, the human exposure of unbound drug at the human dose of 10 mg per

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day. Systemic exposures of unbound drug in male and female rats at the highest dose
tested (60 mg/kg/day) were 4- and 10-times, respectively, the human exposure.

2

Drug Information

2.1

Drug

CAS Registry Number: 366789-02-8
Generic Name: Rivaroxaban (Xarelto™)
Code Names: JNJ-39039039, BAY 59-7939
Chemical Name: 5-chloro-N-({(5S)-2-oxo-3-[4-(3-oxomorpholin-4-yl) phenyl]-1,3oxazolidin-5-yl}methyl)thiophene-2-carboxamide
Molecular Formula/Molecular Weight: C19H18ClN3O5S/ 435.89 g/mol
Structure or Biochemical Description:
Figure 1: Structure of Rivaroxaban

Pharmacologic Class: Rivaroxaban is a direct Factor Xa inhibitor.

2.2

Relevant INDs, NDAs, BLAs and DMFs

NDA-022406 (DHP)
IND-064892 (DHP)
(b) (4)

7
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2.3 Drug Formulation

Rivaroxaban is formulated for oral administration as immediate release, ?lm-coated
tablets containing either (W) of active compound. The tablets also contain
cellulose NF, croscarmellose sodium NF, hypromellose
USP), lactose monohydrate NF, magnesium stearate NF, sodium
lauryl sulfate NF, as excipients. The commercially available ?lm
coating for the tablet is Opadry containing hypromellose
15 cp USP, polyethylene glycol (Macrogol) 3350 NF, ferric oxide red NF,

and titanium dioxide USP. (m4)


(4)

2.4 Comments on Novel Excipients

All of the excipients are commonly used in oral commercial pharmaceutical dosage
forms. The CMC Review of NDA 22406 indicates that the formulation excipients are
conven?onaL

2.5 Comments on Impurities/Degradants of Concern

Impurities and degradants will be discussed in the nonclinical review of NDA 202439.

2.6 Proposed Clinical Population and Dosing Regimen

Rivaroxaban is being developed for the prevention and treatment of multiple
thrombosis-mediated conditions. Under NDA 22406, rivaroxaban at 10 mg daily is
proposed for the prophylaxis of deep vein thrombosis (DVT) in patients undergoing
knee or hip replacement surgery. Under NDA 202439, rivaroxaban at 20 mg daily is
proposed for the prevention of stroke and systemic embolism in patients with non-
valvular atrial fibrillation.

2.7 Regulatory Background

The carcinogenicity protocols were submitted and reviewed under IND 64,892. In April
2005, the Exec CAC reviewed rat and mouse carcinogenicity protocols that proposed
dietary administration of rivaroxaban 
. The Exec CAC did not concur with the proposed protocols and made
recommendations to the sponsor. In January 2006, the Exec CAC reviewed additional
data submitted by the sponsor and concurred with the sponsor?s originally proposed
dietary doses. However, a subsequent addendum to the January 2006 meeting minutes
indicates the Exec CAC rescinded this concurrence, because the sponsor failed to
submit the stability and pharmacological activity data ?m as requested
by DMIHP in a teleconference on February 6, 2006. The carcinogenicity protocols and
the Exec action were discussed with the sponsor in a teleconference on
February 23, 2006. Subsequently, in a teleconference on June 1, 2006, the sponsor

Reference ID: 2959378

NDA 202439 Patricia Harlow, 

revealed that

   
 
  

as the drug product for development. On August 1, 2006, the
xec eva ua carcinogenicity protocols that used micronized rivaroxaban. For

both the rat and mouse rotocols the Exec CAC did not concur with the sponsor?s
proposed doses? and instead recommended doses ora gavage, ased on saturation of absorption in 13-week
gavage studies.

3 Studies Submitted

The following study reports for the carcinogenicity studies were submitted under NDA
202439 and are reviewed in Section 4 below

   

   

 

Document Study Study Title
Number Number

 

PH-36243 T3076596 BAY 59-7939: Carcinogenicity Study in CD-1 Mice (2 Years
Administration by Gavage)

 

PH-36242 T8076429 BAY 59-7939: Carcinogenicity Study in Wistar Rats (2 Years
Administration by Gavage)

 

 

 

 

 

4 Carcinogenicity

Two year carcinogenicity studies were conducted in CD-1 mice and Wistar rats.
The nonclinical reviews of the study reports are below. The complete statistical review
by Dr. Matthew Jackson dated May 11, 2011 is in DARRTS.

Reference ID: 2959378

NDA 202439

Patricia Harlow, Ph.D.

Study title: BAY 59-7939: Carcinogenicity Study in CD-1 Mice (2
Years Administration by Gavage)
Document no.:
Study no.:
Study report location:
Conducting laboratory
and location:
Date of study initiation:
GLP compliance:
QA statement:
Drug, lot #, and % purity:
CAC concurrence protocol:

CAC concurrence – study
results:

PH-36243
T3076596 (AT05917)
EDR, Module 4
Bayer Schering Pharma AG
GDD-GED Toxicology, Wuppertal Germany
October 17, 2006
Indicated
Present
BAY 59-7939 (rivaroxaban)
a) Lot BXO23BS, purity 100%
b) Lot BXA18UX, purity > 99.7%
On August 1, 2006, the Executive CAC did not
(b) (4)
concur with the sponsor’s proposed doses
and instead recommended
doses of 0, 10, 20, and 60 mg/kg/day by oral
gavage, based on saturation of absorption. The
Executive CAC meeting minutes are in Appendix 1.
On April 15, 2011, the Executive CAC concurred
that the study was adequate and there were no
clear drug-related neoplasms. The Executive CAC
meeting minutes are in Appendix 2.

Key Study Findings
Introduction
CD-1 mice received oral doses of BAY 59-7939 (rivaroxaban) for up to 104 weeks. At
dosages of 10, 20 and 60 mg/kg/day the mean AUC(0-24h) during Week 52 was 980,
1540, and 2520 ng.hr/mL in males and 1710, 3290, and 4240 ng.hr/mL in females,
respectively.
Summary of Non-neoplastic Findings
Consistent with the anti-coagulant pharmacodynamic action of BAY 59-7939, the mean
thromboplastin time at 1 hour after dosing was significantly prolonged in all treated
groups of males and females on all sampling days; however, not all members of each
treated group had values above the normal range. Some of the non-neoplastic
microscopic findings, such as increased pigment deposits, were also related to the
pharmacodynamic action of BAY 59-7939. The combined incidence of necrosis in the
liver slightly increased in the high dose males. In addition, the incidence of biliary cysts
in the liver and dilation/atrophy in the preputial gland increased in mid and high dose
male groups.
Adequacy of Carcinogenicity Study
The mouse carcinogenicity study used the doses (0, 10, 20, and 60 mg/kg/day) that
were recommended by the Exec CAC based on saturation of exposure at the high10
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Patricia Harlow, Ph.D.

dose. The study length was acceptable since the male and female mice were treated for
up to 104 weeks. No statistically significant difference in mortality was observed
between control and treated groups for either sex.
Appropriateness of Test Model
The Crl: CD-1™ (ICR) BR strain is an appropriate model because this strain is known to
be responsive to known carcinogens and historical control data have been established.
The proposed metabolic pathway of BAY 59-7939 in mice and man is similar involving
structural cleavage and hydroxylation, although a minor metabolite, M-5, is not formed
in mice.
Summary of Tumor Findings
Consistent with the increase in liver nodules macroscopically, hepatocellular tumors
(adenoma and carcinoma) increased with BAY 59-7939 dosage in the males, but not in
the females. If the hepatocellular tumors are combined, the statistical evaluations by the
sponsor and the FDA statistician indicated p values in the trend test (pt) of 0.0076 and
0.036, respectively. Since hepatocellular tumors are common tumors in mice, no p
value for hepatocellular tumors attains the significance level (p < 0.005) necessary for
the tumors to be considered positive, according to current CDER guidance.
Furthermore, the incidence of either basophilic foci or total foci of alterations in the liver
was similar across control and treated groups. The incidences of hepatocellular tumors
for the male treated groups in the current study are within historical ranges.
The incidences of a few other tumors were increased in the higher dose groups
compared to those in the control groups. The tumors with overall incidences greater
(b) (4)
than 1% in the
listing (2003) for spontaneous tumors in CD-1 mice
include histocytic sarcoma in the high dose females (incidence of 1.6%, sponsor’s pt =
0.176, FDA pt = 0.174), malignant lymphoma in the high dose males ((incidence of
4.5%, sponsor’s pt = 0.136, FDA pt = 0.043) and in mid- and high dose females
(incidence of 9.9%, sponsor’s pt = 0.071, FDA pt = 0.164). The tumors with overall
(b) (4)
incidences less than 1% in the
listing (2003) for spontaneous tumors in
CD-1 mice include ovarian cystadenoma in the high dose females (incidence of 0.74%,
sponsor’s pt = 0.032, FDA pt = 0.055), testicular Leydig cell tumor in mid and high dose
males ((incidence of 0.85%, sponsor’s pt = 0.070, FDA pt = 0.155) and uterine
hemangiosarcoma in the high dose females ((incidence of 0.47%, sponsor’s pt = 0.086,
FDA pt = 0.058). In RITA historical control database, the mean incidences of testicular
Leydig cell tumor and ovarian cystadenoma are 3.2% and 1.7%, respectively. However,
no p value for these tumors attained the significance level of p < 0.025 required for even
a rare tumor to be considered positive. In addition, the incidences are within historical
ranges.
Evaluation of Tumor Findings
The FDA nonclinical and statistical reviewers concur with the sponsor that no significant
evidence of neoplasia related to BAY 59-7939 treatment was observed in CD-1 mice.

11
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Methods
Doses:
Frequency of dosing:
Dose volume:
Route of administration:
Formulation/Vehicle:

0, 10, 20, and 60 mg/kg/day
Daily for up to 729 days
10 mL/kg
Orally by gavage
Ethanol/Sotutol HS 15/Tap Water (10/40/50
v/v/v)
Basis of dose selection: A 13-week dose range finding study in the
same strain of mice indicated that absorption of
BAY 59-7939 saturated at 60 mg/kg
Species/Strain: Mice (Mus musculus)/ Crl:CD-1(ICR) BR
(b) (4)

Number/Sex/Group: Main: 60 animals/sex/dose
Satellite: 20 animals/sex/dose
Age: 6-7 weeks on first day of treatment
Animal housing: Individual cages
Paradigm for dietary restriction: None; food was administered ad libitum
Dual control employed: None
Interim sacrifice: None
Satellite groups: Yes, for clinical laboratory and toxicokinetic
measurements
Deviation from study protocol: Not indicated

Observations and Results
Mortality
The animals were examined visually for mortality and morbidity twice daily, except on
weekends and holidays when they were examined once daily.
Although no statistically significant difference in mortality was observed (Table 1), the
high dose males showed a slight decrease in mortality compared to the control males
and the high dose females showed a slight increase in mortality compared to control
females at the end of the study.
Table 1: Reviewer’s Table Summarizing Mortality in Mice - Document PH-36243
Dose, mg/kg
Main animals
Total number/group
Intercurrent deaths
% mortality
Satellite animals
Total number/group
Intercurrent deaths
% mortality

0

Males
10
20

0

Females
10
20

60

60
37
61.6

60
36
60

60
34
56.6

60
31
51.6

60
32
53.3

60
29
48.3

60
31
51.6

60
36
60

20
15
75

20
11
55

20
11
55

20
9
45

20
12
60

20
13
65

20
11
55

20
13
65

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The sponsor did not provide Kaplan-Meier survival graphs. The reviewer?s graphs
(Figure 2) below indicate survival was greater in the high dose male group compared to
control male group beginning at Week 50. The survival in the mid dose female group
was greater than that in the control female group during Weeks 50 to 104.

Figure 2: Reviewer's Survival Graphs - Document PH-36243

 

 

     

 

 

 

 

Male Mice Female Mice
o1ozoao4osoeo7oaoso1oo110 
Week 

 

 

 

 

The pathologist noted two factors, malignant and amyloidosis, that
contributed to mortality of some decedents. The percentage of mid and high dose
female decedents (30-47%) with moderate to severe amyloidosis in the duodenum,
liver, kidneys and spleen was lower than the percentage of control female decedents
(57-60%) with amyloidosis. However, the percentage of male decedents with
amyloidosis generally was similar across dose groups, except in a few organs, such as
the heart (control: 29%, high dose: 11%) and stomach (control 32%, high dose: 
The percentage of mid and high dose female decedents (17-23%) with malignant
was higher than the percentage of control female decedents with
malignant Likewise, the percentage of high dose male decedents 
with malignant was higher than the percentage of control male decedents
with malignant 

Clinical Examinations
Detailed clinical examinations were made once before the start of treatment and once
weekly in all groups during treatment.

The most frequent clinical signs included increased urine excretion, piloerection, pallor,
and increased girth (Table 2). The incidence of animals with increased girth was greater
in the low, mid and high dose male groups and the mid and high dose female groups
compared to the incidence in the control groups. However, the finding of increased girth
did not correlate with the numbers of animals with palpable masses. lmportantly, the
incidence of signs associated with bleeding (vaginal, discolored feces, and blood in
bedding) was low and did not show a dosage relationship.

1 3
Reference ID: 2959378

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Table 2: Reviewer's Summary of Clinical Findings - Document PH-36243
Finding/Dose (mg/kg)
Number of animals
Increased urine
excretion
Piloerection
Pallor
Increased girth
Palpable masses

Cumulative number of animals in main groups (in satellite groups)
Male mice
Female mice
0
10
20
60
0
10
20
60
60 (20) 60 (20) 60 (20)
60 (20) 60 (20) 60 (20) 60 (20) 60 (20)
25 (14)
29 (9)
31 (8)
25 (12) 25 (11) 27 (10)
26 (9)
19 (11)
28 (15)
23 (14)
7 (8)
2 (1)

21 (15)
27 (13)
19 (2)
5 (0)

32 (10)
24 (6)
17 (1)
6 (0)

22 (13)
23 (6)
16 (3)
3 (1)

23 (8)
20 (9)
12 (7)
4 (2)

20 (8)
24 (12)
12 (5)
0 (0)

22 (3)
22 (8)
16 (7)
2 (0)

19 (10)
18 (10)
17 (8)
1 (0)

Body Weights
The animals in all groups were weighed on Day 1 of treatment and weekly up to
scheduled necropsy and immediately before necropsy.
Body weight and body weight gain in the main study groups were not significantly
affected by treatment with BAY 59-7939 (Table 3, Figure 3).
Table 3: Reviewer's Summary of Body Weights - Document PH-36243
Main Study
Day
Dose (mg/kg)
Mean body weight (gm)
1
92
183
274
365
456
547
631
722
729
Body weight gain (gm)
Day 1 – Day 183
Day 1 – Day 365
Day 1 – Day 729

Dose (mg/kg)
0

Male mice
10
20

0

Female mice
10
20

60

31.9
37.6
40.1
41.0
41.6
41.3
41.4
40.7
39.6
39.4

31.7
37.1
39.8
40.3
40.4
40.1
40.0
39.7
40.0
39.7

32.1
38.1
41.3
41.6
42.0
42.2
41.3
41.4
40.4
40.2

31.7
37.6
39.9
40.8
41.4
41.7
40.6
40.9
39.8
40.0

25.7
30.0
31.1
31.8
32.4
32.4
32.7
32.1
32.5
32.3

25.8
29.9
31.7
31.9
32.6
32.6
33.0
33.6
33.2
33.2

25.5
30.1
31.3
31.7
32.5
33.2
33.2
33.1
32.9
32.5

25.5
29.9
31.4
31.6
32.7
32.9
33.0
33.3
33.0
32.2

8.2
9.7
7.5

8.1
8.7
8.0

9.2
9.9
8.1

8.2
9.7
8.3

5.4
6.7
6.6

5.9
6.8
7.4

5.8
7.0
7.0

5.9
7.2
6.7

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Figure 3: Sponsor's Body Weight Graphs - Document PH-36243

Food and Water Consumption
Food and water consumption were determined weekly for individual main group
animals.
The sponsor’s summary tables below (Table 4) indicate that no treatment effect was
observed on group mean food or water intake relative to the control group.
Table 4: Sponsor’s Summaries of Food and Water Intake - Document PH-36243
Male mice

Female mice

Food intake

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Water intake

Reviewer’s modification of sponsor’s tables

Hematology
Blood samples for hematology were collected from 10 non-fasting satellite animals per
group during weeks 50, 77, and 103. The following parameters were measured:
hematocrit, hemoglobin concentration, erythrocyte count, erythrocyte morphology,
reticulocyte count, mean cell hemoglobin (MCH), mean cell hemoglobin concentration
(MCHC), mean cell volume, platelet count, total white cell count, and differential white
cell count, including lymphocytes, eosinophils, monocytes, segmented neutrophils,
banded neutrophils, and atypical lymphocytes. Additional blood samples taken for
measurement of thromboplastin time (Hepato Quick) were collected from 10 satellite
animals per group during weeks 51, 78, and 104 approximately 1 hour after drug
administration. Samples for blood smears were collected satellite groups during weeks
49, 76, and 101 as well as from all animals killed in moribund condition and the
surviving main study animals in the control and high dose groups near the end of the
study.
The sponsor concluded that no treatment-related effects on red blood cell parameters
were observed in either males or females at any dose of BAY 59-7939 after 49 and 76
weeks of treatment. Evaluation of hematology parameters at these timepoints is
complicated by some control animals having values outside of the reference range
(Table 5). For males on Day 347 the aberrant values were close to the reference range.
For males on Day 535 and females on Day 347 the aberrant control value could be
rejected on the basis of a statistical Q test (Dean and Dixon, 1951). For females on Day
536, two control females had values below the reference range and the concurrent
control range for some parameters was narrower than the reference range. On Days
716 and 717 only the concurrent control values were available for comparison. Some
values for individual animals in the treated groups were below the concurrent control
range and some values were above the concurrent control range. However, the
erythrocyte count, hemoglobin concentration, and hematocrit values were significantly
lower for the high dose females and a dose relationship was evident. Mean values for
these parameters for the high dose females on Days 347 and 536 were also lower, but
were not statistically significant. The high dose males had non-statistically significant
increases in these parameters on Days 535 and 716.
Although statistically significant increases were observed on Day 346 for MCH in the
low dose males and for MCHC in the low and mid dose males, these increases were not
considered toxicologically significant because of a lack of a dose response relationship
with the high dose group. Increased leucocyte counts on Day 716 in the mid and high
dose females were attributable to the very high values for single females (617 and 632)
in each group. Platelet and differential blood counts showed no significant treatmentrelated effects.

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Table 5: Reviewer's Summary - Hematology Results - Document PH-36243
Day
Male
mice

346

535

716

Female
mice

§

Dose
Mg/kg

ERY
10e12/L

0
Min., Max
10
20
60
2SD2SD+
0
Min., Max
10
20
60
2SD2SD+
0
Min., Max
10
20
60

8.52
7.32,10.08
8.20
8.58 [1]
8.51 [2]
7.03
10.52
7.55 (1){8.1}
2.61, 9.63
7.56 (1)
8.17 (2)
8.49
6.56
9.80
7.72
7.02, 8.76
7.64 [5]
8.13 [5]
8.78 [5]

Mean (# outside reference range) [# outside concurrent control range]
HB
HCT
MCH
MCHC
Gm/L
L/L
pg
Gm/L ERY
131 (1)
96,153
134
139
137 (1)
107
163
113 (1){122}
33, 129
113 (2)[1]
121 (1)[5]
127 [3]
102
150
115
105, 129
115 [7]
125 [4]
128 [5]

0.410 (1)
0.339, 0.459
0.403
0.414
0.416 (1) [1]
0.352
0.492
0.393 (1){0.373}
0.180, 0.438
0.390 (2)[2]
0.419 (1)[4]
0.434 (1)[5]
0.343
0.490
0.381
0.351, 0.435
0.373 [6]
0.401 [3]
0.421 [5]

347

15.4 (2)
13.3, 16.4
16.4* (2)[4]
16.2 (3)[3]
16.2 (3)[3]
13.9
16.6
14.9 (2)
13.0, 16.0
14.9 (1)
14.8 (3)[2]
14.9
14.2
16.7
14.7
14.1, 16.1
14.9 [3]
15.4 [3]
14.6 [1]

319 (1)
288, 332
332*[5]
335*(3)[6]
330 (1)[3]
294
343
283 (1) {293}
190, 307
289
288
292
266
341
298
294, 308
303 [9]
308 [6]
305 [4]

0
8.54 (1){8.82} 132 (2){138}
0.415 (1){431}
15.4 (1){15.7}
318 (1)
Min., Max
6.0, 9.27
75, 147
0.264, 0.441
12.7, 16.4
290, 336
10
8.65 (1)[3]
138 (2)[3]
0.427 (2)[3]
16.0 (1)[2]
324
20
8.42 (2)[1]
133 (1)
0.413 (2)[2]
15.8 (1)[3]
320
60
8.23 (4)[1]
128 (2)[2]
0.390 (4)[2]
15.4 (2)[2]
324 (2)[2]
2SD8.21
129
0.404
14.5
294
2SD+
9.74
152
0.493
16.8
334
536
0
7.98 (2)
119 (2)
0.411 (2)
15.0
290
Min., Max
5.19, 9.84
75, 141
0.267, 0.486
14.4, 15.4
284, 300
10
7.92
121 (1)
0.417 (1)
15.4 (1)[5]
291 (2)[3]
20
7.75 (1)[1]
119 (2)
0.413 (3)
15.3 (1)[7]
286 (2)[3]
60
7.53 (2)
111 (2)
0.385 (5)
14.8 (2)[3]
288 (2)[3]
2SD6.99
112
0.376
14.4
281
2SD+
9.99
153
0.508
16.9
320
§
0
8.70
128
0.428
14.7
298
717
Min., Max
7.38, 10.02
102, 141
0.345, 0.471
13.9, 15.5
286, 313
10
7.38 [3]
113 [2]
0.380 [2]
15.3 [3]
295 [1]
20
7.06 [5]
104 [3]
0.354 [2]
14.5 [5]
283 [4]
60
5.82* [5]
86*[4]
0.296* [4]
14.6 [2]
286 [3]
* p < 0.05, HD = high dose, ERY = erythrocytes, HB = hemoglobin concentration, HCT = hematocrit,
MCV = mean cell volume, MCH = mean cell hemoglobin, MCHC = mean cell hemoglobin concentration,
RETI = % reticulocytes, 2SD+ = 2 standard deviations above the mean, 2SD- = 2 standard deviations below the mean
§
Min. = minimum, Max. = maximum, Only concurrent control range available

RETI
%
31
24, 35
32 [4]
27
28
6
58
68 (1) {28}
21, 426
33 (4)[1]
35 (2)[1]
29 (2)[1]
21
35
49
26, 73
55 [7]
43 [3]
46 [4]
28
15, 41
29 (2)[2]
27
33 (2)[2]
17
41
45 (3)
17, 99
30
59 (1)[1]
44 (2)
12
58
35
12, 58
53 [3]
87 [4]
74 [4]

Although the mean thromboplastin time was significantly prolonged in all treated groups
of males and females on all sampling days (Table 6), examination of individual values
indicates that not all members of each treated group had values above the normal
range. Despite collection of blood samples at 1 hour after dose administration or close
to the Tmax, the maximum individual value on each sampling day was at most 1.8-fold
the mean of the respective control group. Furthermore, the maximum individual value
did not always occur in the highest dose group.

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Reference ID: 2959378

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Patricia Harlow, Ph.D.

Table 6: Reviewer's Summary Thromboplastin Times - Document PH-36243
Male
mice

Day
345

535

716

Female
mice

347

536

717

†

Dose
Mg/kg
0
10
20
60
0
10
20
60
0
10
20
60
0
10
20
60
0
10
20
60
0
10
20
60

Mean
18.0
21.9**
22.0**
22.2**
19.9
24.0**
24.1**
23.1**
20.0
23.2**
27.0**
24.4**
19.5
24.5**
24.0**
25.6**
19.0
23.2**
23.6**
24.2**
19.8
25.6**
24.6**
24.9**

HQUICK, sec
Min.
16.3
19.5
19.7
18.3
16.9
20.7
20.6
21.9
16.7
21.1
23.4
21.7
16.2
20.4
18.1
21.9
16.3
21.0
20.2
19.3
17.6
19.7
22.2
16.2

Number of values <3 standard deviations above mean,
than 10 animals/groups

‡

Max.
20.6
25.0
27.2
16.7
22.0
26.3
31.4
24.5
23.5
25.3
35.6
28.2
21.4
33.6
28.5
29.6
20.5
25.6
27.0
28.3
21.1
28.9
27.0
32.7

Reference range
3SD3SD+
13.3
22.7

15.0

24.7

16.7

23.5

15.1

23.8

15.1

22.9

17.6

21.1

Number
≤ 3SD+†
>3SD+‡
10
0
7
3
8
2
6
4
10
0
7
3
7
3
10
0
5§
0
5§
4
1§
8
4
6
10
0
5
5
3
7
3
7
10
0
4
6
2
8
4
6
8§
0
1§
6
§
0
9
1§
6

Number of values ≥ 3 standard deviations above mean,

§

Less

Gross Pathology
The surviving satellite animals were sacrificed for scheduled necropsy during week 105.
The surviving main study animals were sacrificed for scheduled necropsy during weeks
105-107. Animals found dead during the study were necropsied at the earliest
opportunity. The animals were subjected to systematic examination and the organs
listed in Table 7 were fixed in 10% neutral buffered formalin. The urinary bladder and
lungs were initially inflated with 10% neutral buffered formalin prior to fixation by
immersion.

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Reference ID: 2959378

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Patricia Harlow, Ph.D.

Table 7: Reviewer's List of Organs Collected - Document PH-36243
Abnormal tissues
Adrenal glands
Aorta
Brain (cerebrum, cerebellum, brain
stem)
Cecum
Clitoral gland
Colon
Duodenum
Epididymides
Esophagus
Eyes and eyelids
Extraorbital lacrimal glands
Femur with joint
Gall bladder#
Harderian glands
Head with skull cap
Heart
Ileum
Jejunum
#

Kidneys
Larynx
Liver#
Lungs
Lymph nodes (mandibular,
mesenteric)
Nasal cavity/nasopharynx
Optic nerves
Ovaries
Oviduct
Pancreas
Peyers patches
Pharynx
Pituitary
Preputial gland
Prostate
Rectum
Salivary glands (submandibular,
sublingual and parotid)
Sciatic nerve

Seminal vesicles with coagulating
glands
Skeletal muscle (thigh)+
Skin (mammary area)
Spinal cord (cervical, thoracic,
lumbar)
Spleen
Sternum with bone marrow
Stomach
Testes
Thymus
Thyroid with parathyroids
Tongue
Trachea
Ureters
Urethra
Urinary bladder
Uterus with cervix
Vagina
Zymbal’s glands

Satellite animals were also examined by histopathology.

The principal gross lesions were nodules, cysts, dilations and discolorations (Table 8).
Although nodules were found in many tissues, the highest incidence of nodules was in
the liver, lung, ovaries, and uterus. The incidence of nodules was increased in the livers
of mid and high dose males, the uteri of high dose females and the ovaries of mid and
high dose females. Lower incidences of nodules were found in mesenteric lymph node,
skin, spleen, heart, testes, thymus, body cavity and Harderian gland. The incidence of
nodules was increased in spleen of high dose males, hearts of high dose males, skin of
treated male groups, and mesenteric lymph node of mid and high dose male and
females. The incidence of nodules in other tissues (adrenal glands, gallbladder, kidney,
pancreas, pituitary, preputial glands, seminal vesicles, skull cap, sternum, and stomach)
was limited to a single incidence per group. Higher incidences of cysts in the liver were
observed in mid and high dose males compared to the incidence in the control group.
Higher incidences of lung discoloration were observed in mid and high dose females
compared to that in the control group. Higher incidence of gallbladder dilations were
observed in the high dose females compared to that in the control group. Necropsy
findings in the satellite animals confirm the increased cysts in the high dose male livers,
increased nodules in the mid and high dose male livers, and increased nodules in the
mid and high dose female ovaries.

19
Reference ID: 2959378

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Patricia Harlow, Ph.D.

Table 8: Reviewer's Summary of Necropsy Findings - Document PH-36243
Dose, mg/kg
Number of
Main study
animals
(decedents)
Finding
Tissue
Cyst
Liver
Ovaries
Dilations
Gallbladder
Uterus
Discoloration
Lung
Nodules
Liver
Lung
Ovaries
Uterus
Testes
Spleen
Thymus
Lymph node
mesenteric
Skin
Body cavity
Harderian gland
Heart
Satellite animals
Number
Cyst
Liver
Ovaries
Dilations
Gallbladder
Discoloration
Lung
Nodules
Lung
Liver
Ovaries
Uterus

0
60
(37)

Male mice
10
20
60
60
(36)
(34)

60
60
(31)

0
60
(32)

Female mice
10
20
60
60
(29)
(31)

60
60
(36)

0
2 (2)
4 (4)
4 (4)
6 (3)
0
0
1 (1)
0

0
0
4 (4)
8 (4)
10 (4)
0
1 (1)
2 (2)
1 (1)

3 (2)
2 (2)
6 (6)
12 (7)
5 (2)
3 (1)
0
0
3 (1)

3
0
7 (6)
12 (6)
8 (4)
1
3 (1)
2 (2)
2 (2)

0
18 (7)
6 (4)
0
6
3 (2)
5 (1)
2 (2)
4 (3)
0
2 (2)
1

1
24 (9)
5 (1)
0
6
1 (0)
3
2 (2)
3
0
3 (1)
1 (1)

1
18 (7)
6 (3)
2 (1)
12
3 (3)
6 (3)
5 (3)
5 (3)
0
1 (1)
2 (1)

1
18 (10)
12 (8)
2 (1)
12
1 (1)
6 (1)
4 (2)
9 (7)
0
1 (1)
2

0
1 (1)
2
0
23
0
0
0
3
0
-

2 (2)
0
0
0
24
0
0
0
6
4
-

2 (2)
0
1
1 (1)
26
1
0
0
3
5
-

2 (2)
0
1 (1)
2 (2)
29
3
0
0
4
6
-

1
2 (2)
2
0
28
0
11
2
0
4
1
0
2

0
0
0
0
31
1
18
4
2
3
1
0
3

1 (1)
3 (1)
0
0
29
1
11
3
2
3
0
2
3

1
0
0
0
24
1
8
4
0
5
0
2
0

Organ Weights
The following organs were weighed before fixation: adrenals, brain, kidneys, liver,
spleen, and testes.
Sponsor concluded that no treatment-related effect was observed on organ weights
(Table 9). However, the reviewer notes a slight increase in absolute and relative liver
weights in the high dose male group. This is best illustrated by a comparison of the
median liver weights. Some correlation of liver weight with the presence of nodules and
cysts exists in that 13 of the 19 males for whom liver weights were available had liver
weights above the median of the group.

20
Reference ID: 2959378

 NDA 202439

Patricia Harlow, Ph.D.

Table 9: Sponsor's Summaries of Organ Weights - Document PH-36243
Mean Absolute Organ Weights
Median
Liver
Weight
2297
2403
2224
2431
1847
1759
1795
1872
Mean Relative Organ Weights

5724
5894
5583
6331
5684
5301
5551
5692

Histopathology
Tissue samples from all main study animals were dehydrated, embedded in Paraplast,
sectioned, and stained with hematoxylin and eosin. All tissues listed in Table 7 and
gross abnormalities identified at macroscopic examination from all animals sacrificed at
the end of the scheduled treatment period and from all animals killed or dying during the
study were examined by histology. In addition, the liver and gallbladder were examined
microscopically from animals in all satellite groups.
Peer Review
Peer review included examination of the liver, pituitary glands and mesenteric lymph
nodes as well as all tumors and pre-neoplastic lesions of all groups. In addition,
approximately 25% of frequent lesions and all slides of six animals per sex from the
high dose group were also examined.
Neoplastic Lesions
The incidences of the most notable tumors in the mouse carcinogenicity study are
summarized in Table 10 below. The sponsor’s listing of tumor incidences is in Appendix
3. The statistical evaluations of the sponsor and the FDA statistician are in Appendix 4
and 5, respectively. Historical control data provided by the sponsor are in Appendix 9.
21
Reference ID: 2959378

 NDA 202439 Patricia Harlow, 

Consistent with the increase in liver nodules macroscopically, hepatocellular tumors
(adenoma and carcinoma) increased with BAY 59-7939 dosage in the males, but not in
the females. The sponsor?s evaluation of hepatocellular adenoma and hepatocellular
carcinoma indicated values in the trend test of 0.052 and 0.046, respectively. The
FDA statistician?s evaluation of hepatocellular adenoma and hepatocellular carcinoma
indicated values in the trend test of 0.128 and 0.143, respectively. If the hepatocellular
tumors are combined, the statistical evaluations by the sponsor and the FDA statistician
indicated values in the trend test (pt) of 0.0076 and 0.036, respectively. Since
hepatocellular tumors are common tumors in mice, no value attains the significance
level (p 0.005) necessary for the tumors to be considered positive, according to
current CDER guidance. Furthermore, the incidence of either basophilic foci or total foci
of alterations in the liver was similar across control and treated groups. The incidences
of hepatocellular tumors for the male treated groups in the current study are within
historical ranges.

The incidences of a few other tumors were increased in the higher dose groups
compared to those in the control groups. The tumors with overall incidences greater
than 1% in the listing (2003) for spontaneous tumors in CD-1 mice
include histocytic sarcoma in the high dose females (incidence of sponsor?s pt 
0.176, FDA pt 0.174), malignant in the high dose males (incidence of4.5%,
sponsor?s pt 0.136) and in mid- and high dose females (incidence of sponsor?s
pt 0.071). The tumors with overall incidences less than 1% in the ?b listing
(2003) for spontaneous tumors in CD-1 mice include ovarian cystadenoma in the high
dose females (incidence of 0.74%, sponsor?s pt 0.032, FDA pt 0.055), testicular
Leydig cell tumor in mid and high dose males (incidence of 0.85%, sponsor?s pt 0.070)
and uterine hemangiosarcoma in the high dose females (incidence of 0.47%, sponsor?s
pt 0.086, FDA pt 0.058). In RITA historical control database, the mean incidences of
testicular Leydig cell tumor and ovarian cystadenoma are 3.2% and respectively.
However, no value for these tumors attained the significance level of 0.025
required for even a rare tumor to be considered positive. In addition, the incidences are
within historical ranges.

Table 10: Reviewer's Summary of Neoplastic Findings Document PH-36243

 

 

 

 

 

 

 

Mouse Carcinogenicity Study BAY 59?7939 Dose level (mg/kg/day)
Neoplastic Findings'r Male Female
All main study animals ?an/Tissue Finding #lgroup Liver Hepatocellular Adenoma (RITA range: Male, (pt: 0.053(CR maximum: Male, 28%) De 0.057
Hepatocellular Adenocarcinoma (RITA range: Male, 4-22%) 0.046) 3.5 6.7 12.1 12.3 1.7 1.7 0 0
(CR maximum: Male, 16%) De 0.077
Hepatocellular Adenoma Adenocarcinoma (RITA range: 0.0076) 3.5 11.7 19.0 19.3 1.7 1.7 0 0
De 
Systemic tumors sarcoma (F: p1 0.176(CR maximum: Male: 8.0, Female: 18.3%) 3.5 0 0 3.5 5.2 5.0 6.8 8.6
(M: =0_111; F: p, =0.059(RITA range: Male: Female: 443.3%) 5.2 5.0 5.2 12.3 6.9 6.7 18.6 12.1
(CR maximum: Male: 21.7%, Female: 50%) pe 0.14 0.05 0.26
22

Reference ID: 2959378

NDA 202439

Patricia Harlow, Ph.D.

Mouse Carcinogenicity Study
†
Neoplastic Findings

BAY 59-7939 Dose level (mg/kg/day)
Male
Female
10
20
60
0
10
20
60
60
60
60
60
60
0
0
0
54
54
54
0
0
1
0
0
1.8

All main study animals
0
60
Organ/Tissue
Finding
#/group
60
60
Ovaries
#
0
63
Cystadenoma - B (pt = 0.033)
#
2
(RITA range: 0-5.0%) (CR maximum: 7.3%)
%
3.5
pe
0.248
Luteoma - B
#
0
0
2
1
(CR maximum: 4.0%)
%
0
0
3.5
1.8
Granulosa cell - B
#
0
0
2
0
(CR maximum: 2.9%)
%
0
0
3.5
0
Granulosa cell - M
#
0
0
1
0
(CR maximum: 1.7%)
%
0
0
1.7
0
Granulosa cell - combined
#
0
0
3
0
%
0
0
5.2
0
Testes
#
57
60
58
57
0
0
0
0
Granulosa cell - B
#
0
0
1
0
%
0
0
1.7
0
Leydig cell – B (pt = 0.07)
#
0
2
3
3
(RITA range: Male, 0-10%)
%
0
3.3
5.2
5.3
Vascular system
Hemangiosarcoma
Liver
#
1/58 2/60
0
2/57
0
0
1/59
0
%
1.7
3.3
0
3.5
0
0
1.7
0
Spleen
#
1/58
0
0
0
1/58
0
1/59
0
%
1.7
0
0
0
1.7
0
1.7
0
Skin
#
0
0
0
0
1/58
0
0
0
%
0
0
0
0
1.7
0
0
0
Uterus (pe = 0.248, Trend pt = 0.086)
#
0
0
1/58
2/58
(CR maximum: 4.1%)
%
0
0
1.7
3.5
Body cavity
#
0
0
0
0
0
0
1/4
0
%
0
0
0
0
0
0
N<10
0
Combined hemangiosarcomas
#
2
2
0
2
2
0
4
2
%
3.4
3.3
0
3.5
3.4
0
>6.8
3.5
Hemangioma
Spleen
#
0
0
1/58
0
0
0
0
0
%
0
0
1.7
0
0
0
0
0
Skin
#
0
0
0
1/57
0
0
0
0
%
0
0
0
1.8
0
0
0
0
Uterus
#
2/58
0
1/58
0
(CR maximum: 4.6%)
%
3.5
0
1.7
0
Spinal Cord
#
0
1/60
0
0
0
0
0
0
%
0
1.7
0
0
0
0
0
0
Combined hemangiomas
#
0
1
1
1
2
0
1
0
%
0
1.7
1.7
1.8
3.5
0
1.7
0
Total hemangiosarcomas + hemangiomas #
2
3
1
3
4
0
5
2
%
3.4
5.0
1.7
5.3
7.0
0
>8.5
3.5
†
All p values are from the sponsor’s study report for T3076596. pe = Exact p value, p = Trend p value, RITA(Registry
(b) (4) , March 2005
of International Toxicology Animal) Data, 2009,

Non Neoplastic Lesions
The study pathologist considered the significant increases in biliary cysts in the liver of
males and dilation/atrophy in the preputial gland to be background variation (Table 11).
The pathologist noted non-statistically significant increases in ovarian hemorrhages
often associated with large cyst formation in the treated females groups and a
statistically significant increase in ovarian pigment deposits. Likewise, extramedullary
hematopoiesis in the spleen and liver increased in incidence and severity in the treated
male groups and reached statistical significance for the mid-dose group. The pathologist
considered the observations of hemorrhage, pigment deposits and hematopoiesis to be
related to the pharmacodynamic effect of BAY 59-7939.

23
Reference ID: 2959378

 NDA 202439

Patricia Harlow, Ph.D.

Although the reviewer agrees that these observations could be related to the anticoagulant effects of BAY 59-7939, the reviewer notes that the incidence of hemorrhage
in other organs did not always increase with dose. In the urinary bladder, the incidence
of hemorrhage decreased with dose. Furthermore, the incidence of hemorrhage across
all organs did not increase with dose. However, the incidence of pigment deposits
increased in male liver, female ovaries, and female lungs. Also, the incidence of
pigment deposits across all organs did increase in the mid and high dose males and the
high dose females.
Table 11: Reviewer's Summary Non-neoplastic Lesions – Document PH-36243
Mouse Carcinogenicity Study
All animals
Organ/Tissue
Liver

Finding

#/group
#
Amyloidosis #
%
Basophilic foci #
%
Clear cell foci #
%
Eosinophilic foci #
%
Total foci #
%
Biliary cysts #
%

0
60
58
25
43.1
2
3.4
3
5.2
0
0
5
8.6
0
0

Increased hemopoiesis

#
%

0
0

Increased pigment deposit

#
%
#
%
#
%
#
%
#
%
#
#
%
#
%

2
3.5
10
17.2
0
0
5
8.6
15
25.8
58
1
1.8
2
3.5
57
4
7.0
-

Focal necrosis
Diffuse necrosis
Single cell necrosis/degeneration
Total necrosis
Gall bladder
Amyloidosis
Dilation
Urinary bladder
Hemorrhage
Ovaries
Amyloidosis
Hemorrhage
Pigment deposits

Testes
Hemorrhage
Leydig cell hyperplasia, diffuse
Leydig cell hyperplasia, focal

#
#
%
#
%
#
%
p
#
#
%
#
%
#
%

57
0
0
17
29.9
1
1.8

BAY 59-7939 Dose level (mg/kg/day)
Male
Female
10
20
60
0
10
20
60
60
60
60
60
60
60
60
60
58
57
58
60
59
58
23
19
25
22
28
14
19
38.3
32.8
43.9
37.9
46.7
23.7
32.8
2
2
4
0
0
0
1
3.4
3.4
6.8
0
0
0
1.7
1
1
1
1
0
0
0
1.7
1.7
1.7
1.7
0
0
0
0
4
1
0
0
0
1
0
6.8
1.7
0
0
0
1.7
3
7
6
1
0
0
2
5.0
12.1
10.5
1.7
0
0
3.4
0
3
3
0
1
2
2
0
5.2
5.2
0
1.7
3.4
3.4
p = 0.012
1
5
3
7
3
4
4
1.7
8.6
5.2
12.0
5.2
6.8
6.8
p = 0.022
1
3
4
0
2
0
1
1.7
5.2
7.0
0
3.3
0
1.7
9
13
12
11
10
8
10
15.0
22.4
21.1
19.0
16.7
13.6
17.2
1
0
0
0
0
0
0
1.7
0
0
0
0
3.4
0
5
2
8
1
3
0
1
8.3
3.5
14.0
1.7
5.0
0
1.7
15
15
20
12
13
8
11
25.0
25.8
35.0
20.6
21.6
13.6
19.0
60
58
57
58
60
59
58
1
0
1
3
4
0
1
1.8
0
1.9
5.4
6.8
0
1.9
1
3
0
5
5
6
10
1.8
5.5
0
8.9
9.5
10.3
18.5
60
57
57
58
59
57
57
1
0
1
0
0
0
0
1.7
3.5
3.5
0
0
0
0
57
60
57
57
11
17
5
9
19.3
8.8
15.9
28.3
4
10
10
8
7.0
16.7
17.5
14.0
0
0
1
3
0
0
1.8
5.3
p = 0.012
60
58
57
1
1
0
1.7
1.7
10
17
21
19
28.3
36.7
33.0
0
1
1
0
1.7
1.8
-

24
Reference ID: 2959378

 NDA 202439

Patricia Harlow, Ph.D.

Mouse Carcinogenicity Study
All animals
Organ/Tissue
Finding
#/group
Total Leydig cell hyperplasia #
%
Epididymides
#
Hemorrhage #
%
Oligospermia #
%
Prostate
#
Hemorrhage #
%
Lymphoid infiltrates #
%
Preputial gland
#
Dilation/atrophy #
%
p
Lungs
#
Alveolar hemorrhage #
%
Pigment deposits #
%
Urinary bladder
#
Hemorrhage #
%
Stomach
#
Amyloidosis #
%
Hyperplasia, squamous cell #
forestomach %
Hyperplasia, fundic mucosal #
%
Pancreas
#
Amyloidosis #
%
Heart
#
Amyloidosis #
%
Cardiomyopathy #
%
Spleen
#
Amyloidosis #
%
Pigment deposits #
%
Increased hemopoiesis #
%
All organs

Hemorrhage/hematoma
Pigment deposits

#
%
#
%

0
60
18
31.6
58
0
0
2
3.5
58
1
1.8
3
5.3
58
43
74.1
58
5
8.6
1
1.7
57
4
7.0
57
11
29.3
3
5.3
11
19.3
57
1
1.9
58
10
17.2
6
10.3
58
27
46.6
0
0
6
10.3
10
17.6
3
5.2

BAY 59-7939 Dose level (mg/kg/day)
Male
Female
10
20
60
0
10
20
60
60
60
60
60
60
17
22
20
28.3
37.9
35.0
60
58
57
1
0
1
1.7
0
1.8
6
5
7
10.0
8.6
12.3
60
58
57
0
0
0
0
0
0
6
4
6
10.2
6.9
10.5
60
58
57
43
47
50
71.7
81.0
87.7
p = 0.019
60
58
57
57
60
59
8
6
7
5
3
3
13.3
10.3
12.3
8.8
5.0
5.1
1
1
0
1
0
0
1.7
1.7
0
1.8
0
0
60
57
57
58
59
57
1
2
2
0
0
0
1.7
3.5
3.5
0
0
0
60
58
55
57
60
56
13
5
2
9
15
5
21.7
8.6
3.6
15.8
25.0
8.9
1
5
5
6
4
2
1.7
8.6
9.1
10.5
6.7
3.6
18
20
14
8
12
10
30.0
34.5
25.5
14.0
20.0
17.9
60
58
55
57
60
56
1
0
0
2
1
2
1.7
0
0
3.5
1.7
3.5
60
58
57
58
60
59
12
5
3
6
7
4
20.0
8.6
5.3
10.3
11.7
6.8
7
8
8
5
6
3
11.7
13.8
14.0
8.6
10.0
5.1
60
58
57
58
60
59
28
24
28
25
27
20
46.7
41.4
49.1
43.1
45.0
33.9
2
2
1
0
1
1
3.3
3.5
1.8
0
1.7
1.7
13
14*
10
10
11
14
21.7
24.1
17.5
17.2
18.3
23.7
P = 0.042
9
9
6
13
13
14
15.1
15.6
10.7
22.7
21.7
24.4
4
7
8
3
4
4
6.7
12.1
14.1
5.2
6.7
6.9

60
60
58
8
3
5.2
57
0
0
58
7
12.1
0
0
12
20.7
58
0
0
58
6
10.3
4
6.9
58
22
37.9
1
1.7
9
15.5
11
19.1
8
13.9

Toxicokinetics
Blood samples were obtained and plasma was prepared from three satellite
animals/sex/group at 0.5, 1, 2, 4, 7, and 24 hours after dosing on Days 1 and 361 of
treatment. On Day 710, blood samples were obtained from three satellite
animals/sex/group at 0.5 hour after dosing. After addition of an internal standard and
protein precipitation with acetonitrile, analysis of BAY 59-7939 was performed using a
validated LC-MS/MS assay with a lower limit of quantification of 0.002 mg/L. The

25
Reference ID: 2959378

 NDA 202439

Patricia Harlow, Ph.D.

concentration of BAY 59-7939 in control animals was below the limit of quantification on
all three sampling days.
The tmax was 0.5 - 1 hour, indicating rapid absorption of BAY 59-7939. Exposure to BAY
59-7939 on Day 1 was only slightly lower in males than in females; however, exposure
during Week 52 was lower in males by a factor of 0.5 to 0.8 (Table 12). Although
exposure increased with dose in both males and females, the increase was less than
dose-proportional. Exposure decreased with repeated dosing for 52 weeks by a factor
of 0.3 to 0.5 in males and 0.65 to 0.7 in females. Plasma concentrations at 0.5 hour
after dosing during Week 102 were not significantly different from plasma
concentrations at 0.5 hour after dosing during Week 52. Since the human exposure at
the highest recommended daily dose of 20 mg/day was 3.3 mg*hr/L, the exposure
multiples for male and female mice were 0.76 and 1.28 times, respectively, the human
exposure based on total AUC values. These multiples of the human exposure for male
and female mice increase to 1.0 and 1.6 based on unbound AUC values.
Table 12: Reviewer's Summary of Toxicokinetics in Mice - Document PH-36243
Pharmacokinetic Parameters – Day 1 versus Week 52
Male
Dose (mg/kg)
10
20
60
10
Day 1
AUC(0-24)
mg*hr/L
2.47
4.95
4.79
2.61
Cmax
mg/L
0.806
1.25
1.38
1.13
tmax
hr
0.5
0.5
1.0
0.5
Week 52
AUC(0-24)
mg*hr/L
0.98
1.54
2.52
1.71
Cmax
mg/L
0.363
0.503
1.09
0.568
tmax
hr
1.0
0.5
0.5
1.0
Plasma concentrations (mg/L) at 0.5 hour after drug administration
Male
Dose (mg/kg)
10
20
60
10
Day 1
Mean
0.826
1.26
1.29
1.16
(SD)
(0.222)
(0.129)
(0.122)
(0.298)
Week 52
Mean
0.469
0.536
1.11
0.495
SD
(0.313)
(0.237)
(0.241)
(0.110)
Week 102
Mean
0.321
0.446
0.809
0.739
SD
(0.119)
(0.031)
(0.164)
(0.220)

26
Reference ID: 2959378

Female
20

60

NC
1.28
0.5

6.15
2.33
0.5

3.29
0.963
0.5

4.24
1.02
0.5

Female
20
1.34
(0.457)
1.03
(0.495)
0.706
(0.271)

60
2.35
(0.318)
1.07
(0.404)
0.956
(0.316)

 NDA 202439

Patricia Harlow, Ph.D.

Figure 4: Sponsor's Concentration-Time Profiles in Mice - Document PH-36243
Plasma concentrations of BAY 59-7939 versus time after oral administration to male and female mice in
Week 52 (Geometric mean of n = 3)

Dosing Solution Analysis
Prior to the start of the study, test article formulations at concentrations above 6 mg/mL
and below 1 mg/mL were shown to be homogenous and stable for 15 days at room
temperature. During the study test article formulations were prepared as needed based
on the 15 day stability. Analysis of the dose formulations on eleven days throughout the
study showed the formulations were homogenous and the measured concentrations
ranged from 84% to 114% of nominal (Table 13).
Table 13: Reviewer's Summary of Formulation Analysis - Document PH-36243
Number
Mean recovery, %
SD
Maximum
Minimum

Nominal concentration, mg/mL
1
2
6
11
11
11
101.2
103.5
101.1
3.7
4.6
6.0
107
114
107
93
97
84

27
Reference ID: 2959378

 NDA 202439

Patricia Harlow, Ph.D.

Study title: BAY 59-7939: Carcinogenicity Study in Wistar Rats
(2 Years Administration by Gavage)
Document no.:
Study no.:
Study report location:
Conducting laboratory and
location:
Date of study initiation:
GLP compliance:
QA statement:
Drug, lot #, and % purity:
CAC concurrence protocol:

CAC concurrence –
study results:

PH-36242
T8076429 (AT05916)
EDR, Module 4
Bayer Schering Pharma AG
GDD-GED Toxicology, Wuppertal Germany
September 6, 2006
Indicated
Present
BAY 59-7939 (rivaroxaban)
a) Lot BXO23BS, purity 100%
b) Lot BXA18UX, purity > 99.7%
On August 1, 2006, the Executive CAC did not concur
(b) (4)
with the sponsor’s proposed doses
and instead recommended doses of 0, 10, 20,
and 60 mg/kg/day by oral gavage, based on saturation of
absorption. The Executive CAC meeting minutes are in
Appendix 1
On April 15, 2011, the Executive CAC discussed the
study results and concurred that the study was adequate
and there were no clear drug-related neoplasms. The
Executive CAC meeting minutes are in Appendix 2.

Key Study Findings
Introduction
Wistar rats received oral doses of BAY 59-7939 for up to 104 weeks. At dosages of 10,
20, and 60 mg/kg/day, the mean AUC(0-24h) was 13.4, 15.4, and 20.3 mg.hr/L in males
and 34.7, 47.5, and 48.2 mg.hr/L in females, respectively, during week 54 of treatment.
Summary of Non-neoplastic Findings
Consistent with the pharmacodynamic action of BAY 59-7939, the mean values for
thromboplastin time for all treated groups at 1 hour after dosing on all sampling days
were significantly greater than those for the control groups. Likewise, the incidence of
increased pigment deposition increased in some organs and across all organs in the
high dose groups. The incidence of valvular fibrosis in the heart increased with dose in
both males and females and the incidence was statistically significant in females (p =
0.0048) by the trend test.
Adequacy of Carcinogenicity Study
The rat carcinogenicity study used the doses (0, 10, 20 and 60 mg/kg/d) that were
recommended by the Executive CAC. The study length was acceptable since the rats
were treated for up to 104 weeks. No treatment-related effect on mortality was
observed.

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Reference ID: 2959378

 NDA 202439

Patricia Harlow, Ph.D.

Appropriateness of Test Model
The Wistar strain is an appropriate model because this strain is known to be responsive
to known carcinogens and historical control data are available. The most predominant
form of BAY 59-7939 in both rat and human plasma was unchanged compound. The
proposed metabolic pathway of BAY 59-7939 in rats and man is similar involving
structural cleavage and hydroxylation, although a minor metabolite, M-7, is not formed
in rats.
Summary of Tumor Findings
Squamous cell carcinoma was present in the clitoral gland of two high dose females.
Statistical evaluations by the sponsor and the FDA statistician indicated p values in the
trend test (pt) of 0.030 and 0.070, respectively. Neither p value attain the significance in
the trend test (pt < 0.025) required for this finding of a rare tumor to be considered
positive, according to current CDER guidance. Additionally, squamous cell papilloma
was present in both a control female and a high dose female. Although the incidence of
squamous cell carcinoma was statistically significant (p = 0.03), squamous cell
papilloma was present in both a control female and a high dose female. Therefore,
statistical significance for squamous cell carcinoma plus papilloma is lacking.
Adrenal cortical adenomas were present only in treated animals with the incidence
significantly higher in the mid and high dose females (p = 0.012, trend test). No adrenal
adenocarcinoma was found in any group. Since adrenal cortical adenoma is a common
tumor, the p value for females did not attain the significance in the trend test (p< 0.005)
required for this common tumor to be considered positive.
Evaluation of Tumor Findings
The nonclinical and statistical reviewers concur with the sponsor that no significant
evidence of neoplasia related to BAY 59-7939 treatment was observed in Wistar rats.
Methods
Doses:
Frequency of dosing:
Dose volume:
Route of administration:
Formulation/Vehicle:

0, 10, 20, and 60 mg/kg/day
Daily for up to 732 days
10 mL/kg
Orally by gavage
Ethanol/Sotutol HS 15/Tap Water (10/40/50
v/v/v)
Basis of dose selection: A 13-week dose range finding study in the
same strain of rats indicated that absorption of
BAY 59-7939 saturated at 60 mg/kg
Species/Strain: Rat (Rattus norvegicus)/(Hsd Cpb:WU, Wistar)
(b) (4)

Number/Sex/Group:
Age:
Animal housing:
Paradigm for dietary restriction:
Dual control employed:

50
6-7 weeks at study initiation
2-3 rats/cage
None; food was administered ad libitum
None

29
Reference ID: 2959378

 NDA 202439 Patricia Harlow, 

Interim sacri?ce: None
Satellite groups: Yes, for clinical laboratory and toxicokinetic
measurements
Deviation from study protocol: Not indicated

Observations and Results

Mortality
The animals were examined visually for mortality and morbidity twice daily, except on
weekends and holidays when they were examined once daily.

Mortality was not related to treatment (Table 14).

Table 14: Reviewer's Summary of Rat Mortality Document PH-36242

 

 

 

 

 

Males Females
Dose, mgMain animals
Total number/group Intercurrent deaths mortality Satellite animals
Total number/group Total intercurrent deaths
total mortality Deaths during blood sampling

 

 

 

 

 

 

 

 

 

 

The sponsor did not provide Kaplan-Meier survival graphs. The reviewer?s graphs
(Figure 5) below indicate survival was reduced in the high dose male group compared
to control male group during Weeks 40 to 80. The survival in the female groups was
similar across all dose groups.

Figure 5: Reviewer's Survival Graphs - Document PH-36242

 

Male rats Female rats

 

 

survival
survival

 

 

 

 

 

 

 

 

 




en-
50- 50-

0102030405060708090100110 010203005060708090100110
Week Wedt

Reference ID: 2959378

NDA 202439

Patricia Harlow, Ph.D.

The pathologist noted that chronic progressive nephropathy contributed to mortality of
the male decedents and gross lesions in the uterus or mammary gland contributed to
the mortality of female decedents.
Clinical Signs
Detailed clinical examinations were made once before the start of treatment and once
weekly in all groups during treatment.
The most frequent clinical signs included piloerection, hair loss, bloody eye, and
palpable masses (Table 15). Although the incidence of main study animals with
palpable masses was slightly higher in the mid and high dose male groups than the
incidence in the control group, the incidence of satellite animals with palpable masses
was slightly lower in the mid and high dose male groups than the incidence in the
control group. Importantly, bleeding (general or vaginal) did not increase with dose.
Table 15: Reviewer's Summary of Notable Clinical Signs – Document PH-36242
Finding/Dose (mg/kg)
Number of animals
Piloerection
Hair loss
Bloody eye
Palpable masses

Cumulative number of animals in main groups (in satellite groups)
Male rats
Female rats
0
10
20
60
0
10
20
60
50 (20) 50 (20) 50 (20)
50 (20) 50 (20) 50 (20) 50 (20) 50 (20)
22 (5)
18 (4)
15 (2)
15 (6)
11 (1)
7 (2)
14 (3)
11 (3)
17 (4)
17 (5)
11 (7)
18 (7)
10 (11)
15 (9)
17 (10)
18 (7)
7 (2)
5 (4)
7 (5)
5 (7)
8 (5)
7 (5)
5 (1)
7 (8)
6 (5)
2 (5)
9 (2)
10 (2)
14 (4)
16 (9)
15 (8)
16 (8)

Body Weights
The animals in all groups were weighed on Day 1 of treatment and weekly up to
scheduled necropsy and immediately before necropsy.
Body weight and body weight gain in the main study groups were not significantly
affected by treatment with BAY 59-7939 (Table 16, Figure 6).
Table 16: Reviewer's Summary of Body Weights – Document PH-36242
Main Study
Day
Dose (mg/kg)
Mean body weight (gm)
1
92
183
274
365
456
547
631
722
729
Body weight gain (gm)
Day 1 – Day 183
Day 1 – Day 365
Day 1 – Day 729

Dose (mg/kg)
Male rats
10
20

60

0

165
426
482
521
536
537
539
538
518
514

165
427
487
525
533
535
543
543
522
519

163
435
497
533
544
550
564
568*
548
545

164
430
480
518
534
541
548
554
542
536

317
371
349

322
368
354

334
381
382

316
370
372

0

31
Reference ID: 2959378

Female rats
10
20

60

127
268
292
308
323
336
349
359
354
354

127
270
295
308
322
333
354
362
354
353

127
276
303
320
336
351
365
371
357
359

126
278
301
317
332
344
356
368
355
352

165
196
227

168
195
226

176
209
232

175
206
226

 NDA 202439

BEST POSSIBLE COPY

Patricia Harlow, Ph.D.

Figure 6: Sponsor's Body Weight Graphs – Document PH-36242
Main Group – Males

Main Group – Females

32
Reference ID: 2959378

 NDA 202439

Patricia Harlow, Ph.D.

Food and Water Consumption
Food and water consumption were determined weekly for individual main group
animals.
The sponsor’s summary tables (Table 17) indicate no treatment effect was observed for
group mean food or water intake relative to the control group.
Table 17 : Sponsor's Summaries of Food and Water Intake – Document PH-36242
Males

Females

Food intake

Water intake

Reviewer’s modification of sponsor’s tables

Ophthalmology
The eyes of all main study animals were examined before treatment initiation. Only the
eyes of control and high dose animals were examined during weeks 53/54, 79, and 103105. After testing papillary reflex, the eyes were dilated and examined using an indirect
ophthalmoscope and a photo slit-lamp.
No treatment related findings were observed for the ophthalmoscopic parameters.
Hematology
Blood samples for hematology were collected from 10 fasting satellite animals per group
during weeks 27/28, 53/54, 79/80, and 103/104. The following parameters were
measured: hematocrit, hemoglobin concentration, erythrocyte count, erythrocyte
morphology, reticulocyte count, mean cell hemoglobin, mean cell hemoglobin
concentration, mean cell volume, platelet count, total white cell count, and differential
white cell count, including lymphocytes, eosinophils, monocytes, neutrophils, basophils,
and atypical lymphocytes. Additional blood samples taken for measurement of
(b) (4)
thromboplastin time (Hepato-Quick,
) were collected from 10 satellite animals per
group during weeks 51, 78, and 104 approximately 1 hour after drug administration.
Samples for blood smears were collected satellite groups during weeks 54, 80, and 103
as well as from all animals killed in moribund condition and the surviving main study
animals in the control and high dose groups near the end of the study.
Most of the statistically significant changes in means for red cell parameters in treated
groups were less than 6% of the control means (Table 18) and individual values were
within or close to the reference range. For example, statistically significant decreases in

33
Reference ID: 2959378

 NDA 202439

Patricia Harlow, Ph.D.

erythrocytes, hemoglobin and hematocrit in the mid-dose group on Day 717 were
attributed to Male 448, whose values (8.07, 140, and 0.418, respectively) are within the
reference ranges for these parameters. Although none of the group means for
hematology parameters for the high dose females on Day 716 were significantly
different from the control means, the reviewer notes that the values for all hematology
parameters for Female 544 are considerably outside the reference range. This female
had the clinical sign of pallor from Day 715 to 729. At necropsy at study termination,
she had pale liver and red nodules in her uterus. These findings and changes in
hematology parameters are consistent with bleeding, a pharmacodynamic effect of
rivaroxaban.
Table 18: Reviewer's Summary of Hematology Parameters – Document PH-36242
Males

Day
185

367

550

717

Reference
range for
Day 717
Female

184

366

548

716

Dose
Mg/kg
0
10
20
60
0
10
20
60
0
10
20
60
0
10
20
60

ERY
10e12/L
9.33
9.01
8.93
8.96
8.88
8.92
8.81
9.00
9.12
8.68
8.69
8.94
9.01
8.75
8.48*
8.65

HB
Gm/L
157
156
155
155
154
156
154
155
156
153
151
153
157
156
150*
153

HCT
L/L
0.466
0.452
0.452
0.451
0.452
0.455
0.452
0.453
0.494
0.478
0.472
0.477
0.469
0.461
0.442*
0.452

MCV
fL
50.0
50.2
50.7
50.4
51.0
51.1
51.3
50.3
54.3
55.1
54.4
53.4
52.2
52.8
52.2
52.2

MCH
pg
16.8
17.4
17.3
17.3
17.4
17.5
17.5
17.2
17.2
17.6
17.4
17.1
17.5
17.9
17.6
17.7

MCHC
Gm/L ERY
337
347*
342
343*
341
343
341
342
316
320
320
320
336
339
338
339

RETI
%
13
13
14
14
12
13
13
13
14
16
14
14
14
14
13
14

Platelet
10e9/L
1204
1145
1220
1127
1220
1191
1238
1201
1438
1369
1412
1360
1195
1245
1250
1264

2SD+
2SD0
10
20
60
0
10
20
60
0
10
20
60
0
10
20
60

10.09
6.98
8.74
8.57
8.51
8.49
8.03
7.91
7.86
8.04
8.16
8.05
8.03
7.96
7.68
7.70
7.77
7.24

171
122
156
154
154
152
152
149
150
150
151
149
153
149
148
148
150
139

0.517
0.374
0.47
0.46
0.462
0.452*
0.442
0.434
0.432
0.433
0.475
0.457
0.464
0.453*
0.436
0.428
0.427
0.407

56.8
46.8
53.8
53.7
54.3
53.3
55.0
54.9
55.0
54.0
58.2
56.9
57.9
57.0
57.1
55.6
55.1
57.0

18.4
15.5
17.8
18.0
18.1
18.0
19.0
18.8
19.1
18.7
18.6
18.5
19.0
18.7
19.4
19.2
19.3
19.3

346
310
332
335
334
337*
345
343
347
347
319
326*
329*
328*
340
346
351*
340

26
10
15
16
17
16
18
17
18
16
19
16
17
16
24
17
18
45

1810
858
1209
1166
1171
1121
1128
1107
1152
1112
1187
1203
1261
1243
1123
1114
1176
1200

34
Reference ID: 2959378

 NDA 202439
Reference
range for
Day 717
717
Remaining
HD females

Patricia Harlow, Ph.D.

2SD+
2SD-

9.16
7.43

163
138

0.493
0.412

59.4
49.9

19.7
16.8

350
318

29
7

1419
792

F544
Max.
Min.

3.83
8.82
7.1

78
154
138

0.257
0.451
0.404

67.3
58.8
51.2

20.5
19.9
18.6

304
351
338

284
24
13

1644
1267
1056

* p < 0.05, HD = high dose, ERY = erythrocytes, HB = hemoglobin concentration, HCT = hematocrit, MCV = mean cell
volume, MCH = mean cell hemoglobin, MCHC = mean cell hemoglobin concentration, RETI = % reticulocytes, 2SD+ = 2
standard deviations above the mean, 2SD- = 2 standard deviations below the mean

Since blood samples for measurement of coagulation times were collected 1 hour after
dosing, the values for thromboplastin time were expected to indicate prolonged
coagulation times. The mean values for thromboplastin time for all treated groups on all
sampling days were significantly greater (1.5 to 1.9-fold in males, 1.8 to 2.5-fold in
females) than those for the control groups (Table 19). Individual values of all treated
animals, except one (low dose female 507 on Day 723), were greater than three
standard deviations above the reference mean. Dose dependence is more evident in
the females compared to the males. However, the reviewer notes that the mean value
and all individual values for control males on Day 192 were greater than three standard
deviations above the reference mean. Individual values for other control males and
females were also greater than three standard deviations above the reference mean.
These included control males on Day 375, control males on Day 724, control females
on Day 191 and one control female on Day 723.
Table 19: Reviewer's Summary of Thromboplastin Times – Document PH-36242
Males

Day
192

375

556

724

Dose
Mg/kg
0
10
20
60
0
10
20
60
0
10
20
60
0
10
20
60

Mean
44.9
71.9*
71.3*
82.4*
39.3
61.8*
63.1*
74.7*
38.7
68.3*
66.3*
73.5*
39.1
63.7*
67.5*
68.7*

HQUICK, sec
Min.
Max.
42.8
49.1
53.5
86.4
56.9
86.6
56.7
105.8
35.8
43.7
46.2
69.9
49
84.6
52
109.7
33.4
42.6
51.9
88.1
49.9
88.9
57.2
95.6
33.6
43.9
49.7
88.8
50.8
81.6
61.6
95.5

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Reference ID: 2959378

Reference range
3SD3SD+
26.8
41.5

24.3

39.2

18.8

47.2

22.5

39.6

Number
< 3SD+† >3SD+‡
0
10
0
10
0
10
0
10
7
3
0
10
0
10
0
10
10
0
0
8§
0
10
0
10
5
5
0
10
0
10
0
10

 NDA 202439

Females

Day
191

373

555

723

†

Patricia Harlow, Ph.D.
Dose
Mg/kg
0
10
20
60
0
10
20
60
0
10
20
60
0
10
20
60

Mean
37.9
70.4*
72.2*
86.5*
34.1
61.8*
72.3*
85.6*
36.8
70.8*
77.5*
88.3*
36.1
66.2*
70.1*
79.4*

HQUICK, sec
Min.
Max.
34.3
41.1
56.6
86.2
57.8
87.2
72.9
103.4
30.2
36.3
52.6
81.1
59.9
81.3
69.6
95.8
33.3
38.9
55.9
83.9
70
85.6
72.6
101.5
33.1
38.3
81.9
36.9
57.3
85.6
59.9
104

Number of values <3 standard deviations above mean,
animals

‡

Reference range
3SD3SD+
25.2
40.6

23.3

36.4

21.1

42.4

23.4

37.6

Number
< 3SD+† >3SD+‡
8
2
0
10
0
10
0
10
10
0
0
10
0
10
0
10
10
0
0
10
0
10
0
10
9
1
1
9
0
10
0
10

Number of values > 3 standard deviations above mean,

§

Only 8

Clinical Chemistry
Blood samples for clinical chemistry were collected from 10 fasting satellite animals per
group during weeks 27, 53, 79, and 103. The following parameters were measured:
alkaline phosphatase, alanine aminotransferase (ALT), aspartate aminotransferase
(AST), gamma glutamyl transferase, glucose, total bilirubin, total cholesterol,
triglycerides, creatinine, urea, total protein, sodium, potassium, chloride, calcium, and
inorganic phosphate.
The findings are summarized in the sponsor’s tables below (Table 20, Table 21). No
significant changes were observed in plasma enzyme activities, including ALT or AST.
Glucose, urea, total protein, and sodium are parameters for which a treated group
exhibited a statistically significant difference from the concurrent control group. For
these parameters, no dose or time-dependence was observed and values for individual
animals were within the sponsor’s reference ranges (± 2 SD) or within the range of
concurrent control values.
However, other parameters (chloride, phosphate, and potassium) with a statistically
significant difference from the concurrent control group had individual values outside the
reference range. On Day 717, the high dose male group exhibited statistically significant
higher chloride concentration than the control males Although five of ten high dose
males had individual values above the reference range (94-102), only one had a value
(106) that was more than 7% above the mean of the reference range. Furthermore, this
increase was not observed in the high dose female group.
The high dose male group on Days 367 and 717 also showed a statistically significant
decrease in phosphate. However, only one high dose male had a phosphate value
(1.12) below the reference range (1.19 – 1.93) and all individual values for females were
within the reference range.

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Statistically significant decreases in potassium were observed in the high dose males
on Day 550 and mid- and high dose females on Day 548. Table 22 summarizes these
results with respect to the time-matched reference range and individual animal values.
On Day 550, not only were the values for six high dose males less than two standard
deviations below the reference mean, but also the mean potassium value for the high
dose male group was less than two standard deviations below the reference mean.
Interestingly, the values for six low dose males were also less than two standard
deviations below the reference mean, but all values for control males were within the
reference range. In contrast, the values for individual mid- and high dose females on
Day 548 were within the reference range, but the values for five control females were
above two standard deviations above the reference mean. Additionally, although no
statistically significant difference was observed among the male groups on Day 717,
one, three and two individual values in the control, mid, and high dose groups,
respectively, were less than two standard deviations below the reference mean.
Furthermore, values for two control males (401 and 405) of 9.2 and 7.1 mmole/L,
respectively, were greater than three standard deviations above the reference mean. No
explanation was provided for these excessive values for control animals, although
hemolysis of these control samples is a potential explanation.

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Table 20: Sponsor's Summary of Clinical Chemistry - A – Document PH-36242

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Table 21: Sponsor's Summary of Clinical Chemistry - Part B - Document PH-36242

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Table 22: Reviewer's Summary of Serum Potassium Values - Document PH-36242
Males

Day
185

367

550

717

Females

184

366

548

716

†

Dose
Mg/kg
0
10
20
60
0
10
20
60
0
10
20
60
0
10
20
60
0
10
20
60
0
10
20
60
0
10
20
60
0
10
20
60

Mean
5.0
4.9
4.9
4.7
4.8
5.0
4.9
4.9
5.0
4.6
4.8
4.4*
5.6 [5.0]
4.9
4.5
4.6
4.4
4.2
4.2
4.2
4.4
4.3
4.5
4.4
4.8
4.4
4.3*
4.3*
4.4
4.4
4.3
4.3

K, mmole/L
Min.
Max.
4.4
5.7
4.6
5.2
4.4
5.5
4.3
5.2
4.6
5.0
4.5
5.6
5.4
4.3
4.4
5.5
4.6
5.7
5.8
3.8
4.4
5.4
5.0
3.8
9.2 [5.5]
4.1
4.5
5.6
5.0
4.0
4.9
4.0
3.9
5.0
3.7
4.6
3.9
4.6
4.6
3.5
4.0
4.8
3.8
4.7
4.0
4.7
3.8
4.7
4.4
5.2
3.8
6.2
3.8
4.6
3.8
4.6
3.9
5.3
4.1
4.8
3.9
4.9
4.1
4.8
‡

Reference range
2SD2SD+
4.3
5.6

4.4

5.5

4.5

5.8

4.3

5.9

3.7

5.1

3.5

5.0

3.5

4.9

3.4

5.0

Number
< 2SD-† >2SD+‡
0
1
0
0
0
0
0
0
0
0
0
1
2
0
0
0
0
0
0
6
0
0
0
6
1
2§
0
0
0
3
0
2
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
5
0
1
0
0
0
0
0
1
0
0
0
0
0
0
§

Number of values < 2 standard deviations below mean, Number of values >2 standard deviations above mean, Control
males 401 and 405 had values of 9.2 and 7.1, respectively. [ ] Values omitting males 401 and 405.

Urinalysis
Urine samples were collected for a period of 16 hours from 10 fasting satellite animals
per group during weeks 26, 52, 78, and 102. The following parameters were measured:
volume, density, pH, blood, bilirubin, protein, glucose, ketone bodies, and urobilinogen.
The urine sediment was examined microscopically for epithelial cells, leucocytes,
erythrocytes, bacteria, amorphous salts, triple phosphate crystals, and other abnormal
components.
Although the low and high dose males on Day 180 showed a statistically significant
decrease in urine density compared to the density for the control group, urinalysis

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parameters were considered to be unaffected by treatment, because all individual
values were within the reference range.
Gross Pathology
The surviving satellite animals were sacrificed for scheduled necropsy during week 105.
The surviving main study animals were sacrificed for scheduled necropsy during weeks
105-107. Animals found dead during the study were necropsied at the earliest
opportunity. The animals were subjected to systematic examination and the organs
listed in Table 23 were fixed in 10% neutral buffered formalin. The urinary bladder and
lungs were initially inflated with 10% neutral buffered formalin prior to fixation by
immersion.
Table 23: Reviewer's Summary of Tissues Collected - Document PH-36242
Abnormal tissues
Adrenals
Aorta
Brain (cerebrum, cerebellum, brain
stem)
Cecum
Clitoral gland
Colon
Duodenum
Epididymides
Esophagus
Eyes and eyelids
Extraorbital lacrimal glands
Femur with joint
Harderian glands
Head with skull cap
Heart
Ileum
Jejunum

Kidneys
Larynx
Liver
Lungs
Lymph nodes (mandibular –
mesenteric, popliteal)
Nasal cavity/nasopharynx
Optic nerves
Ovaries with oviduct
Pancreas
Peyers patches
Pharynx
Pituitary
Preputial gland
Prostate
Rectum
Salivary glands (submandibular,
sublingual and parotid)
Sciatic nerve

Seminal vesicles with coagulating
glands
Skeletal muscle - thigh
Skin (mammary area)
Spinal cord (cervical, thoracic,
lumbar)
Spleen
Sternum with bone marrow
Stomach
Testes
Thymus
Thyroid with parathyroids
Tongue
Trachea
Ureters
Urethra
Urinary bladder
Uterus with cervix
Vagina
Zymbal’s glands

The pathology report commented on kidney discoloration, nodules in the pituitary and
preputial glands, and cysts in the ovary. A decreased incidence of kidney discoloration
was found in the mid and high dose males. However, the reviewer notes that
discoloration of the adrenal glands was present in a few treated animals from all dose
groups, but not in the control group (Table 24). In contrast, discoloration in the liver was
similar across groups and discoloration in the lungs was slightly decreased in the mid
and high dose females. Although lung discoloration occurred primarily in decedents,
discoloration in the other tissues did not.
The pathologist noted the absence of nodules of the pituitary glands of high dose
females and the increased incidence of nodules in the preputial glands of high dose
males. The reviewer also noted the decreased incidence of nodules in uteri of the
treated female groups. In contrast, the incidence of nodules in the skin was increased
in the high dose females and the mid and high dose males. However, the incidence of
nodules in other tissues was generally evenly distributed across groups.
The pathologist noted a decreased incidence of ovarian cysts in the high dose females.
The reviewer noted the incidence of cysts in other tissues, exemplified by the liver and
kidney, was generally similar across groups.

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Table 24: Reviewer's Summary of Gross Pathology - Document PH-36242

Finding
Discoloration

Nodules

Cyst
Enlarged
Decreased size

Dose, mg/kg
Number
(decedents)
Kidney
Adrenal glands
Lungs
Liver
Preputial glands
Pituitary
Lung
Liver
Pancreas
Kidney
Uterus
Adrenal glands
Skin
Ovaries
Liver
Kidney
Liver
Testes

Male
0
50
(5)
9 (3)
0
9 (8)
7 (3)
1 (0)
0
0
2 (1)
0
1 (1)
3 (0)
3 (1)
5 (0)
7(2)
1 (0)
1 (0)

10
50
(12)
8 (4)
2 (0)
7 (6)
9 (1)
0
0
0
1 (0)
2 (0)
1 (0)
4 (2)
0
3 (0)
4(2)
5 (3)
1 (0)

20
50
(5)
3 (1)
1 (0)
10 (8)
6 (0)
0
0
1 (1)
0
0
0
5 (2)
6 (2)
1 (1)
6(0)
4 (2)
4 (0)

60
50
(9)
2 (0)
2 (1)
8 (8)
6 (2)
4 (1)
1 (0)
3 (2)
1 (0)
1 (0)
0
2 (0)
6 (3)
3 (0)
5(2)
1 (0)
2 (0)

Female
0
50
(4)
2 (1)
0
6 (5)
6 (2)
6 (1)
0
2 (1)
0
0
16 (4)
1 (0)
6 (1)
6 (0)
4 (1)
1(0)
2 (1)
-

10
50
(10)
2 (1)
1 (0)
5 (5)
12 (3)
5 (1)
1 (0)
0
0
1 (0)
9 (4)
2 (1)
9 (3)
6 (2)
10 (1)
0
1 (0)
-

20
50
(7)
3 (2)
2 (0)
3 (3)
3 (2)
7 (3)
0
0
0
1 (0)
10 (2)
3 (1)
5 (2)
7 (0)
5 (1)
0
0
-

60
50
(6)
2 (2)
1 (0)
3 (3)
10 (3)
0
1 (1)
2 (0)
0
2 (2)
11 (3)
2 (1)
11 (5)
2 (1)
6 (2)
0
0
-

Organ Weights
The following organs were weighed before fixation: adrenals, brain, kidneys, liver,
spleen, and testes. The methods indicate that the weights of organs exhibiting a severe
pathological alteration (e.g. nodule, tumor, cyst) were excluded from the calculation of
the mean value, if the individual weight was at least three times higher than the median
value of the respective group. The rationale for these criteria was not provided.
Most of these exclusions were for male adrenal weights, which had a 32 to 85 fold intragroup variation consistent with the high overall incidence of pheochromocytoma in male
adrenal glands. Intra-group variation of female adrenal weights was less (6 to 28 fold)
and fewer values were excluded.
The testes weight (12006 mg) for low dose male 53 was excluded, since the testes had
nodules and Leydig cell tumor. However, testes weight (10110 mg) for control male 23
was not excluded, although those testes also had Leydig cell tumor. The low testes
weight for mid-dose male 103 (812 mg) was included and was attributable to severe
(Grade 5) atrophy of the testes and other sexual organs. Likewise, the low testes weight
for mid-dose male 111 (1752 mg) was included and was attributable to severe (Grade
5) atrophy of the testes.
No absolute kidney weights were excluded. Although no significant difference in mean
absolute kidney weights was observed for either males or females, the high dose males
showed a statistically significant decrease in mean relative kidney weight (Table 25).
The mean relative kidney weight in the low and mid-dose males was also decreased,
but was not statistically significant. The decreases in mean relative kidney weight in
male treated groups correlated best with combined incidence of hyperplasia in the
kidney.
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Although mean absolute and relative spleen weights for female treated groups were
lower than those in the control group, the differences were not statistically significant
and a clear dose relationship was not evident (Table 26). The spleen absolute weight
for control female 244 (17028 mg, 26 times the group median of 652 mg) was excluded
even though severe pathology was not noted, probably because this value was a clear
outlier. However, the spleen absolute weight for control female 207 (3582 mg, 5.5 times
the group median of 652 mg) was included even though this organ was noted as being
enlarged at necropsy, because the enlargement was consistent with markedly (grade 4)
increased hematopoiesis found microscopically, not the presence of a nodule, tumor, or
cyst. Similarly, the spleen absolute weight for high dose female 382 (2411 mg, 3.6 times
median of 670 mg) was included, even though this spleen was noted as being enlarged
at necropsy, because the enlargement was consistent with moderate (grade 3)
increased hematopoiesis found microscopically. If values for females 207 and 382 are
omitted, the decrease in mean female spleen weights is no longer evident.
In contrast, statistically significant decreases in absolute spleen weight were found for
the low and mid-dose males (15%) and decreases in relative spleen weight were found
for all treated male groups (16%, 20% and 14%). However, the sponsor discounted
these changes because they were considered small and lacking in a dose relationship.
The spleen of high dose male 165 (2549 mg, 2.8 times group median of 912 mg) was
included even though nodules (0.8 cm diameter) were found at necropsy and lymphoma
grade 3 was found microscopically. Likewise, the spleen of high dose male 175 (1807
mg, 2 times group median of 912 mg) was included even though nodules were found at
necropsy and a grade 4 histocytic sarcomatous infiltrate was found microscopically.
Omission of the values for these two high dose males results in a dose-dependent
decrease spleen absolute and relative weights in the males. However, this decrease
did not correlate with a specific histopathological finding.
Table 25: Sponsor's Summaries of Organ Weights - Document PH-36242
Absolute organ weights

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Relative organ weights

Table 26: Reviewer's Summary of Spleen Weights - Document PH-36242
Males

Females

Dose
mg/kg
0
10
20
60
60, omit M165
& M175
0
10
20
60
0, omit F207
60, omit F382

Spleen Absolute Weight, mg
Mean
SD
Min.
Max.
1095
202
727
1446
928*
164
549
1423
926*
156
477
1222
991
336
676
2549

Spleen Relative, mg/100 gm
Mean
SD
Min.
Max.
215
43
153
319
180*
29
127
236
171*
30
109
236
185*
72
113
522

917*
772
692
665
723
694
675

169*
221
197
188
205
197
191

121
499
120
113
317
162
113

676
520
490
456
482
520
482

1160
3582
981
1003
2411
1267
1046

28
152
38
30
90
42
30

113
143
144
137
138
138
138

212
1093
312
235
691
294
296

Histopathology
Tissue samples from all main study animals were dehydrated, embedded in Paraplast,
sectioned, and stained with hematoxylin and eosin. All tissues listed in Table 23 and
gross abnormalities identified at macroscopic examination from all main animals
sacrificed at the end of the scheduled treatment period and from all main animals killed
or dying during the study were examined by histology. Tissues of the satellite groups
were not examined microscopically.
Peer Review
The peer review included examination of all tumors and pre-neoplastic/hyperplastic
lesions of all groups. In addition, approximately 25% of frequent lesions and all slides of
5 animals per sex from the high dose group were also examined.
Neoplastic lesions
The incidences of the most notable tumors in the rat carcinogenicity study are
summarized in Table 27 below. The sponsor’s listing of tumor incidences is in Appendix
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6. The statistical evaluations of the sponsor and the FDA statistician are in Appendix 7
and 8, respectively. Historical control data provided by the sponsor are in Appendix 9.
Squamous cell carcinoma was present in the clitoral gland of two high dose females.
Statistical evaluations by the sponsor and the FDA statistician indicated p values in the
trend test (pt) of 0.030 and 0.070, respectively. Neither p value attains the significance
in the trend test (pt < 0.025) required for this finding of a rare tumor to be considered
positive, according to current CDER guidance. Additionally, squamous cell papilloma
was present in both a control female and a high dose female. Therefore, statistical
significance for squamous cell carcinoma plus papilloma is also lacking. Furthermore,
squamous cell hyperplasia in the clitorial gland was present in females of the control,
low and mid-dose groups, but not the high dose group further confirming the lack of a
treatment relationship.
Adrenal cortical adenomas were present only in treated animals with the incidence
significantly higher in the mid and high dose females (sponsor’s pt = 0.0126). However,
no adrenal adenocarcinoma was found in any group. The FDA statistician’s evaluation
indicated a p value for the trend test of 0.041. Based on a mean background incidence
of 3.5% in the RITA database, adrenal cortical adenoma is a common tumor. Therefore,
neither p value for females attained the significance in the trend test (p < 0.005)
required for this finding to be considered positive, according to current CDER guidance.
In addition, cortical adrenal hyperplasia (zona fasciculata and zona glomerulosa) did not
show a dose relationship.
The incidence of benign and malignant pheochromocytoma in the adrenal medulla was
higher in males than in females. The incidence in males was similar across all groups.
However, the incidence in females slightly increased in the treated groups, but was
without statistical significance. In addition, focal medullary hyperplasia was similar
across control and treated groups in both males and females.
The incidence of adenoma and adenocarcinoma in the mammary gland of females did
not show a positive dose relationship. However, the incidence of fibroadenoma
increased in the high dose females. The sponsor’s statistical analysis for fibroadenoma
indicated a p value of 0.0526 for the trend test. The FDA statistician’s analysis
indicated a p value of 0.031 for the pairwise test and 0.062 for the trend test. Based on
a mean background incidence of 14% in the RITA database, mammary fibroadenoma in
female rats is a common tumor. Therefore, the p value for fibroadenoma in females did
not attain the significance in the trend test (p< 0.005) required for this finding of a
common tumor to be considered positive. Even if fibroadenomas and fibromas are
combined, the p value would not attain the required significance level. Furthermore,
hyperplasia in the mammary gland did not show a positive dose relationship.
The sponsor’s evaluation indicated that histiocytic sarcoma (pt = 0.0268) and skin
fibroma (pt = 0.0294) were statistically significant in males. The FDA statistician’s
evaluation indicated p values in the trend test of 0.056 and 0.18 for histiocytic sarcoma
(b) (4)
and skin fibroma, respectively. Based on the
(2011) listing of
spontaneous tumors in Wistar rats, the overall incidences of histiocytic sarcoma and
skin fibroma are 0.74% and 0.41%, respectively. Neither p value attains the

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significance in the trend test (pt < 0.025) required for these findings of rare tumors to be
considered positive, according to current CDER guidance.
In contrast to the mouse carcinogenicity study in which hepatocellular tumors in males
increased with dose, only two hepatocellular tumors were observed in rats, one in a low
dose male and another in a high dose female. Leydig cell tumors in rats decreased with
dose in contrast to an increase in Leydig cell tumors in mice.
Table 27: Reviewer's Summary – Neoplastic Lesions - Document PH-36242
Rat Carcinogenicity Study
Neoplastic Findings
All main study animals
Organ/Tissue
Finding
#/group
Liver
#
Hepatocellular adenoma - B
#
(CR max.: M 17.5%, F 9.2%)
%
Pancreas
#
Acinar adenoma – B
#
(CR max.: M 1.8%)
%
Acinar adenocarcinoma – M
#
(CR max.: M 1.5%)
%
Combined acinar adenoma/carcinoma
#
%
Islet cell adenoma
#
(CR max.: M 7.0%, F 2.0%)
%
Testes
Leydig cell tumor - B
#
(CR max.: M 6.7%)
%
Clitorial glands
#
Squamous cell carcinoma – M (p = 0.03)
#
%
Squamous cell papilloma - B
#
%
Squamous cell carcinoma + papilloma
#
%
Basal cell tumor - B
#
%
Basal cell carcinoma - M
#
%
Adenoma - B
#
%
Adenocarcinoma - M
#
%
Pituitary gland
#
Adenoma pars distalis - B
#
(CR max.: M 37.3%, F 75%)
%
Adenocarcinoma pars distalis - M
#
(CR max.: M 6.7%, F 5.4%)
%
Combined Adenoma + Adenocarcinoma
#
%
Adrenal gland
Cortical Adenoma – B (pt = 0.012)
#
RITA range: Male: 0-5.9%, Female: 0-8%
%
(CR max.: M 6.7%, F 3.0%)
Pheochromocytoma -B
#
%
Pheochromocytoma -M
#
%
Combined Pheochromocytoma
#
%
Hemolymphoreticular System
#
Sarcoma histiocytic ( pt = 0.026)
#
(CR max.: M 2.0%, F 1.3%)
%
Malignant f brous histiocytoma - M
#
%
Mammary gland
#

0
50
50
0
0
49
0
0
0
0
0
0
0
0
50
6
12
50
3
6
0
0
3
6
50
0
0

BAY 59-7939 Dose level (mg/kg/day)
Male
Female
10
20
60
0
10
20
50
50
50
50
50
50
50
50
49
50
50
50
1
0
0
0
0
0
2
0
0
0
0
0
50
50
49
50
50
50
0
2
1
0
1
0
0
4
2
0
2
0
1
0
0
0
0
0
2
0
0
0
0
0
1
2
1
0
1
0
2
4
2
0
2
0
1
1
1
0
0
1
2
2
2
0
0
2
50
50
49
0
0
0
6
3
3
12
6
6
43
40
42
0
0
0
0
0
0
1
0
0
2.3
0
0
1
0
0
2.3
0
0
0
0
1
0
0
2.4
1
0
2
2.3
0
2.4
0
0
1
0
0
1.2
0
1
0
0
2.5
0
49
48
49
50
50
50
7
6
5
9
7
13
14.2 12.5 10.2
18
14
26
0
0
0
2
0
0
0
0
0
4
0
0
7
6
5
11
7
13
14.2 12.5 10.2
22
14
26
49
50
49
50
50
50
2
2
1
0
1
4*
4.1
4
2
0
2
8

60
50
50
1
2
50
1
2
0
0
1
2
0
0
0
45
2*
4.4
1
2.2
3
6.6
0
0
0
0
0
0
0
0
50
3
6
0
0
3
6
50
4*
8

20
40
1
2
21
42
50
0
0
0
0
50

22
44.8
4
8.2
26
53.0
50
0
0
0
0
50

3
6
0
0
3
6
50
0
0
0
0
50

46
Reference ID: 2959378

12
24
4
8
16
32
50
0
0
0
0
50

18
36.7
2
4.1
20
40.8
50
2*
4
1
2
49

1
2
0
0
1
2
50
1
2
0
0
50

3
6
0
0
3
6
50
0
0
0
0
50

4
8
1
2
5
10
50
0
0
0
0
50

 NDA 202439

Patricia Harlow, Ph.D.

Rat Carcinogenicity Study
Neoplastic Findings
All main study animals
Organ/Tissue
Finding
#/group
Adenoma - B
#
(CR max.: F 8.0%)
%
Adenocarcinoma - M
#
(CR max.: F 12.0%)
%
Adenoma + Adenocarcinoma
#
%
Fibroadenoma – B (pt= 0.052)
#
(RITA range: 5-28%, CR max.: F 32%)
%
Fibroma - B
#
%
Fibroadenoma + Fibroma
#
%
Skin
#
Papilloma - B
#
(CR max.: M 2.0%)
%
Basal cell carcinoma, basosquamous - M
#
(CR max.: M 1.3%)
%
Fibroma - B (p = 0.029)
#
(CR max.: M 2.0%)
%
Fibrosarcoma – M
#
(CR max.: M 0.67%)
%
Keratoacanthoma – B
#
(CR max.: M 10%)
%
Liposarcoma - M
#
%
Squamous cell carcinoma - M
#
(CR max.: M 2.7%, F 2.0%)
%
Fibroma + F brosarcoma
#
%
RITA: Registry of Industrial Toxicology Animal Data,

0
50
0
0
0
0
0
0
0
0
0
0
0
0
50
1
2
1
2
0
0
0
0
1
2
1
2
0
0
0
0

BAY 59-7939 Dose level (mg/kg/day)
Male
Female
10
20
60
0
10
20
50
50
50
50
50
50
0
0
0
1
2
0
0
0
0
2
4
0
0
0
0
3
1
1
0
0
0
6
2
2
0
0
0
4
3
1
0
0
0
8
6
2
0
0
0
4
7
4
0
0
0
8
14
8
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
4
7
4
0
0
0
8
14
8
50
50
49
50
50
50
0
0
1
0
0
0
0
0
2
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
2*
2*
0
0
0
0
4
4
0
0
0
0
0
1
0
0
0
0
0
2
0
0
0
0
1
1
0
0
0
0
2
2
0
0
0
0
1
0
0
0
0
0
2
0
0
0
0
0
1
0
0
0
0
0
2
0
0
0
0
0
2
3
0
0
0
0
4
6
0
0
0
(b) (4) (March 2011)

60
50
0
0
1
2
1
2
11*
22
1
2
12*
24
50
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0

Non Neoplastic lesions
In the two year studies, the percentage of rats (54-84%) with chronic cardiomyopathy
was higher than the percentage of mice with (5-14%) cardiomyopathy. Although the
incidence of cardiomyopathy in rats was similar across male groups, a slight nonstatistically significant increase in the incidence of cardiomyopathy was observed in
female groups with dose (Table 28). However, the incidence of valvular fibrosis in the
heart increased with dose in both males and females and was statistically significant in
females by a trend test (pt = 0.0048), but not by a pairwise test (p = 0.0587).
Although the incidence of hemorrhage did not increase significantly with dose in any
organ or across all organs, the incidence of pigment deposition increased with dose in
some organs. The increased pigment deposition representing the remains of previous
micro-hemorrhages was attributed to the pharmacological action of BAY 59-7939. In the
pancreas, peri-vascular and/or peri-insular pigment deposition was increased of high
dose rats with statistical significance attained in the high dose females. In the adrenal
gland, pigment deposits increased in the high dose males, the mid- and high dose
females without statistical significance. In the high dose males, the incidence of pigment
deposition also increased in the mesenteric lymph nodes. In the high dose females, the
incidence of pigment deposition also increased with statistical significance in the
popliteal lymph nodes and the uterus. Across all organs the incidence of pigment
deposition increased in the high dose males and females.

47
Reference ID: 2959378

 NDA 202439

Patricia Harlow, Ph.D.

Table 28: Reviewer's Summary - Non-neoplastic Lesions - Document PH-36242
Rat Carcinogenicity Study
Non-Neoplastic Findings
All main study animals
Organ/Tissue
Finding
#/group
Liver
#
Hyperplasia bile duct - diffuse
#
Hyperplasia bile duct – focal/multifocal
#
Foci- Basophilic (NOS)
#
Foci- Basophilic Tigroid
#
Foci- Eosinophilic
#
Foci- Clear cell
#
Congestion/hemorrhage
#
Hemorrhage
#
Pigment deposits
#
Necrosis – focal/multi-focal
#
Necrosis – single cell
#
Heart
Cardiomyopathy
Valvular f brosis (p = 0.0048)
Pancreas
#
Hyperplasia – focal acinar
#
Hyperplasia – focal ductular
#
Metaplasia – focal hepatocytic
#
Hemorrhage
#
Pigment deposits – perivascular (p=0.021)
#
Pigment deposits – periinsular (p = 0.031)
#
Kidneys
#
Chronic progressive nephropathy
#
Hemorrhage/hematoma
#
Testes
#
Leydig cell hyperplasia – diffuse
#
Leydig cell hyperplasia – focal
#
Clitorial glands
#
Hyperplasia – focal squamous cell
#
Hyperplasia – diffuse squamous cell
#
Hyperplasia – focal acinar cell
#
Hyperplasia – diffuse reactive (p = 0.016)
#
Hyperplasia – focal reactive
#
Pituitary gland
#
Hyperplasia – pars distalis diffuse
#
Hyperplasia – pars distalis focal
#
Hyperplasia – pars intermedia diffuse
#
Pigment deposits
#
Adrenal gland
#
Hyperplasia – focal medullary
#
Hyperplasia – focal zona fasciculata
#
Hyperplasia – focal zona glomerulosa
#
Hyperplasia – cortical (combined fas + glom) #
RITA: Male: 4.1-73, Female: 8.3-49
%
Hemorrhage/congestion
#
Pigment deposits/ zona reticularis
#

0
50
50
39
4
4
5
1
33
5
0
5
3
1
50
39
0
49
1
1
0
0
21
12
50
45
1
50
2
8
0
50
1
19
2
0
50
31
11
0
11
22
1
18

Mammary gland
Hyperplasia – diffuse
Hyperplasia – focal
Hyperplasia – focal with atypia
Hyperplasia – ductular
Pigment deposits (p = 0.032)
Skin
Hyperplasia – focal
Hyperplasia – squamous cell
Hemorrhage
Skeletal Muscle
Myodegeneration (p = 0.016)
Hemorrhage/hematoma in other tissues
Spinal cord

#
#
#
#
#
#
#
#
#
#
#
#

50
0
0
0
0
14
50
0
0
0
50
0

#

0/50

48
Reference ID: 2959378

BAY 59-7939 Dose level (mg/kg/day)
Male
Female
10
20
60
0
10
20
60
50
50
50
50
50
50
50
50
50
49
50
50
50
50
39
40
38
20
20
16
22
0
2
1
5
2
3
3
2
0
0
2
0
1
2
8
7
9
10
5
9
9
1
0
0
0
0
0
1
39
34
37
10
7
13
13
6
12
7
1
3
3
3
1
0
0
0
0
0
0
1
1
1
0
0
0
2
3
2
3
3
2
2
5
0
0
0
0
0
0
0
50
50
49
50
50
50
50
39
41
41
27
28
30
33
1
1
2
0
0
2
4*
50
50
49
50
50
50
50
3
1
0
0
1
0
0
1
1
1
0
0
0
0
0
0
0
0
0
0
1
1
0
0
0
0
0
0
21
20
25
7
10
13
15*
10
8
15
3
1
5
7*
50
50
49
50
50
50
50
48
49
45
41
37
40
33
1
0
0
0
0
0
0
50
50
49
0
0
0
0
0
0
0
7
4
5
0
0
0
43
40
42
45
1
0
1
0
1
1
1
0
0
1
0
1
0
1
0
4*
1
1
0
0
49
48
49
50
50
50
50
0
0
0
2
2
0
0
16
11
13
8
6
5
4
1
1
0
0
0
0
0
2
1
2
6
5
4
5
49
50
49
50
50
50
50
34
34
36
17
21
12
15
12
7
10
3
9
4
5
1
0
0
0
1
0
0
13
7
10
3
10
4
5
26.5
14
20
6
20
8
10
1
3
2
0
3
0
0
14
13
26
25
28
32
32
p = 0.058
p = 0.055
50
50
49
50
50
50
50
0
0
0
6
8
6
5
0
0
0
4
12*
7
2
0
0
0
1
3
0
1
0
0
0
0
1
0
0
19
16
14
1
0
1
4*
50
50
49
50
50
50
50
0
0
0
0
0
2
0
1
0
0
0
0
0
0
0
0
0
0
1
0
0
50
50
49
50
50
50
50
2
6*
4
1
1
1
1
0/50

1/50

1/49

0/50

0/50

0/50

0/50

 NDA 202439

Patricia Harlow, Ph.D.

Rat Carcinogenicity Study
Non-Neoplastic Findings
All main study animals
Organ/Tissue
Finding
#/group
Nose
#
Larynx
#
Trachea
#
Lungs – aveolar
#
Urinary bladder
#
Spleen – hematoma
#
Lymph node – mesenteric
#
Lymph node – mandibular
#
Total hemorrhage in other tissues
Total hemorrhage from liver, etc. above
Total hemorrhage
Increased pigment deposits in other tissues
Lung
#
Ovaries
#
Uterus (p = 0.011)
#
Spleen
#
Thymus
#
Lymph nodes – other
#
Lymph node – mesenteric (p = 0.054)
#
Lymph node – popliteal (p = 0.015)
#
Lymph node – mandibular
#
Lacrimal glands
#
Eyes
#
Total pigment deposits in other tissues
Total pigment deposits from liver, etc. above
Total increased pigment deposits
Other statistically significant findings
Hyperkeratosis extremities (p = 0.042)
#
Lungs Inflam infiltrate (p = 0.012)
#
Ovary hyperplasia sex cord stromal (p = 0.034)
#
Thymus hyperplasia cord & tubule
#
Lacrimal glands inflame. infiltrate (p = 0.013)
#
Sternum myelofibrosis (p = 0.04)
#
* p<0.05

0
50
0/50
0/49
0/50
7/50
0/50
0/50
0/49
3/50
10
2
12

BAY 59-7939 Dose level (mg/kg/day)
Male
Female
10
20
60
0
10
20
50
50
50
50
50
50
0/50
0/50
2/49
0/50
1/50
0/50
0/50
0/49
2/48
0/49
0/50
0/50
0/50
0/49
0/48
0/49
0/50
1/50
6/50
3/50
4/49
1/50
0/50
0/50
0/49
0/49
0/49
1/50
0/50
0/50
0/50
0/50
0/49
0/50
0/50
0/50
0/50
1/49
0/49
0/50
0/50
0/50
1/50
5/49
3/49
1/49
2/50
1/50
7
10
12
3
3
2
4
3
2
0
4
0
11
13
14
3
7
2

0/50
23/50
2/44
0/1
5/49
6/48
21/50
2/49
0/49
59
70
129

0/50
19/50
2/47
0/1
7/50
7/44
13/50
2/50
1/50
51
67
118

1/50
28/50
1/49
3/4
7/49
8/48
15/49
7/50
0/50
70
59
129

1/49
20/49
3/46
0/2
11/49
4/46
19/49
3/48
0/48
61
83
144

0/50
0/50
1/50
21/50
1/46
2/4
4/50
9/50
21/49
0/50
0/50
59
42
101

0/50
0/50
3/50
21/50
1/48
5/50
8/48
20/50
0/50
0/50
58
44
102

1/50
0/50
4/50
21/50
0/48
0/1
3/50
12/50
19/50
0/50
0/50
60
55
115

0/50
1/50
7*/50
26/50
1/49
3/50
17*/48
25/49
0/50
0/50
80
65
145

0/0
1/50
7/44
3/49
1/50

0/0
2/50
5/47
0/50
1/50

0/1
1/50
5/49
0/50
3/50

3*/3
2/49
2/46
1/50
3*/49

0/4
0/50
10/50
12/46
0/50
0/50

0/3
1/50
5/50
24*/48
1/50
0/50

0/4
3/50
14/50
13/48
0/50
0/50

0/4
4*/50
15*/50
14/48
4*/50
1/50

60
50
0/50
0/50
0/50
0/50
0/50
1/50
0/50
0/49
1
0
1

Toxicokinetics
Blood samples were obtained and plasma was prepared from three satellite
animals/sex/group at 0.5, 1, 2, 4, 7, and 24 hours after dosing on Days 1 and 381 of
treatment. Blood samples were obtained from control animals at 1, 7 hours after dosing.
On Day 726, blood samples were obtained from three satellite animals/sex/group at 1.0
hour after dosing. After addition of an internal standard and protein precipitation with
acetonitrile, analysis of BAY 59-7939 was performed using a validated LC-MS/MS
assay with a lower limit of quantification of 0.002 mg/L. The concentration of BAY 597939 in control animals was below the limit of quantification on all three sampling days.
The tmax was 1-2 hours on Day 1 and 1 hour on Day 381. Exposure to BAY 59-7939 on
all sampling days was lower in males than in females with exposure on Day 381 lower
in males by a factor of 0.32 to 0.42 (Table 29, Figure 7). Although exposure increased
with dose, the increase was less than dose-proportional. Exposure increased with
repeated dosing for 52 weeks by a factor of 1.3 to 1.7 in females. In contrast, exposure
in males was essentially unchanged at the two lower dosages and decreased by a
factor of 0.74 at the highest dosage. Plasma concentrations at 1.0 hour after dosing on
Day 726 were not significantly different from plasma concentrations at 1.0 hour after
dosing on Day 381. Since the mean human exposure at the highest recommended daily
dose of 20 mg/day was 3.3 mg*hr/L, the exposure multiples for male and female rats on

49
Reference ID: 2959378

 NDA 202439

Patricia Harlow, Ph.D.

Day 381 were 6.2 and 14.6, respectively, of the human exposure based on total AUC
values. These multiples of the human exposure for male and female rats decrease to
1.5 and 3.7, when correction is made for percent protein binding (i.e., amount of
unbound drug).
Table 29: Reviewer's Summary of Toxicokinetic Results – Document PH-36242
Toxicokinetic Parameters – Day 1 versus Day 381
Male
Dose (mg/kg)
10
20
60
10
Day 1
AUC(0-24)
mg*hr/L
11.5
16.6
27.5
20.0
Cmax
mg/L
1.98
2.39
2.92
2.63
tmax
hr
1.0
2.0
2.0
2.0
Day 381
AUC(0-24)
mg*hr/L
13.4
15.4
20.3
34.7
Cmax
mg/L
1.89
2.31
2.73
4.61
tmax
hr
1.0
1.0
1.0
1.0
Plasma concentrations (mg/L) at 1.0 hour after drug administration
Male
Dose (mg/kg)
10
20
60
10
Day 1
Mean
1.98
1.91
2.33
2.50
(SD)
(1.28)
(1.14)
(1.08)
(1.19)
Day 381
Mean
1.89
2.31
2.73
4.61
SD
(1.19)
(1.22)
(1.08)
(1.16)
Day 726
Mean
2.31
2.61
2.99
4.05
SD
(1.21)
(1.46)
(1.21)
(1.33)

Female
20

60

27.8
3.26
2.0

36.0
4.09
2.0

47.5
5.48
1.0

48.2
7.81
1.0

Female
20
2.65
(1.26)
5.48
(1.55)
5.78
(1.15)

60
3.82
(1.30)
7.81
(1.03)
5.70
(1.02)

Figure 7: Sponsor's Plasma Concentration Profiles – Document PH-36242
Plasma BAY 59-7939 concentrations after oral administration to rats on Day 381 (geometric mean, n = 3)

50
Reference ID: 2959378

 NDA 202439

Patricia Harlow, Ph.D.

Dosing Solution Analysis
Prior to the start of the study, test article formulations at concentrations above 6 mg/mL
and below 1 mg/mL were shown to be homogenous and stable for 15 days at room
temperature. During the study test article formulations were prepared as needed based
on the 15 day stability. Analysis of the dose formulations on eleven days throughout the
study showed the formulations were homogenous and the measured concentrations
ranged from 90% to 116% of nominal (Table 30).
Table 30: Reviewer's Summary of Formulation Analyses – Document PH-36242
Number
Mean recovery, %
SD
Maximum
Minimum

5

Nominal concentration, mg/mL
1
2
11
11
103.0
103.7
4.6
3.8
115
115
90
95

6
11
105.5
3.5
116
102

Integrated Summary and Safety Evaluation

The nonclinical and statistical reviewers concurred with the sponsor that no significant
evidence of neoplasia related to rivaroxaban treatment was observed either in Wistar
rats or CD-1 mice. The Executive Carcinogenicity Assessment Committee also
concluded that there were no clear drug-related neoplasms in either study.
The safety margins for the highest dosage of rivaroxaban (60 mg/kg/day) used in the
carcinogenicity studies were calculated based on AUC values for exposures to total and
unbound rivaroxaban. Because the protein binding of rivaroxaban differs significantly
among species, the safety margins based on exposures to unbound drug are
considered more relevant for comparisons between humans and different animal
species.
The recommended daily dosage of rivaroxaban for patients: (a) undergoing hip and
knee surgery and (b) with atrial fibrillation is 10 mg and 20 mg, respectively.
Consequently, the safety margins reported in the labels for NDA 22406 and NDA
202439 will differ as indicated in Table 31 and Table 32.

51
Reference ID: 2959378

 NDA 202439

Patricia Harlow, 

Table 31: Safety Margins for Human Dose of 20 mg Rivaroxaban Daily

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Exposure at NOAEL Safety MarginI
Study/ Species NOAEL Total UnboundT Based on Based on
SEX  hr) hr) Total  unbound
(mg*hr/L) (mg?hr/L) at NOAEL AUC
Carcinogenicity 2 year
Rat Tumors 60 20.3 0.257 6.2 1.5
48.2 0.612 14.6 3.7
Mouse Tumors 60 2.52 0.162 0.76 1.0
4.24 0.273 1.28 1.6

 

 

 

Unbound fractions in humans, rats, mice, dogs, and rabbits are 5.07%, 1.27%, 6.45%, 10.4%, and 23.4%, respectively.
Comparison to human exposure at 20 mglday corresponding to 0.33 mg/kg in a 60 kg patient or 3.3 mg'hr/L. Human
exposure to unbound drug was 0.167 mg?hr/L.

 

Table 32: Safety Margins for Human Dose of 10 mg Rivaroxaban Daily

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Exposure at NOAEL Safety MarginI
Study/ Species NOAEL Total UnboundT Based on Based on
SEX  hr) hr) Total  unbound
(mg*hr/L) (mg?hr/L) at NOAEL AUC
Carcinogenicity 2 year
Rat Tumors 60 20.3 0.257 17.4 4.3
48.2 0.612 41.2 10.3
Mouse Tumors 60 2.52 0.162 2.2 2.7
4.24 0.273 3.6 4.6
Unbound fractions in humans, rats, mice, dogs, and rabbits are 5.07%, 1.27%, 6.45%, 10.4%, and 23.4? 0, respectively.

Comparison to human exposure at 10 mglday corresponding to 0.16 mg/kg in a 60 kg patient or 1.17 mg?hr/L. Human
exposure to unbound drug was 0.0593 mg?hr/L.

 

69 Page(s) has been Withheld in Full as b4 immediately following this page

Reference ID: 2959378

52

 

 

--------------------------------------------------------------------------------------------------------This is a representation of an electronic record that was signed
electronically and this page is the manifestation of the electronic
signature.
--------------------------------------------------------------------------------------------------------/s/
---------------------------------------------------PATRICIA P HARLOW
06/10/2011
THOMAS PAPOIAN
06/13/2011
I concur.

Reference ID: 2959378

 Memorandum

DEPARTMENT OF HEALTH AND HUMAN SERVICES
FOOD AND DRUG ADMINISTRATION
CENTER FOR DRUG EVALUATION AND RESEARCH
OFFICE OF SURVEILLANCE AND EPIDEMIOLOGY

DATE:

13 June 2011

FROM:

John R. Senior, M.D., Associate Director for Science, Office of Surveillance
and Epidemiology (OSE)

TO:

Ann Farrell, M.D., Acting Director, Division of Hematology Products (DHP),
Office of Drug Oncology Products (ODOP)
Min Lu, M.D., Medical Reviewer, DHP
Norman Stockbridge, M.D., Director, Division of Cardio-Renal Products
(DCRP), Office of New Drugs (OND)
Preston Dunnmon, M.D., Medical Reviewer (Safety), DCRP

VIA:

Gerald Dal Pan, M.D., Director, OSE

SUBJECT:

Hepatic effects of rivaroxaban (XARELTO®,), NDA 22-406, re-submitted 3
January 2011 by Johnson & Johnson, for the indication: prophylaxis of deep
vein thrombosis and pulmonary embolism in patients undergoing hip or knee
replacement (priority review); and
NDA 202-439 submitted 5 January 2011 by Ortho McNeil Janssen
Pharmaceuticals, for the indication: prevention of stroke and systemic
embolization in subjects with atrial fibrillation (standard review).

Documents reviewed:
1) Consultation request from DHP dated 11 February 2011 asking for review of findings related
to liver toxicity, desired response date 30 March, assigned OSE #2011-516; and a second
consultation request dated 25 May 2011 asking for comments on the draft labeling regarding
hepatic effects, specifically sections 6,2 and 8.7 or other sections, desired response date 13
June, assigned OSE #2011-1858. This NDA 22-406 was granted priority review status, as a
resubmission addressing deficiencies in a previous submission that had received a complete
response letter from DMIHP 27 May 2009. The DCRP did not submit a formal request for
consultation but asked for a copy of the response to DHP for consideration in its review of
NDA 202439 for the indication of prevention of strokes in patients with atrial fibrillation and
possible advisory committee discussion in November 2011.
2) Selected pertinent medical literature articles on rivaroxaban
3) Submitted data on 14,236 subjects with chronic atrial fibrillation randomized to oral
rivaroxaban or warfarin in ROCKET study in studies carried out worldwide.
4) Documents submitted by the sponsor and its consultants to both NDAs.
________________________________________________________________________
The search continues for orally effective anticoagulants that do not require periodic monitoring
of their activity (such as warfarin, which usually has a narrow range of dosing in an individual,
to avoid the bleeding risk if too much or insufficient anticoagulation if too little, and therefore

Reference ID: 2961539

 Rivaroxaban consultation 2

must be checked periodically and dose adjusted to keep in the desired range of prothrombin time
for plasma clotting or its international normalized ratio (INR) between 2 and 3. Anticoagulation
is the current treatment of choice for prevention of strokes and systemic embolization in patients
with chronic or recrurent atrial ?brillation, a common disorder in tens of millions of elderly
people worldwide. It is also important in reducing the incidence of deep vein thrombosis (DVT)
and puhnonary emboli (PE) in patients after surgery for replacement of knee or hip, procedures.

Rivaroxban was discovered by Bayer Schering Pharma (Roehrig et a1. 2005; Misselwitz et al.,
2011). It is an oxazolidinone derivative that exerts anticoagulant effects by directly inhibiting
factor Xa in the blood coagulation cascade. The product BAY 59-7939 was licensed by Johnson
Johnson for co-development as XARELTO, JNJ 39039039 for possible marketing to prevent
DVT and PE and later by Ortho McNeil anssen Pharmaceuticals to reduce the incidence of
ischemic strokes and systemic emboli in patients with non-valvular atrial ?brillation.
Rivaroxaban was submitted for indication of ?prophylaxis of deep vein thrombosis and
pulmonary embolism in patients lmdergoing hip or knee replacement surgery? on 3 January 2011
as 022406 for priority review by the Division of Hematology Products (DHP). A second
application was submitted at the same time for review by the Division of ardioRenal Products
(DC RP) as NDA 202439, and was accepted for standard review for the indication of preventing
strokes and systemic emboli in patients with non-valvular atrial ?brillationrivaroxaban

Because of earlier experience with ximelagatran AstraZeneca) whose NDA 21-686
was not approved 8 October 2004 because of hepatotoxicity, Boehringer Ingelheim proceeded a
bit more slowly (Ezekowitz, 2004) and amassed a huge total of 18,113 patients with chronic
atrial ?brillation enrolled in the RE-LY clinical trial worldwide (Connolly et al., 2009), and
anticoagulants for use in the population of people with atrial ?brillation have been scrutinized
very carefully, as was done for the recently approved dabigatran Boehringer
Ingelheim).

 

The original submission of NDA 22-406 was made on 28 July 2008, but was formd to have
several de?ciencies for which a complete response letter was sent 27 May 2009, despite the
generally favorable opinion of the Cardiovascular and Renal Drugs Advisory Committee at its
meeting on 19 March 2009. There was expressed some concern about possible hepatotoxicity if
the was given for longer than 2 (knee) or 5 (hip) weeks, for which ?ndings of long-term
studies would be important. They did not feel that the risks could be avoided by dose reduction.
The hepatotoxicity risks were addressed in presentations by Dr. Paul Watkins representing the
company, and by Dr. Kate Gelperin for DCRP, slides for which may be seen (Lincoff AM,
Ferguson E, 2009). Both speakers referred to the earlier experience with ximelagatran, pointed

Reference ID: 2961539

Rivaroxaban consultation

3

out that for rivaroxaban in the 2 and 5-week studies carried out in the 12,383 patients
randomized in the four RECORD studies there was no unfavorable imbalance in the numbers of
patients showing serum enzyme activity elevations or elevations with total bilirubin (TBL)
concentration increases, between those on exoxaparin and on rivaroxaban prophylaxis. Further,
the sponsor had asked several consulting hepatologists to review individual patients of special
interest because both peak alanine aminotransferase (ALT) activities and TBL concentrations
were increased; their findings were summarized by Dr.Watkins. No signal of rivaroxabaninduced serious liver injury was found in either the group or individual reviews for the relatively
short-term exposure, but because of the earlier ximelagatran experience, all were interested in
findings from long-term studies. In presenting for he sponsor, Dr. Watkins used extensively the
diagnostic tool invented and developed at CDER under its Regulatory Science Review research
program by Drs Guo, Gelperin, and Senior and termed “eDISH” for evaluation of drug-induced
serious hepatotoxicity. He subsequently published his opinion that it should be used by industry
as well as Agency reviewers (Watkins, 2011).
The initial impetus to develop eDISH came from the ximelagatran experience, where clearly it
was important to consider in close detail individual cases of special interest for possibly serious
hepatotoxicity. A means was needed to select out of huge numbers of patients studied in clinical
trials those few cases of special interest for whom detailed additional informationwas needed to
permit good clinical assessment of the severity of the liver dysfunction. No pathognomonic test
or procedure for diagnosis of drug-induced liver injury (DILI) is known; it remains a diagnosis
of exclusion requiring adequate clinical information for the differential diagnosis. Using the
eDISH analytical system (Guo et al.), we looked in 2005 at the EXANTA® results (AstraZeneca)
after ximelagatran had not been approved. We displayed an x-y plot of peak ALT (abscissa) and
peak TBL(ordinate) as log-log (base 10) values of multiples of the ULN for each patient, in four
quadrants defined by a vertical line at ALT 3xULN and a horizontal line at TBL 2xULN. The
reason for using log-log plots was to keep the relative elevations in viewable range, and so that
the ALT would not swamp the TBL rises.

Reference ID: 2961539

 Rivaroxaban consultation

 

 

 

 

 

 

 

 

 

 

 

 

1.960 on 1.962 on (N: 3922NcrteISubjectswith A 8 A A A
normal values are
hiddentlomthis 
01? quadrant 
100
Peak ALT, 
 0tug A x0960) c(1962) 

 

 

 

 

It is immediately obvious at a glance that there were 7 times more patients who showed ALT
elevations on Ximelagatran (X) as on oumadin (C) in the right lower (southeast, SE) quadrant,
and 14 times more who also showed bilinlbin elevations as well as ALT elevations (the ?Hy?s
Law? quadrant, upper right or By clicking the pointer over any symbol, a time-course
graph is generated showing all of the liver test data reported for that individual patient (ALT,
AST, ALP, TBL), so the time relationships of the variables can be seen easily. Again, the
laboratory tests values are shown and compared as the loglO values for multiples of elevation
above the normal upper limit, for visual comparison without removing the magnitude of each
compared to the other. Time is shown on a linear scale.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Potential Hy?s Law Cases in SPORTIF study of Ximelagatran and oumadin

site-subj s-a drug CMP INF SE LIK probable cause
1190-8675 M76 2 3 3 0 De?nite pancreatic carcinoma
2160-5402 F73  3 3 3 3 Probable X: possible heart failure
0620-7259 M80  4 4 3 - Very likely X: unlikely heart failure
0540-7986 F81  4 3 2 3 Probable 
0690-6546 M75  3 2 2 2 Probable tmcertain; possible 
9570-8387 F80 2 2 3 3 Probable 
0020-7024 M74 2 2 3 2 Probable tmcertain: possible 
1000-6995 M62  1 2 2 1 Very likely lulcertain
9390-6560 M74  2 2 1 3 Probable 
0490-6221 M82  1 1 2 3 Probable X: possible lmcertain
0695-5111 M76  2 2 3 1 Possible renal possible uncertain
0200-8434 M85 2 2 1 1 Possible biliary sludge or tmcertain
2690-8209 M81 2 2 1 Very likely biliary tract disease
0860-6686 F80 0 Probable heart: possible biliary
0080-6438 F68  3 1 3 1 Very likely dengue fever

 

 

 

 

 

 

 

 

 

 

Reference ID: 2961539

Rivaroxaban consultation

5

Of the 14 cases on ximelagatran 7 were adjudicated probable, 1 very likely, and the other 6 very
unlikely (1), unlikely (4), or only possible (1). Case 0620-7259 died as a result of delayed
coagulation factor deficiency and exsanguinated from bleeding duodenal ulcer, and there were
two other cases that were fatal but not in the SPORTIF V series, one caused by hepatitis B.
Also available for inspection by the reviewers is the table of data used to generate the graph
(click on Show patient records), and supplemental narrative information is obtained by clicking
on the patient’s number xxxxxx. The power of the analytical system is that it uses the computer
capabilities for very rapid search through a great mass of data to identify a quite small number of
patients of special interest out of the large number in the total study, then showing the results in
an x-y plot that permits instant pattern recognition by the viewer. The second step then initiates
the process of medical differential diagnosis of the probable cause for the findings, first with a
time-course graph, and then the third step is reading of narrative information. Using this process
and system, it is usually possible to determine the clinical severity of the liver injury, and then to
estimate the likelihood that it was caused by the drug (drug-induced liver injury, DILI) to which
the patient was exposed, if the information provided permits that estimate to be made. In the
potential Hy’s Law quadrant (upper right, “northeast” NE) only 1 Coumadin patient (green
circle, C) was seen, versus 14 on EXANTA (red triangles, X). Time course and clinical narrative
information on the lone patient on C in the NE quadrant revealed that his test abnormalities were
caused by cancer of the pancreas that became recognized while he was on study, not by warfarin.
In contrast, 7 patients on X had at least probable DILI, 1 more possible DILI, out of the 14 total.

The history of Patient #8675 included constant atrial fibrillation, congestive heart failure (CHF),
coronary artery disease, ischemic cardiomyopathy, hypertension, peripheral neuropathy,
hyperlipidemia, and cholecystectomy. The patient was randomized on 13-Nov-2001 and allocated
(b) (6)
(b) (6)
to receive Warfarin.
approximately
after randomization and
while still receiving the study drug, the patient was hospitalized with previously undiagnosed
pancreatic cancer that presented as abnormal liver function tests. The patient also had a recent
history of hematuria. All previous liver function tests had been within normal limits. The study drug

Reference ID: 2961539

 Rivaroxaban consultation

6

(b) (6)
was permanently discontinued
prior to admission. On admission, ASAT and ALAT were
1.25 and 1.75 times the upper limit of normal, total bilirubin and alkaline phosphatase were 12.8
mg/dL and 275 U/L, respectively. An abdominal computed tomography (CT) scan was suggestive
of pancreatic mass consistent with pancreatic cancer. Endoscopic retrograde
cholangiopancreatography revealed occluded common bile duct; stenting was unsuccessful.
Percutaneous biliary stenting was performed. Repeat laboratory results showed total bilirubin
15.8 mg/dL and alkaline phosphatase 209 U/L; ASAT and ALAT returned to normal limits. A CTguided biopsy of the mass revealed adenocarcinoma. Due to the patient’s poor functional status,
(b) (6)
it was decided not to treat the pancreatic cancer, and was discharged to hospice care.
, the patient died from pancreatic cancer. An autopsy was not done. The study
investigator assessed the pancreatic cancer and hyperbilirubinemia as unrelated to the study
drug. Additional safety surveillance resulted in the following information: Expressed as multiples
(b) (4)
of ULN, the following values were noted by the
four months after start of study
(b) (6)
drug
ALAT 3.71 x ULN, ASAT 2.04 x ULN, ALP 2.14 x ULN and bilirubin 6.77 x ULN.
All previous values had been normal.8675 (#END#)

To illustrate how this process worked, let us consider the case of the 78-year-old man in Jamaica
NY who had been randomized to Coumadin (warfarin) in the SPORTIF V study comparing
effects of Coumadin to EXANTA ® (ximelagatran, AstraZeneca):
Comment: As located by eDISH, the patient in question was 1190-8675 in the SPORTIF V
study. Clicking on the symbol for that patient brought up the time course of liver tests over the
period of his observation. It was clear that nothing happened for about 3 months from when he
was randomized to warfarin on 13 November 2001 through the monthly testing on 7 February
(87 days). Retesting on 21 Mar 2002 showed elevations in bilirubin to 6.77xULN, ALT to
(b) (6)
3.71xULN, and he was hospitalized
, when it was discovered that
he had pancreatic carcinoma. The work-up permitted a well supported conclusion that the tumor
was the definite cause of the findings and warfarin toxicity was very unlikely. He died from
(b) (6)
inoperable pancreatic cancer
. Thus, a grading of CMP 2, INF 3, SEV 3, LIK of
wILI 0 and cause definitely pancreatic cancer 5, but not warfarin 0.
Dr. Watkins had looked at the clinical trials called RECORD for the 2 and 5-week exposures to
rivaroxaban for reducing DVT and PE in patients having knee or hip replacement surgery, and
using eDISH did not observe any imbalance in frequency of liver test abnormalities between the
patients on enoxaparin or warfarin. Interest then turned to focus on the long-term studies of
patients with atrial fibrillation, as a valuable safety issue even for patients on shorter periods of
exposure to rivaroxaban.
The ROCKET (Rivaroxaban Once-daily oral direct factor Xa inhibition Compared with vitamin
K antagonist for the prevention of study of stroke and Embolism Trial in atrial fibrillation) study
randomized 14,264 (7,131 rivaroxaban; 7133 warfarin) subjects with atrial fibrillation (Af) for 2
years. The details of demographics and geographics, inclusion and exclusion criteria, and other
protocol definitions will be found in the medical efficacy review. After some back-and-forth
interactions with the sponsor, liver test data in acceptable format were obtained and entered into
the database for eDISH analyses by Dr. Guo, and clinical narratives for selected cases of special
interest were requested. Using eDISH system to look at the ROCKET data, the pattern was quite
different from that seen for ximelagatran but fairly similar to what we had found for dabigatran.

Reference ID: 2961539

 7

Rivaroxaban consultation

Applying what we had learned from the ximalagatran study, in a similar fashion to that used for
the recent dabigatran analyses, we approached the longer-term study of rivaroxaban with a new
concept of looking primarily for the probable or most likely cause of the hepatic injury or
dysfunctional indicators and clinical data, rather than simply trying to rule-out drug-induced liver
injury (DILI). Although we are still not able to estimate the causal likelihood with great precision
or consistency, we do use the categories of percentage likelihood similar to those of the DILIN
(drug-induced liver injury network), slightly modified and with greater likelihood reflected by
higher scores, as follows for these analyses, and further explained and justified below:
Almost certain, definite Very likely Probable Possible Unlikely Very unlikely -

>95% (96-100%)
>75-95% (76-95%)
>50-75% (51-75%)
>25-50% (26-50%)
>4-25 % (5-25%)
<5% (0-4%)

score 5
score 4
score 3
score 2
score 1
score 0

We believe that serious liver dysfunction has some cause, even though we may not know or be
able to find out what it is, that there is no undefined “background rate,” and that uncertainty is
mainly the result of insufficient information. The scores assigned may be made equivalent to
DILIN scores by subtracting from 6. It is conceded that these brackets of estimated percentage
likelihood are arbitray and based upon opinions, but at present no more precise estimations are
possible.
As mentioned above, the eDISH analytical system and tool for assisting review of selected cases
of special interest for potential DILI is very effective in getting a broad picture of results in a
very large study. It also provides tools to aid the medical reviewer in the very difficult task of
making a differential diagnosis of causality from findings constituting a clinical syndrome,
namely that of serum total bilirubin elevations resulting from hepatocellular injury likely to have
been caused by a suspected drug, bearing in mind that a firm diagnosis of probable DILI cannot
be made, but can only be left after other causes have been ruled out,. Thus DILI is a diagnosis of
exclusion. How far a reviewer should go in trying to rule out every conceivable cause of serious
liver injury has been the source of much debate, but there is some practical limit that is not yet
defined even by the world’s leading expert hepatologists. The process of ruling out potential
causes is entirely dependent on the information available to the assessor, and on the capability of
that assessor in applying the information to infer the conclusion of DILI likelihood. The is much
simplified by finding a clear-cut alternative cause such as acute viral hepatitis A or B, or less
often hepatitis C or E that are often insidious or even asymptomatic in onset. Other diagnoses
that are unambiguous are common bile duct stones causing extrahepatic biliary obstruction or
acute cholecystitis, and congestive heart failure (Senior, 2010) especially if accompanied by
hypotension or arterial hypoxemia. Acute alcoholic hepatitis, autoimmune hepatitis, and liver
injury caused by herbal products also should be considered.

Reference ID: 2961539

 Rivaroxabcm consultation

 

 

  

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

?,131 on Rivaroxaban (N: ?131]
3XULN SKULN 
1:33 Riverexehen??    RiverexehenSKULN



I?a?a??Sulejecteinthis duedrentere hidden    
I I I II
[111m
Peak ALT, 
Drug e. Riverexehen
11,134 on Warfarin (N: ?134]
2 
3.
3  3' 

?33;   
EUXULN
Ul1_ Suhjecteinthie duedrentere hidden   

0.1 2 50 1nd 200 300
Peak ALT, 

 

 

 

Reference ID: 2961539

Rivaroxaban consultation

9

In contrast to the previous ximelagatran findings, no imbalance of peak ALT or peak
(ALT&TBL) were seen in the large ROCKET study.
In approaching this problem, we built upon the experience of the DILIN (Drug-Induced Liver
Injury Network) investigators (Fontana et al., 2010; Rockey et al., 2010), who have collected
many hundreds of cases of putative DILI and have tried to establish consistent and standardized
methods and processes of adjudication. First, it is necessary to determine the clinical severity of
the liver injury, ranging from simple, mild, asymptomatic elevation of serum aminotransferase
enzyme activities indicative of acute hepatocellular injury, to devastating liver failure leading to
liver transplant or causing death. It has been our practice to classify severity of liver injury in
five grades:
1) ALT or AST >3xULN, usually transient and reversible by adaptation = mild
2) Also TBL >2xULN, after or concurrent, indicating early functional loss = Hy’s Law case
3) Serious, meaning symptomatic, disabling, requiring or prolonging hospitalization
4) Acute liver failure, secondary failure of brain or kidney function due to liver dysfunction
5) Fatal (from liver failure), or requiring liver transplantation
The severity of liver injury cannot be reliably graded by the highest observed level of serum
enzyme activity, despite the earlier views of expert panels using consensus of opinions, as widely
used (misused?) by oncologists and others following the system
A scale for categorizing severity was developed at the National Cancer Institute, beginning in
1982 but modified many times since then. It has been very widely used by oncologists and has
been increasing used by other specialists to grade severity of adverse effects, as the Common
Toxicity Criteria (CTC), Hepatic (page15). In its current version, serum ALT, AST, and ALP
activities are graded as 1) mild, if >ULN – 2.5xULN; 2) moderate, if >2.5-5xULN; 3) severe, if
>5-20xULN; and 4) life-threatening, if >20xULN. We have utilized the concept to grade severity
but reject the use of highest observed serum enzyme elevations because none of them measure
liver function, but only the rate of injury; it is loss of liver function that determines clinical
severity. Even quite high serum ALT activities of 20-30xULN may be entirely asymptomatic and
reversible, and might even remain undetected unless blood is drawn for measurement. Further,
these enzyme activities change quite rapidly over time; a highest single measurement may miss
the true peak, and does not indicate whether the values are falling or rising.
The narrative data usually provides sufficient information to estimate severity, but the next step
is more difficult: to estimate the likelihood that the injury was caused by the drug suspected, and
not by liver disease, nor by another drug, herbal or chemical toxicant. No pathognomonic test of
procedure, even liver biopsy, can be used to make the diagnosis of DILI; it is diagnosed only by
excluding other causes, and DILI can mimic the clinical and histologic appearance of any known
liver disease. Search for reliable methods to carry out this difficult task in medical differential
diagnosis has challenged the best experts in hepatology (Fontana, 2010), and is not settled yet.
The attribution of causality assessment was also pioneered by the National Cancer Institute, and
is defined in its manual (pages 3, 11) suggesting that relationship to the investigational agent be
judged as: 5, Definite, if clearly related; 4, Probable, if likely related; 3, Possible, if it may be
related; 2, Unlikely, if doubtfully related; and 1, Unrelated, if clearly not related. This concept
was later refined and modified by the DILIN group which established ranges of estimated

Reference ID: 2961539

 10

Rivaroxaban consultation

percentage likelihood as 1, Definite, if >95% likely and beyond a reasonable doubt; 2, Highly
likely, if 75-95% likely, and clear, convincing, but not definite; 3, Probable, if 50-74%, if
supported by a preponderance of evidence; 4, Possible, if 25-49% likely and equivocal;, and 5,
Unlikely, if <25% likely, and some other cause (Rockey et al., 2010). (Note that the DILIN uses
a scale that is reversed from that proposed by the NCI.)
In this assessment of the estimated likelihood that dabigatran, warfarin, or ximelagatran may
have caused the liver test and clinical abnormalities, we employed a modified scale that has been
used for several years at the FDA, combining elements of both the NCI and DILIN approaches:
5.
4.
3.
2.
1.
0.

Definite, >95% likely, no other cause even unlikely
Very likely, 76-95% likely, no other cause even rated as possible
Probable, 51-75%, more likely than all other causes combined, only one other possible
Possible, 26-50% likely, up to three possible alternative causes
Unlikely, 5-25%, no other cause very likely or definite
Very unlikely, >5%, relatively rare cause for DILI

Note that this FDA scale of causality attribution returns to the NCI idea of more likely being
rated higher, uses approximately the DILIN percentage categories but is (6 – DILIN = FDA).
It allows combination with the 0-5 severity score, so that the SEVxLIK product can be used to
estimate the relative clinical importance of a case (Senior, 2010), so a case of acute liver failure
probably caused by the drug (product = 12) or a serious case very likely caused by the drug (also
=12), up to death or liver transplant definitely caused by the drug (product = 25) would be much
more important than just serum enzymes increased.
In addition to estimating the severity (SEV) and causality likelihood (LIK) of DILI, it was early
recognized that the adjudication depended very heavily on the amount and quality of information
available in the submitted data, and also upon how well that information was used to justify and
support the conclusion of causal attribution. Therefore, we graded each case for completeness of
information available to make the causal diagnosis (CMP) and the plausibility of the inference
based on the information (INF), again using scales from 0 to 5, as follows:

0:
1:
2:
3:
4:
5:

CMP
no information provided
a couple of items
several items
most of the key items
all key items
enough for definite conclusion of cause

INF
0: totally unsupported attribution
1: very poor or weak attribution
2: somewhat supported attribution
3: well supported conclusion
4: very good basis for causal decision
5: incontrovertible causality assessment

In making these assessments, both Dr Leonard Seeff and I independently reviewed the clinical
data for each case, made estimates for CMP, INF, SEV, LIK, and probable cause, and then some
days later compared notes. Remarkable concordance was reached, perhaps because we defined
criteria in advance, and both have had considerable experience in making these adjudications.
Using this process for the patients randomized to rivaroxaban in the ROCKET study, we found:

Reference ID: 2961539

 11

Rivaroxaban consultation

Potential Hy’s Cases Randomized to rivaroxaban (39 of 7131 exposed; 0.55% or 1/183)
subject

Country

100996
102880
104201
108923
115921
100792
100338
103926
102733
108584
105059
108182
115901
106725
108241
107710
102861
115515
105348
102253
101013
105441
103861
105428
116413
107703
111406
103877
100098
100650
107387
105128
104495
101573
105785
100402
102409
104083
113553

Bulgaria
Romania
Taiwan
United States
Romania
Romania
Lithuania
Taiwan
Great Britain
Russia
Argentina
Germany
Argentina
Russia
Romania
India
Canada
Romania
Canada
Spain
South Korea
Czech Republic
Australia
South Africa
Poland
Russia
Russia
Argentina
Hungary
United States
Russia
Philippines
United States
Chile
Argentina
Bulgaria
India
India
Bulgaria

sex
age
M71
F 65
M49
M58
M76
M48
M58
M61
M70
F 67
M78
M66
F 78
F 58
M52
F 74
M74
M81
M82
M79
M64
M74
M73
M79
M60
F 70
F 78
F 73
M64
M78
F 70
F 78
M89
M62
M78
F 79
M83
F 87
M68

CMP

INF

SEV

3
2
3
4
3
3
2
3
4
1
2
4
4
2
2
3
4
3
4
3
3
3
4
4
3
1
2
1
0
3
3
1
4
0
1
1
1
0
0

3
1
2
4
3
3
1
4
4
1
3
4
3
1
1
3
3
2
4
3
3
3
3
4
3
1
2
1
0
2
3
1
4
1
0
0
1
0
0

3
3
3
3
3
3
2
3
3
2
3
2
1
2
2
3
2
3
3
3
2
2
2
3
2
2
3
2
2
3
3
2
3
1
1
1
1
2
2

LIK
R-ILI
1
1
0
0
0
0
0
0
0
1
0
0
0
2
1
1
0
0
0
0
1
1
1
0
2
1
0
1
1
0
0
1
0
1
1
1
1
2
1

probable cause
Very likely (4) heart failure
CD stone (2) or uncertain (2)
Acute heart failure (5)
Cholecystits(3); heart failure (2)
CD stone, cholangitis (5)
Acute CMV (4); hep B (1)
Hepatitis C (3); alc. hep (2)
Hepatocellular CA (5)
Pancreatic CA (5)
Alcoholic hepatitis (2); uncertain 2
Cardiogenic hepatopathy (5)
Pancreatic CA (5)
Colon CA, liver mets (5)
Steatohepatitis 2; uncertain 2
Acute pancreatitis 3; uncertain 1
Acute hepatitis E (4)
Pancreatitis, cholecystitis 5
Pancreatitis 3; cholecystitis 2
CD stones, cholecystitis 5
CD sludge, cholecystitis 5
Chronic hepatitis B flare 4
Cardiogenic hepatopathy 4
Acute CMV hepatitis 3;Augmentin 1
Calculous cholecystitis 5
Worsened heart failure 3
Hepatitis B 2; uncertain 2
CD stone, cholecystitis 5
Uncertain 4
Uncertain 4
Pancreatic CA 5
Calculous cholecystitis 5
CD stones 3; uncertain1
CD stones 3; heart failure 2
Uncertain 4
Covert alcoholic 2; uncertain 2
Uncertain 4
Uncertain 4
Uncertain 3
Uncertain 3; heart failure 1

And for the patients randomized to warfarin in the ROCKET study, we found:

Reference ID: 2961539

 12

Rivaroxaban consultation

Potential Hy’s Cases Randomized to warfarin (40 of 7134 exposed; 0.56% or 1/178)
subject

Country

107035
112679
113608
101773
110960
108165
106780
108569
116639
109730
116761
101271
111052
110588
112126
104111
112771
109538
109103
105006
108475
115267
106239
109999
111453
101230
102225
112147
106199
103724
114789
100044
104949
111827
115879
103820
108749
110038
111778
112797

Russia
Poland
Brazil
Chile
South Korea
Canada
India
United States
Great Britain
Singapore
Argentina
Thailand
Brazil
United States
Czech Republic
Czech Republic
United States
Czech Republic
United States
Germany
China
China
Australia
China
United States
Taiwan
Philippines
Brazil
Ukraine
Philippines
Australia
United States
South Korea
United States
Russia
United States
South Korea
Poland
Columbia
Columbia

sex
age
M56
F 72
M43
F 62
M61
M81
F 77
M76
M67
M72
M63
M48
M63
F 66
F 78
F 76
M89
M76
F 60
F 75
F 78
F 84
M78
M76
F 87
M72
M57
M69
M75
M68
M64
M84
M79
F 60
M59
M80
M72
M72
F 85
M71

CMP

INF

SEV

3
3
4
4
3
1
2
4
4
3
3
2
2
3
4
4
3
2
2
2
2
2
2
1
3
2
1
3
1
0
1
2
2
2
1
3
1
2
3
3

2
2
4
3
2
2
1
4
2
2
3
2
2
3
4
4
3
2
2
2
2
2
1
1
4
2
1
3
1
0
1
2
1
2
1
3
1
2
3
3

3
4
4
3
2
3
3
3
4
2
2
3
2
3
3
3
2
2
2
3
4
3
2
2
3
1
1
3
1
1
1
2
2
2
2
3
3
2
3
3

LIK
R-ILI
0
0
0
1
1
1
2
1
1
1
1
1
1
1
1
1
0
2
1
1
1
1
2
1
0
2
1
0
1
1
1
1
1
2
1
1
1
1
0
0

probable cause
Cardiac arrest 5
Pulmonary embolus, heart failure 5
Severe cardiac failure 5
Acute hepatitis B (4)
Acute heart failure 4
Cardiogenic hepatopathy 4
Diclofenac 2; heart failure 1
CD stone, sludge 4
Cardiogenic hepatopathy 4
Heart failure 3; CMV 1
Acute hepatitis C (4)
Worsened heart failure 3
Hepatitis C (4)
Heart failure, shock 4
CD stones 4
CD stone 4
Acute cholecystitis 5
Gallbladder sludge 3
Acute pancreatitis 4
CD stone 4
Acute myocardial infarction 4
Recurrent CD stone 4
Uncertain 3
Calculous cholecystitis 4
CD stone, cholangitis 5
Uncertain 3
Uncertain 4; Gilbert syndrome
Acute hepatitis A,B (4); lymphoma 1
Uncertain 4; Gilbert syndrome
Uncertain 4; Gilbert syndrome
Uncertain 4
Worsened heart failure 4
Uncertain 4
Worsened heart failure 3
Alcoholic hepatitis 3; uncertain 1
CD stones 4
Alcoholic hepatitis 2; uncertain 2
Worsened heart failure 4
Acute heart failure 5
Septic choledocholithiais 5

For each of the cases of special interest shown by the eDISH system in the right upper quadrant,
inspection of the time course and review of the supplemental narrative information was done to
attempt making a clinical diagnosis of what may have caused the liver dusfunction or injury that
was observed. Not all of the cases had sufficient information to reach a firm conclusion about the

Reference ID: 2961539

 13

Rivaroxaban consultation

probable or most likely cause, which remained uncertain in a few of the cases, epecially those
that were of mild severity and indicated mainly by slight elevations of peak ALT activities over
3xULN. Also, only a few of the cases showed sever dysfunction and evidence of acute liver
failure, usually in the setting of severe cardiac injury with congestive failure and hypotension
and with multi-organ failure (see warfarin cases 2, 3, 9, 21). In most cases the information that
was provided allowed a clinical diagnosis of the probable (3), very likely (4), or almost certain
(5) cause of the findings. No cases of probable serious DILI were found for either drug (it was
not our practice to attribute the cause to the drug just because of uncertainty in these analyses).
We had not previously evaluated the quantity and quality of information used to make the
differential diagnosis of the likelihood of what caused the abnormal findings, but made an initial
attempt to do this, and have included scores to indicate our assessment of the information
available as reported in the submitted NDA data. Finally, we listed what appeared to be the most
probable cause of the liver injury or dysfunction for each patient. We looked closely at the 79
cases shown by eDISH in the upper right (NE) quadrant, 40 of whom were on warfarin, 39 on
rivaroxaban. Full tabulations of the abstracted data from narratives, clinical courses, and scores
assessed for each of the 79 patients evaluated are shown in the Excel files of Appendix I for the
ROCKET study, and truncated tabulations are shown below. Absent enough information, the
probable diagnosis may be uncertain.
In considering these selected cases of potential “Hy’s Law” applicability,we started with the
eDISH extraction of cases of interest who showed {peak ALT >3xULN & peak TBL >2xULN},
then examined the time course of the four key variables ALT, AST, ALP, and TBL in each of
them, and finally used the provided narrative summaries of clinical information to attempt
making a diagnosis of the most likely cause of the liver problem in each case. Listed below are
the estimated probable causes:
ADJUDICATED MOST LIKELY CAUSE OF LIVER DYSFUNCTION IN 79 POTENTIAL HY’S LAW” CASES
rivaroxaban
warfarin
probable cause of observed liver dysfunction
biliary tract disease, common ducts stones/sludge
10
11
cardiac failure, worse if with cardiogenic shock
5
14
uncertain diagnosis – inadequate information to diagnose
11
9
acute viral hepatitis – A, B, C, CMV
5
4
acute pancreatitis or discovery of carcinoma
6
1
acute alcoholic hepatitis
0
1
liver cancer – primary or metastatic
2
0
Total
rivaroxaban
warfarin

39
0
-

40
0

The patients from this sample with potentially serious liver injury came from a population
sample with frequent obesity, diabetes mellitus, hypertension, past myocardial infarction or
angina, pat ischemic strokes, fluctuating degrees of congestive heart failure, and atrial
fibrillation. They averaged 71 years of age, had mean body mass index of about 29 (almost
obese). Incidence of potentially serious liver injury or dysfunction was not rare, about 0.55% or

Reference ID: 2961539

 Rivaroxaban consultation

14

about 1 in 180 patients during the time of observation in these studies of chronic atrial
fibrillation. There was no imbalance in the frequency of potentially serious liver injury, or of
lesser injury manifested only by serum enzyme increases between the two groups on long-term
anticoagulation. Although the concept of “background rate” may be a misnomer, the incidence of
problems with a diagnosable cause was considerable. It was reassuring that subjects on
rivaroxaban in the ROCKET study did not show as a group or as individuals any probable cases
of serious liver injury that could be confidently attributed to either warfarin or rivaraoxaban. The
high incidence of uncertain as the most likely diagnosis echoes the findings of the Acute Liver
Failure Study Group that considers even more severe liver dysfunction in patients admitted to
liver transplantation units, where even extensive and careful attempts to discover the probable
cause are frustrated by insufficient available information to make a confident diagnosis. Until
physicians learn to investigate, follow closely, and actively pursue the diagnosis of what caused
liver injury in a patient under their care, we shall continue to be frustrated by inability to make
causal diagnoses with accuracy.
Please scan the Excel files sent along with this Word document as Appendix I to view the more
detailed listings of additional clinical information (body mass index [BMI],; peak values for
ALTx, ASTx, ALPx, and TBLx; and “R” values (ratio of peak ALTx/ALPx to estimate the
likelihood of hepatocellular (>5), cholestatic (<2), or mixed (2-5) liver injury. Also shown in the
attached Excel tables are brief summaries of the clinical narrative information used to estimate
likelihood of probable cause and severity in each case to see how the evidence was used to make
the estimates.
It should be borne in mind by evaluators, the sponsor, investigators, and treating physicians that
patients with atrial fibrillation represent a rather fragile population in which serious liver injury
from cardiac decompensation with or without shock or reduced liver perfusion is quite frequent,
and the incidence of biliary tract disease rather high. Even though this was a very large study in
terms of the numbers of patients enrolled, many of them were not well followed or investigated
according to protocol. Indeed, cases of serious liver injury may occur if hundreds of thousands or
millions of patients are treated with long-term rivaroxaban. Nevertheless, it does not appear
reasonable to recommend routine serum enzyme monitoring during prolonged anticoagulation
treatment, but it would be advisable to carry out baseline evaluation of liver tests before starting
treatment. Once treatment begins, it is important for both the physician and patient to be on the
lookout for indications of liver injury, whether it be symptoms of dark urine, scleral or skin
jaundice, anorexia, right upper quadrant abdominal discomfort or pain, and for evidence of heart
failure, shock, or hypoxemia that should occasion liver testing and work-up to find the probable
cause
This individual case review of the large ROCKET study provided confidence that no serious
hepatoxicity could be attributed to rivaroxaban (or warfarin), which was in concurrence with the
conclusion of the sponsor’s expert hepatology panel and the findings of the shorter-term study in
the RECORD analyses of 2009. It was also reassuring that there was no imbalance in the cases
considered potentially “Hy’s Law” by simple counts of serum chemistries (39 of 7131 exposed
to rivaroxaban, 0.55% or 1/183, and 40/7134 exposed to warfarin, 0.56% or 1/178). The total of
over 13,000 patients exposed to short-term (RECORD 6,183) or long-term (ROCKET 7,131)

Reference ID: 2961539

 Rivaroxaban consultation 15

treatment with rivaroxaban to reduce risks of DVT, PE, ischemic strokes, or peripheral emboli in
susceptible patients was strong and compelling evidence for hepatic safety of rivaroxaban.

As a consequence, no additional warnings were suggested for the draft labeling now in
consideration for possible approval, as communicated to the DHP labeling review team on 2
June:

I have been following labeling discussions by DHP closely, and refer to the latest draft versions
circulated yesterday and today by ree Newman. eci call with re erence to section 6.1 not 6.2 on
Adverse reactions in clinical trials

  
   
 
  
 

 
 

on epatic mpairment principal
concern is or us liver disease, and the labeling appears
to give su?'icient warning to physicians, also re?ected in Section 5.4 Hepatic Impairment. The labeling as
it is being developed by DHP for those sections appears to be satisfactory with respect to liver-related
problems.

 

The more concerning issue is long-term exposure to rivaroxaban as an altemative to warfarin in
prevention of strokes, under review in DCRP, and whether there might be greater problems as had been
observed with ximelagatran (Exanta) that was not approved in 2004. We have conducted case-by-case
critical review of patients in the ROCKET study and have not found numerical imbalance in cases
showing serum enzyme rises or in those with consequent serum bilirubin increases in patients on
rivaroxaban compared to those on warfarin. Further, probable cause of the abnormalities has not shown
that the likelihood of probable, very likely, or de?nite attribution is dz?erent for either warfarin or
rivaroxaban. We are awaiting some additional reports for smaller studies before reporting to DCRP, but
will copy DHP with those ?ndings and assessments.

Recommendations:

1) No additional labeling warnings or precautions beyond those already included in the
current draft language are suggested.

2) Rivaroxaban appears relatively safe for long-term as well as short-term use as an
anticoagulant agent for reduction of the incidence of DVT and PE in patients having knee
or hip replacement procedure, as well as for reduction in ischemic strokes in patients with
non-valvular atrial ?brillation.

3) Routine monitoring of serum indicators of liver injury during treatment has been found to
be inef?cient, ineffective, very burdensome, and is neither necessary nor recommended for
this drug.

 

John R. Senior, M.D.
cc: OSE 2011-516 &1858
A. Farrell, DHP
M. Lu, DHP
N. Stockbridge, DCRP
S. Grant, DCRP
P. Dunnmon, DCRP

Reference ID: 2961539

Rivaroxaban consultation

16

REFERENCES
Agnelli G, Eriksson BI, Cohen AT, Bergqvist D, Dahl OE, Lassen MR, Mouret P, Rosencher N,
Andersson M, Bylock A, Jensen E, Boberg B; EXTEND Study Group. Safety assessment of new
antithrombotic agents: lessons from the EXTEND study on ximelagatran. Thromb Res. 2009;
123(3):488097. [PMID 18485453]
Boos CJ, Lip GY. Ximelagatran: an eulogy. Thromb Res. 2006; 118(3):301-4. [PMID
16626788]
Cardiorenal Advisory Committee Meeting 10 September 2004, Bethesda MD.
www.fda.gov/ohrms/dockets/ac/04/transcripts/2004-4069T1.htm
Chen T, Lam S. Rivaroxaban: an oral direct factor Xa inhibitor for the prevention of
thromboembolism. Cardol Rev. 2009 Jul-Aug; 17(4):192-7. [PMID 19525681]
Connolly S, Ezekowitz MD, Yusuf S, et al. Dabigatran versus warfarin in patients with atrial
fibrillation. N Engl J Med. 2009 Sep 17; 361(12):1139-51. [PMID 19717844]
Eriksson BI, Borris LC, Friedman RJ, Haas S, Huisman MV, Kakker AK, Bandel TJ, Beckmann
H, Muehlhofer E, Misselwitz F. Rivaroxaban versus enoxaparin for thromboprophylaxis after hip
arthroplasty. N Engl J Med. Jun 26; 358(26):2765-75. [PMID 18579811]
Ezekowitz MD. Stroke prevention in atrial fibrillation: anticoagulants and antithrombotics, Am
Heart Hosp J. 2004 Fall;2(Suppl 1):31-5. [PMID15539973]
Fontana RJ, Seeff LB, Andrade RJ, Björnsson E, Day CP, Serrano J, Hoofnagle JH.
Standardization of nomenclature and causality assessment in drug-induced liver injury: summary
of a clinical research workshop. Hepatology 2010 Mar; 52(2):730-42. [20564754]
Fontana RJ. Approaches to the study of drug-induced liver injury. Clin Pharmacol Ther. 2010 Jul
21; Epub ahead of print.
Kakkar AK, Brenner B, Dahl OE, Eriksson BI, Mouret P, Muntz J, Soglian AG, Pap AF,
Misselwitz F, Haas S; RECORD2 Investigators. Lancet 2008 Jul 5; 372(9632):31-9. Epub 2008
Jun 24. [PMID 18582928]
Kandelwal N, James LP, Sanders C, Larson AM, Lee WM, et al. Unrecognized acetaminophen
toxicity as a cause of indeterminate acute liver failure. Hepatology 2011 Feb; 53(2):567-76.
[PMID 21274877]
Lassen MR, Ageno W, Borris LC, Lieberman JR, Rosencher N, Bandel TJ, Misselwitz F, Turpie
AG; RECORD3 Investigators. N Engl J Med. 2008 Jun 26; 358(26):2776-78. [PMID18579812]

Reference ID: 2961539

 Rivaroxaban consultation

17

Lincoff AM, Ferguson E. Summary Minutes of the Cardiovascular and Renal Drugs Advisory
Committee, 19 March 2009. www.fda.gov/AdvisoryCommittees/CommitteesMeetingMaterials/
Drugs/ Cardiovascular and Renal Drugs Advisory Committee/ucm125999.htm
Lip GY, Lane DA. Does warfarin for stroke thromboprophylaxis protect against MI in atrial
fibrillation patients? Am J Med. 2010 Jul 21; Epub ahead of print. [PMID 20655037]
Misselwitz F, Berkowitz SD, Perzborn E. The discovery and development of rivaroxaban. Ann N
Y Acad Sci. 2011 Mar; 1222:64-75. [PMID 21434944]
Mitchell ARJ. Will this be the end of the anticoagulation clinic for patients with atrial
fibrillation? Curr Drug Targets Cardiovasc Haematol Disord. 2005 Oct; 5(5):405-8. [PMID
16248832]
National Cancer Institute. Common Toxicity Criteria Manual, Attribution of causality, pp 3, 11
http://ctep.cancer.gov/protocoldevelopment/electronic applications/docs/ctcmanual v4 10-4-99.pdf

National Cancer Institute. Common Toxicity Criteria (CTC), Hepatic (page 15)
http://ctep.cancer.gov/protocoldevelopment/electronic applications/docs/ctcv20 4-30-992.pdf
Reuben A, Koch DG, Lee WM, et al. Drug-induced acute liver failure: results of a U.S.
multicenter prospective study. Hepatology 2010 Dec;52(6):2065-76. [PMID 20949552]
ROCKET AF Study Investigators. Rivaroxaban-once daily, oral, direct factor Xa inhibition
compared with vitamin K antagonism for prevention of stroke and embolism trial in atrial
fibrillation;rationale and design of the ROCKET AF study. Am Heart J. 2010 Mar; 159(3):340-7.
[PMID 20211293]
Rockey DC, Seeff LB, Rochon J, et al. Causality assessment in drug-induced liver injury using a
structured expert opinion process: comparison to the Roussel-Uclaf causality assessment method.
Hepatology 2010 Jun; 51(6):2117-26. [PMID 20512999]
Roehrig S, Straub A, Pohlmann J, Lampe T, Pernerstorfer J, Schlemmer KH, Reinemer P,
Perzborn E. Discovery of the novel anthrombotic agent 5-chloro-N-({(5S)-2-oxo-3-[4-(3oxomorpholin-4-yl)phenyl]-1,3-oxazolidin-5-yl}methyl)thiophene-2-carboxamide (BAY 597939; an oral, direct factor Xa inhibitor. J Med Chem. 2005 Sep 22;48(19):5900-8. PMID
16161994]
Senior JR. Unintended hepatic adverse events associated with cancer chemotherapy. Toxicol
Pathol. 2010 Jan; 38(1):142-7. [PMID 19858501]
Temple R. Clinical white paper: CDER-PhRMA-AASLD Conference 2000.
www.fda.gov/downloads/Drugs/ScienceResearch/ResearchAreas/ucm091457.pdf
Watkins PB, Desai M, Berkowitz SD, Peters G, Horsmans Y, Larrey D, Maddrey W. Evaulation
of drug-induced serious hepatoxicity (eDISH). Drug Saf. 2011 Mar 1; 34(3):243-52. [PMID
21332248]

Reference ID: 2961539

 Appendix I
Please see the Excel file “Hy’sR&Wcases.xls” sent along with this
Word file “JRSrivaroxaban.doc” for detailed data on 39 cases for
ROCKET subjects randomized to rivaroxaban and 40 cases for
subjects randomized to warfarin who showed potential Hy’s Law
findings of (peak ALT >3xULN & peak TBL >2xULN) during the
period of their observation on study. These 79 cases were looked at
in close detail, with eDISH plotting of their time courses of all four
key liver test variables (ALT, AST, ALP, and TBL) during the
period of their observation in the study. In addition, narratives
providing additional clinical information on each of the cases were
evaluated to make the best possible differential diagnosis of the
most likely cause of the liver injury or dysfunction. In cases where
the information provided was not adequate to make a diagnosis of
probable cause, a diagnosis of “uncertain” was made. That
diagnosis was not interpreted to infer possible drug-induced injury,
but the best alternative possible diagnosis from the information
available was assigned. The completeness of information provided,
and how well it was used to inform the attending physicians was
also estimated, and estimates of the severity of liver dysfunction
and likelihood that it was caused by the study drug was estimated.
Unfortunately, the Excel tables that follow in the co-submitted file
proved too large to be incorporated into this Word document,
despite valiant efforts of several experts in Microsoft products.
Therefore they are being submitted separately.

Reference ID: 2961539

 2009 (Day 737) showed ALT 1.9 xULN, rising to 12.9x on 30 November (Day 756). Investigation showed bile duct 11 mm
and carcinoma of the head of the pancreas was shown 4 January (Day 791). Increasing jaundice was evident, and R was
stopped 20 January 2010 (Day 807). A Whipple procedure was done

007057 108584 Russia

F

W

67

(b) (6)

39.60

; liver tests normalized 9 March (Day 855).

6.56

12.31

2.50

1.80

6.8

1

1

2

1

alcoholic hepatitis 2, uncertain 2

15.7

2

3

3

0

cardiogenic hepatopathy 5, Gilbert syndrome

3.4

4

4

2

0

CA pancreas 5

2.6

4

3

1

0

Comment: A very obese Russian woman 67 with past hypertenion, transient ischemic attack,fairly severe heart failure and
Class III and Af started R 18 June 2008. After over a year elevated serum aminotransferases (ALT 8.2 and AST 5.3 xULN)
were noted on 3 September 2009, not confirmed on 22 September. No action was taken and tests remained normal until R
was stopped 5 March 2010 (Day 626) because of "non-compliance." Recurrent elevations of aminotransferaes and total
bilirubin were noted 7 April, a month later, normalizing 29 April. The family revealed that she occasionally drank alcohol.

054014 105059 Argentina

M

W

78

33.61

11.08

12.25

4.83

0.78

Comment: An obese Argentinian man 78 with diabetes, hypertension, heart failure Class I, and Af started R on 29 January
2008. He showed repreated asymptomatic and mild bilirubin elevations (Gilbert syndrome) bu no serum enzyme increases
(b) (6)

until

after he had been admitted to hospital for hematemesis and melena, found by endoscopy

to have resulted from two prepyloric gastric ulcers. He was anemic and hypotensive, requiring tranfusions, and underwent
antrectomy and duodenal resection. He did not do well, required mechanical ventilation, developed cardiogenic shock,
(b) (6)

cardiac arrest, and died

049062 108182 Germany

M

W

66

30.60

10.00

12.01

2.03

3.54

Comment: An mildly obese German man 66 with history of diabetes, hypertension, mitral insufficiency, congestive heart
failure Class II, and Af started R 5 June 2008. He showed two AST 6xULN elevations without ALT, ALP, or TBL increases
after

(b) (6)

days that were not investigated or explained. After over a year on R he showed major aminotransferase

elevations 19 Agust 2009

(b) (6)

and investigation led to finding bile duct dilation

(b) (6)

. R was stopped on 31

August, and further studies showed panceatic CA for which a Whipple procedure was done

054012 115901 Argentina

F

W

78

30.86

(b) (6)

. Liver tests were

(b) (6)

normalized postoperatively and he was still living when last seen 4 June 2010

6.17

11.86

6.02

4.50

Comment: An obese Argentinian woman 78 with past hypertension,peripheral arterial disease, transient ischemic attack,

CA colon. Liver metastases. 5
narrative truncated

mild congestive failure class I, and Af started R 26 March 2009.Over a year later on 18 May 2009 (Day 419) she was found
to have ALT 12xULN and to be anemic (Hb 5.1 g/dL). Colonoscopy showed carcinoma and liver metastases were found.
She had stopped R on 16 May, and when last seen 13 July had become jaundiced.

007067 106725 Russia

F

W

58

30.86

3.00

10.76

2.17

1.11

9.7

2

1

2

2

steatohepatitis 2, uncertain 1

1.8

2

1

2

1

acute pancreatitis 3, uncertain 1

9.2

3

3

3

1

acute hepatitis E - 4

Comment: A slightly obese Russian woman 58 with diabetes, hypertension, angina, heart failure class II, and Af started
R on 8 April 2008. She showed borderline ALT elevations repeatedly (possible steatohepatitis), but on 12 November (Day
219) ALT 10.7, AST 3, and TB: 2.2 xULN following her report of abdominal pain and nausea 1 November. No action was
taken, but repeat testing over the next 8 days showed retun of the values to normal. Abdominal ultrasound testing showed
enlarged fatty liver and R was stopped 14 November. Left renal stones were noted, and serum tests for viral hepatitis were
reported to be negative.

040005 108241 Romania

M

W

52

35.26

5.15

9.68

2.49

5.44

Comment: An obese Romanian man 52 with prior hypertension, transient ischemic attack, congestive failure class II, and
Af was started on R 23 May 2008, and showed no liver test abnormalities for over 22 months, but on 16 March 2010 (Day
663) he complained of abdominal pain and "meteroism' This was initially attributed to biliary colic, but ultrasonogram the
next day showed a relaxed gallbladder with no stones. The ALT rose to 9.7x and AST 5.2x, but ALP to 5.4x and TBL 2.5x.
Marked GGT elevation was also noted, and serum amylasewas 5xULN. He had claimed light alcohol use in the past, and
did not admit to resuming. Tests for viral hepatitis makers were negative for acute disease.

091024 107710 India

F

A

74

22.43

6.82

8.06

3.92

0.88

Comment: An Indian woman 74 with past hypertension, transient ischemic attack, no heart failure, and Af started R on 2 May
2008 and continued for over a year with normal liver tests excpt for one small, asymptomatic, transient ALT 2.3x on August
19 (Day 110 )that was not investigated or explained. On 22 October 2009 ( Day 539), 18 months after starting R, her ALT
and AST were elevated to 8.1x and 6.8x with TBL3.9xULN. She compolained of abdominal pain and weakness, and later
testing showed heptitis E IgM anibody indicating acute infection. The R was stopped 30 October 2009, and she recovered

Reference ID: 2961539

 without treatment. She later was reported to have died of unkown cause

011504 102861 Canada

M

W

74

23.76

(b) (6)

17.92

.

8.03

2.52

2.22

3.6

4

3

2

0

pancreatitis 5; acute cholecystitis, Q225

5.0

3

2

3

0

pancreatitis 3; cholecystitis 2

1.5

4

4

3

0

acute cholecystitis , cd stones 5

3.7

3

3

3

0

acute cholecystitis, sludge 5

7.8

3

3

2

1

chronic hepatitis B flare 4

2.6

3

3

2

1

cardiogenic hepatopathy 4

1.8

4

3

2

1

acute CMV infection 3; Augmentin toxicity 1

1.0

4

4

3

0

acute calculous cholecysttis 5

3.0

3

3

2

2

worsened heart failure 3;

Comment: A Canadian man 74 with history of diabetes, hypertension, mild mitral insufficiency by no heart failure started
on R 29 October 2007 and continued on it for 20 months without abnormal liver tests. On 28 June 2008 he complained of
epigastric pain and tests howed elevated serum enzymes and bilirubin, ultrasound a distended gallbladder with tiny stones
and enlraged pancreas by tomography.His last dose of R had been on 6 June. Sphincterotomy was done, with drainage of
purulent bile, and he recovered promptly.

040007 115515 Romania

M

W

81

30.47

9.24

7.43

4.05

1.50

Comment: An obese Romanian man 81 with prior hypertension, ischemic stroke, and Af started R on 9 March 2009. He
showed a transient, isolated, asymptomatic AST elevation to 5.4xULN on April (Day 53) but no further abnormal liver
tests until 31 March 2010 when he complained of abdominal pain and nausea, showed elevated AST, ALT, and TBL to
9.2x, 6.9x, and 4.1xULN on 2 April, with elevated serum amylase 3.3xULN. Gallbladder sludge but no stones were seen by
ultrasound, and tests for viral hepatitis were negative. He reported perviou light alcohol use.He recovered on conservative
treatment and R was continued until 15 June 2010 (Day 454).

011033 105348 Canada

M

W

82

25.10

11.27

7.07

6.22

4.75

Comment: A Canadian man 81 with previous hypertension, stroke, glaucoma, and Af started R on 7 February 2008 and had.
(b) (6)

no liver test abnormalities until 29 May 2009
(b) (6)

when acute cholecystitis was diagnosed. Cholecystectomy was done

and a stent was inserted because all the stones could not be removed. An ERCP was done

(b) (6)

and the stent

removed. R had been interrupted during time of procedures, but was resumed for another year until 23 June 2010.

034021 102253 Spain

M

W

79

26.93

10.64

6.98

2.39

1.87

Comment: A slightly overweight Spanish man 79 with past hypertension and AF srarted R on 18 October 2007, continued
on it for over 18 months without liver test abnormalities. He developed right upper abdominal pain 7 May 2009 with elevated
serum enzymes and bilirubin and was diagnosed with acute cholecystitis with biliary sludge. He had antibiotic treatment
and R was interrupted for 5 days, then resumed as the acute findings subsided. The R was stopped 9 June 2009.

082013 101013 South Korea

M

A

64

28.26

4.71

6.98

2.28

0.90

Comment: An overweight South Korean man 64 with history of hypertension, ischemic stroke, chronic hepatitis B, and Af
started R on 30 July 2007 and continued on it for over 9 months without serious liver test abnormalities except for slight
asymptomatic ALT elevations (chronic hepatitis B?) in the range of 1.5 to 2xULN. His ALT rose to 3xULN on 7 May 2008,
and then to 7xULN on 26 May (Day 302), and R was stopped 3 June. This was followed by slowly rising TBL to 2.3xULN on
30 July 2008. The abnormalities subsided, and he was reported to have had a stroke

042009 115441 Czech Republic

M

W

74

22.05

6.59

(b) (6)

6.20

later.

2.83

2.43

Comment: A Czech man 74 with past hypertension, transient ischemic attack, angina, myocardial infarction, aortic and mitral
regurgitation, heart failure class II,, peripheral arterial disease, and Af started R on 11 March 2009. Chest pain occurred on
(b) (6)

October

and diagnosis of recurrent myocardial infarction with reduced ejection fraction was made.R was stopped on 13
(b) (6)

(b) (6)

He recovered but was readmitted for hypotension and heart failure

061032 103861 Australia

M

W

73

29.86

5.29

and

(b) (6)

later had ventricular fibrillation, treated successfully but death in heart failure occurred

5.63

2.15

3.08

Comment: A slightly obese Australian man 73,with past hypertension, myocardialinfarction, bypass graft, heart failure
class II, and Af started R on 4 December 2007. Serum total bilirubin wsa repeatedly elevated slightly (Gilbert syndrome)
but more so on 2 April (Day 121) after worsened heart failure.He received Augmentin Forte for six weeks from 11 April to
21 May,and a week later showed rises in ALT and AST to 5.6x and 5.3xULN, with TBL 2.1xULN. Serological tests showed
CMV IgM and IgG in blood taken 27 May (Day 176), and R was stopped 29 May 2008

027006 105428 South Africa

M

W

79

31.84

4.55

5.45

4.00

5.32

Comment: An obese South African man 79 with past hypertension, diabetes, angina and bypass, pacemaker, and Af started
R on 7 February 2008. On 2 June
(b) (6)

(b) (6)

) he showed ALT and ALP elevations to 4.1 and 3.1xULN, and then on 23 June

to 5.5x and 5.3xULN (cholestatic ratio). Ultrasound revealed gallstones and shrunken gallbladder, after which

cholecytectomy was done

048027 116413 Poland

Reference ID: 2961539

(b) (6)

Abnormalities subsided despite continuing R until 23 July 2008.

M

W

60

37.75

7.11

5.02

2.25

1.66

 Comment: A very obese Polish man 60 with history of hypertension, ischemic stroke, heart filure Classs II, and Af started
R on 7 May 2009. Worse heart failure occurred in late August with elevated AST 4.8x and ALT 3.7xULN without bilirubin

2

rise until 22 September (Day 139) when it rose to 2.25xULN. Biliary tract and viral tests were negative.

007026 107703 Russia

F

W

70

27.68

4.82

4.97

2.75

0.78

6.4

1

1

2

1

hepatitis B 2; uncertain 2

3.5

2

2

3

0

cholecystitis, cd stone 5

1.5

1

1

2

1

uncertain 4

7.0

0

0

2

1

Comment: A somewhat overweight Russian woman 70 with past hypertension, transient ischemic attack, goiter, and Af was
started on R 13 May 2008 and showed an asymptomatic unexplained rise in ALT to 2.0xULN on 10 June (Day 29) but then
no further liver test abnormalities until 2 June 2010 (Day 751), about 2 years later, when ALT was 5x and AST 4.8xULN .
and TBL 2.7xULN. Serological studies showed HBsAg, but further testing was refused, and R was stopped 1 June 2010.

007031 111406 Russia

F

W

78

36.16

4.69

4.69

2.21

1.33

Comment: A very obese Russian woman 78 with diabetes, hypertension, ischemic stroke, serious heart failure class III,
and Af started R on 24 September 2008. She showed minor ALT elevations in February-April 2009 but no abnormalities
(b) (6)

until 9 February 2010

after mild right uppr abdominal pain. Bile duct dilatation and calculous cholecystitis was
(b) (6)

seen by ultrasound, and cholecystectomy was done

045039 103877 Argentina

F

W

73

28.89

R had been stopped on 10 March.

9.12

4.56

2.06

2.97

Comment: An overweight Argentinian woman 73 with diabetes, hypertension,transient ischemic attack, congestive heart
failure class II, and Af started R on 12 December 2007. Isolated ALT elevation to 2.2x on 8 May (Day 149) was mild,
asymptomatic and not explained. After 11 months on R ALT rose to 4.6xULN, AST 9.1xULN and TBL 2.1x on 29 October
(Day 323), a month after R was stopped because the subject "withdrew consent" for unstated reason.

036016 102098 Hungary

M

W

64

28.70

8.09

4.51

2.33

0.64

Comment: An overweight Hungarian man 64 with diabetes, hypertension,myocardial infarction, congestive heart failure

uncertain 4
narrative truncated

Class II, and Af started R on 1 October 2007. Transient asymptomatic ALT 3.1x and AST 2.3xULN wre noted 26 November
(b) (6)

but not investigated or explained, and R was continued for more than two years with only very minimal elevations

of ALT to 1.7x and TBL to 1.2ULN on1 August 2008

(b) (6)

). The subject had a transient ischemic attack

(b) (6)

and AST 8.1 and ALT 4.5xULN were noted and TBL rose to 2.3xULN on 18 March, after which R was stopped the next
day

(b) (6)

). The cause of the abnormalities was not investigated.

001051 100650 United States

M

W

78

34.28

5.03

4.46

3.17

3.62

1.2

3

2

3

0

pancreatic carcinoma 5

6.2

3

3

3

0

acute calculous cholecystitis 5

4.2

1

1

2

1

CD stones 3, hepatitis D 1

4

4

3

0

CD stones 3,heart failure 2

Comment: An obese U.S. man 78 with diabetes, gout,hypertension, transient ischemic attack, prostatic hypertrophy and Af
started R on 26 June 2007. Slight ALT increaes with rise in bilirubin were noted in November-January, rising to 3.03xULN
5 February 2008

(b) (6)

Prior to that he had some bruising and minor bleeding. His R stopped 11 January
(b) (6)

after which he had an elective cholecystectomy

(b) (6)

, but liver biopsy at operation disclosed carcinoma that
(b) (6)

had metastasized from the pancreas. The bilirubin rise to 3.03xULN was three weeks after R stopped. He died

007012 107387 Russia

F

W

70

28.25

2.85

4.25

7.21

0.69

.

Comment: An overweight Russian woman 70 with past diabetes, hypertension, myocardial infarction, heart failure Class II,
(b) (6)

and Af started R on 23 April 2008.

she complained of abdominal pain, nausea, and vomiting,

leading to hospitalization for acute calculous cholecystitis. Serum ALT 4.3x, AST 2.9x,ALP 0.7x and TBL 7.2xULN were
noted, and cholecystectomy was done

(b) (6)

later. She resumed taking R for 20 months more without serious liver injury

although a transient ALT elevation to 2.9xULN occurred on 22 April 2009

063004 105128 Philippines

F

A

78

20.67

(b) (6)

2.68

4.22

2.08

1.01

Comment: A thin Philippina woman 78 with history of hypertension, stroke, congestive heart failure class II, and Af started
R on 1 February 2008. After a year she showed elevated ALT 4.2 and SAT 2.7xULN but normal TBL and ALP. No action was
taken and the abnormalities gradually subsided but recurred 16 July 2009 (Day 532) and ultrasound showd gallbladder
sludge and stones. The abnormalities again subsided without surgical action and testing showed her positive for hepatitis
D but not B (!).She continued on R until 31 May 2010 (Day 831).

001492 104495 United States

M

W

89

25.06

6.05

4.06

4.58

8.67

0.5

Comment: A U.S. man 89 with past hypertension, peripheral arterial disease, mild congestive failure class I and Af started
R on 9 Januray 2008. He had hemorrhoidal bleeding and was transfused with two units of fresh frozen plasma and one of
packed red cells

(b) (6)

he developed shortness of breath and acute heart failure

and on 1 April showed ALT 4.1x, AST 4.4x, and TBL 3.8x, ALP 8.7xULN and tomography showed common duct stones. The

Reference ID: 2961539

 (b) (6)

stones were removed surgically, after stopping R

056004 101573 Chile

M

W

62

27.10

2.25

3.79

2.83

0.71

0.0

0

1

1

1

uncertain 4

3.0

1

0

1

1

uncertain 2; secret drinker 2

1.3

1

0

1

1

uncertain 4

5.3

1

1

1

1

uncertain 4

3.9

0

0

2

2

uncertain 3

0

0

1

1

uncertain 3; heart failure 1

CMP

INF

SEV

LIK

Comment: An overweight Chilean man 62 with history of diabetes, hypertension, and Af started R on 14 September 2007.
He showed modestly elevated bilirubin concentrations repeateedly without symptoms (probable Gilbert syndrome).
A transient ALT elevation to 3.8xULN on 12 September 2008 was not confirmed and not studied. Another ALT rise to
3.3xULN on 2 December 2009 was confirmed at 3.5x on 16 December, but again was ignored and R was continued until
25 June 2010 (Day 1016). Information about liver effects was almost nil.

054028 105785 Argentina

M

W

78

39.45

6.11

3.69

2.18

1.22

Comment: A very obese Argentinian man 78 with pastdiabetes, hypertension, mitral insufficienct, congeative failure Class II,
(b) (6)

and Af started R on20 February 2008. He had trauma to the left thigh
2.2 on 29 October

(b) (6)

with a rise in serum TBL to

with rise in ALT, attributed to pigment from the thigh hematoma. On 8 May 2009

(b) (6)

) his

AST was found to be 6.1x and ALT 3.7xULN without elevation of ALP or TBL, after complaints of gastroenteritis, melena,
and dehydration for two days, and R was stopped 11 May 2009

359001 100402 Bulgaria

F

W

79

(b) (6)

18.83

6.74

3.49

3.29

2.77

Comment: A very thin Bulgarian woman 79 with history of hypertension, myocardial infarction, ischemic stroke, congestive
failure Class II, and Af started R on 8 June 2007. On 5 August (Day 307) she had abdominl pain, vomiting, and was admitted
with adiagnosis of "gastritis," but was shown by ultrasound to be due to common duct stone with serum AST 4.1x, ALT 3.5x,
ALP 2.4x, TBL 3.3xULN. She was treated conservatively and the abnormalities subsided despite resumtion of R treatment.
On 9 April 2008, similar symptoms led to gastroscopy that showed acute exudative gastritis; her AST was 6.7, ALT 2.7x,
and TBL 1.9xULN. These findings were not investigated, and she remained on R until 3 June 2010 (Day 1092).

380019 102409 India

M

W

83

25.06

3.08

3.43

2.83

0.65

Comment: An Indian man 83 with hypertension, angina, congestive failure class II, and Af started R on 16 October 2007.
He showed asymptomatic, repeated but small TBL elevations for a year (Gilbert syndrome), then on 8 January 2009 his
(b) (6)

ALT rose to 3.4x, AST 3.1xULN, not explained.

he reported exertional dyspnea and required

hospitalization for treatment of worsened heart failure. She remained on R until 10 June 2010

091016 104083 India

F

A

87

26.31

2.47

3.25

(b) (6)

2.08

0.83

Comment: A slightly overweight Indian woman 87with history of hypertension, stroke, Af was started on R 19 December 2007.
On 23 January (Day 36) she showed rise in ALT to 3.3x, AST 2.5x, TBL 2.1xULN without reporte symptoms, and negative
physical examinationbut no studies were done.The abnormalities resolved without treatment and she continued R until 2
July 2008 (Day 197) when she refused to participate any longer..

359015 113553 Bulgaria

M

W

68

32.28

2.39

3.03

3.00

0.46

6.6

Comment: An obese Bulgarian man 68 with diabetes, hypertension, congestive failure class I, and Af was started on R on
30 December 2008. He showed repeated very slight TBL elevations (Gilbert syndrome) for a year. On 2 Decmber (Day 338)
his ALT was 2.3xULN. Repeat tests showed slow climb of ALT to 3.03x, AST to 2.4xULN, after which the slight abnormalities
subsided and he stayed on R until 2 June 2010 (Day 675). No investigations were done.

39 cases
Site

Subj

Country

Rivaroxaban-Warfarin Study 3001

Reference ID: 2961539

Sex

race

Age

BMI

pASTx

pALTx

pTBLx

pALPx

R

probable cause

 WARFARIN
Site

Subj

Country

WAR
Sex

race

Age

F

W

72

40 cases
048008 112679 Poland

BMI

pASTx

pALTx

pTBLx

pALPx

"R"

CMP

INF

SEV

LIK

4.68

0.70

144.1

3

2

4

0

60.5

4

4

4

0

40.25 350.78 100.90

probable cause
heart failure 5; pulmonary embolus,

Comment: A morbidly obese Polish woman 72 with diabetes, hypertension, moderately severe heart failure class III, and
Af started W on 12 November 2008, and showed only two very slight elevations in TBL (possible Gilbert syndrome) in
(b) (6)

over a year on W.

) she had a pulmonary embolus with subsequent acute heart falure
(b) (6)

and her AST rose sharply to 351x, ALT 101xULN on 19 December. The W was stopped

, and she died in

(b) (6)

heart and multiorgan failure

055074 113608 Brazil

M

W

43

29.38

33.00

69.02

11.90

1.14

Comment: An almost-obese Brazilian man 43 with diabetes, hypertension, coronary stent congestive heart failure class
(b) (6)

II, and Af started W 23 December 2008 and tolerated it wlel for a year, with no abnormal liver tests.
(b) (6)

(b) (6)

he developed worsened heart failure for which he was hospitalized
(b) (6)

from which he was resuscitated.
(b) (6)

next day.

HEAC+

with cardiorespiratory arrest

he showed renal failure, attributed to sepsis, and W was stopped the
(b) (6)

he showed ALT 69x, AST 33x, and TBL 11.9xULN and died

056019 101773 Chile

cardiac failure 5
narrative truncated

F

I

62

56.77

54.41

53.23

17.59

4.12

12.9

4

3

3

1

30.4

3

2

2

1

acute hepatitis B (4)

Comment: A morbidly obese Chilean woman 62 with history of chronic obstructive pulmonary disease, hypertension, heart
failure class III, and AF started W on 24 September 2007 Petechiae of the lower legs were noted 17 October, and a week
later ALT and AST rose to 20.5x and 17.6x, TBL 1.2x and ALP 1.7xULN. W was stopped on 25 October
(b) (6)

abnormalities peaked
with jaundice

(b) (6)

(b) (6)

The

at ALT50.7x, AST 54.4x, TBL 13.1x, and ALP 4.1xULN and she was hospitalized

). Tests of sera revealed heptitis B IgM and HBsAg; the acute events subsided after she was
(b) (6)

discharged

she was followed with no further liver test abnormalitis until 27 February 2008.

082009 110960 South Korea

M

A

61

23.31

78.08

42.61

2.58

1.40

acute heart failure 4

Comment: A South Korean man 61 with history of diabetes, hypertension, ischemic stroke, myocardial infarction, and Af

narrative truncated

started W on 16 September 2008. He showed slight TBL elevations without symptoms on several occasions during the first

HEAC+

(b) (6)

year on W but no serum enzyme abnormalities (probable Gilbert syndrome). Hematuria occurred

and a left ureteral stone was found by computed tomography. His W was stopped and shockwave lithotripsy was
(b) (6)

done the next day, complicated by pneumonia.
cardiomegaly, and pleural effusion, followed by worse dyspnea
(b) (6)

38.1xULN

(b) (6)

) chest xray showed pulmonary edema,
and very sharp rise in AST to 78.1, ALT to

. He was treated for heart failure and the serum aminotransferases quickly declined,
(b) (6)

but he did not wake and was transferred in vegetative state

(b) (6)

, then died

Cause of death was recorded as dysrhythmic cardiac arrest.

011578 108165 Canada

M

W

81

29.16

39.07

26.35

3.06

3.34

7.9

1

2

3

1

cardiogenic hepatopathy 4

Comment: An overweight Canadian man 81 with history of diabetes, hypertension, aortic stenosis, mitral regurgitation,

narrative truncated

mild heart failure class I, and Af started W on 11 June 2008. His liver tests remained normal for 22 months despite a

HEAC+

(b) (6)

myocardial infarction

(b) (6)

and subsequent coronary bypass graft

recurrent heart failure occurred and W was stopped, but AST rose to 39.1x, ALT 26.4x, TBL 3.1x, ALP 3.3x on
(b) (6)

when myocardial infarction and ischemic hepatitis were diagnosed, with death that day

091022 106780 India

F

A

77

23.63

18.29

24.94

3.82

1.38

18.1

2

1

3

1

Comment: An Indian woman 77 with hypertension and Af started W on 28 March 2008. She complained of arthralgia on 21
September

(b) (6)

diclofenac 2; uncertain 1; heart failure 1
HEAC+

) and was treated with diclofenac for three weeks. On 11 November slightly elevated ALT 1.8xULN

was noted, increasing to 4.3xULN on 5 December

(b) (6)

) and W was stopped 4 days later because it was suspected

as a cause.Her ALT continued to rise to 29.4xULN on 22 January and AST to18.x TBL 3.8xULN on 27 January

(b) (6)

).

Serological testing was negative for viral hepatitis A, B, C, D, and E, and abdominal sonography was not diagnostic.
The liver test abnormalities subsided but did not normalize and worsened again when she developed bronchopneumonia
(b) (6)

21 May 2009 and severe heart failure, leading to her death

001826 108569 United States

M

W

76

37.76

24.06

21.77

2.17

1.73

12.6

Comment: A very obese U.S. man 76 with diabetees, hypertension,acarotid and peripheral arterial disease, angina, coronary

Reference ID: 2961539

4

4

3

1

cd stone, sludge 4

 bypass graft, previous cholecystectomy and choledocholithiasis, benign prostatic hypertrophy, renal calculi, memory loss,
(b) (6)

and AF started W on 16 June 2008. Unexplained ALT elevation to 2.3xULN was noted 23 April 2009
(b) (6)

July

, and on 10

showed AST 24.1x and ALT21.8x, TBL 2.2xULN; sonography showed dilated common ile duct, with sludge
(b) (6)

and stones, and sphincterotomy was done

but cholangitis developed , treated with antibiotics. W was

restarted 31 July and continued without further liver test abnormalities until 31 May 2010

044023 116639 Great Britain

M

W

67

22.88

0.64

(b) (6)

18.58

3.06

1.06

17.5

4

2

4

1

cardiogenic hepatoathy 4

Comment: A British man 67 with history of ischemic stroke, myocardial infarction, cardiomegaly,Churg-Strauss syndrome

narrative truncated

(allergic vasculitis), pulmonary congestion, and Af started W on 23 April 2009. After recurrent cardiac ischemia and new

HEAC+

(b) (6)

cerebral ischmic attack W was stopped on 2 February 2010
occurred

(b) (6)

and ALT was 14.7x, TBL 1.4xULN on 15 March

Another myocardial infarction with cardiac arrest
(b) (6)

(b) (6)

), rising to ALT 18.6x, TBL 3.1xULN

when he died. The death certificate recoed acute hepatic failure; no autopsy was done.

065001 109730 Singapore

M

A

72

25.75

6.00

15.80

2.25

2.08

7.6

3

2

2

1

heart failure 3, CMV 1

11.2

3

3

2

1

acute hepatitis C (4)

5.8

2

2

3

1

worsened heart failure 4

6.8

2

2

2

1

Comment: A slightly overweight Singapore man 72 with hypertension, ischemic stroke, obstructive lung disease, angina,
coronary stent, congestive failure Class II, and AF startedW on 14 July 2008 ). On 30 July

(b) (6)

ALT elevation to 3.1x,

AST 2.2x, TBL1.2xULN were noted, rising to ALT 8.2x, AST 6.0x, TBL 1.8x ALP 1.7xULN on 1 August, and ALT 15.8x, TBL
2.3xULN on 5 August
4 August
recurred

(b) (6)

Serology reported positive CMV (?acute or chronic) and past EBV, and W was stopped

(b) (6)
(b) (6)

(b) (6)

he was admitted to hospital for acute congestive heart failure. It was treated but

, although his elevated liver tests had normalized and remained so until his death from sepsis

(b) (6)

days after the last W dose).

054012 116761 Argentina

M

W

63

32.10

13.53

13.92

2.75

1.24

Comment: An obese Argentinian man 63 with history of diabetes, hypertension, ischemic stroke, congestive heart failure,
and Af started W on 5 May 2009. Heart failure worsened again on Day 157, resolved, but recurred on Day 219 with slight
bilirubin elevation transiently. Serum aminotransferases became elevated on Day 325 along with hyperglycemia following
glibencamide cessation and increase in glimepiride dose 9 days before, and W was stopped, but jaundice was noted on
Day 351 when aminotransferase levels also peaked and glimepiride was also stopped. No viral hepatitis cause was found,
and acute mild hepatitis C was discovered, with confirmation by HCV RNA 4430 IU/L.

066006 101271 Thailand

M

A

48

26.73

18.71

11.66

25.96

2.00

Comment: A slightly overweight Thai man 48 with history of diabetes, hypertension, fatty liver, ilent gallbladder stones,
obstructive lung disease, congestive failure II, myocardial infarction, and Af started W on 21 August 2007. Repeated but
modest and asymptomatic bilirubin elevations indicated probable Gilbert syndrome. Acutely worsened heart failure was
noted on

(b) (6)

(21 November), with sharp rise in serum bilirubin concentration and aminotransferase activities not

improved by stopping warfarin, but returning to normal after the heart failkure was treated successfully in late November,
although the bilirubin remained elevated for many weeks during which recurrent heart failure occurred that led to his death
(b) (6)

055041 111052 Brazil

after warfarin was stopped.

M

W

63

27.94

18.06

11.09

2.85

1.62

Comment: An overweight Brazilian man 63 with history of diabetes, light alchol use, schemic stroke, pacemaker, and Af
(b) (6)

started W on 11 September 2008. He reported a skeletal injury on
(b) (6)

an episode of acute alcoholic intoxication in
(b) (6)

, took analgesics for pain, and then

a toe injury with infection and susequent amputation
(b) (6)

. Study warfarin was stopped 31 May, and hepatitis C was diagnosed

002529 110588 United States

F

W

66

hepatitis C( )4
narrative truncated

34.08

59.05

10.78

after W was stopped.

3.53

2.99

3.6

3

3

3

1

1.7

4

4

3

1

congestive heart failure, shock 4

Comment: An obese white U.S. woman 66 with history of diabetes, obstructive lung disease, hypertension, coronary bypass
surgery, aortic and mitral regurgitation, congestive failure II, and Af started W on 20 August 2008. On 18 October she had
severe congestive failure with hypotension and very sharp AST elevation to 60x , ALT 10.8x ULN and mild jaundice TBL
(3.5 x ULN), all responding to treatment of her heart failure. Warfarin was stopped 3 November (Day 76).

042029 112126 Czech Republic

F

W

78

32.79

9.57

10.31

3.85

6.17

Comment: An oese Czech woman 78 with history of diabetes, hypertension, fatty liver, congestive failure II, angina, stones
in gallbladder, osteoporosis, peripheral neuropathy, and Af started W on 21 October 2008. After a bout of worsened heart
failure and aminotransferse elevations

Reference ID: 2961539

(b) (6)

, she developed bilirubin elevation with abdominal pain and was found

common duct stones. 4
narrative truncated

 to have dilated common bile duct and stones were removed by ERCP. Warfarin wsa interrupted but rsumed and continued
until 2 Jun 2010

(b) (6)

without recurrent liver injury.

042026 104111 Czech Republic

F

W

76

28.58

8.68

7.81

5.50

2.84

2.8

4

4

3

0

common duct stone 5

12.0

3

3

2

0

acute cholecystitis 5

3.8

2

2

2

2

gallbladder sludge 3

4.1

2

2

2

1

acute pancreatitis 4

2.0

2

2

3

1

common duct stone 4

3.2

2

2

4

1

acute myocardial infarction 4

5.9

2

2

3

1

Comment: An overweight Czech woman 76 with history of bone tuberculosis, left mastectomy, hysterectomy, depression,
colon polyps, osteoporosis, past hepatitis A, pneumonia, aotric insufficiency, chronic heart failure, pericardial effusion,
(b) (6)

cerebral arteriosclerosis, transient ischemic attack, gastric ulcer, and Af started W on 13 December 2007.

her TBL was 6.6 mg/dL, AST and ALT elevated to 8.7 and 7.8 xULNand ALP 2.8 xULN. She
(b) (6)

was admitted

after seversal days of abdominal pain, nausea and vomiting, and was found to have cholecystitis
(b) (6)

that was treated with Augmentin and ERCL removal of a common duct stone
November

(b) (6)

(b) (6)

and continued until 9 November 2009

001553 112771 United States

M

W

89

. Warfarin was restarted on 4

without further liver test abnormalities.

27.52

11.06

7.71

3.45

0.64

Comment: An overweight U.S.man 89 with history of diabetes, hypertension bronchitis, constipation, Gilbert syndrome,
peripheral arterial disease, pacemaker, and Af started W on 3 December 2008. He showed recurrent slight bilirubin
(b)

elevations consistent with his Gilbert syndrome during the ensuing year, but had an attack of acute cholecystitis on (6)
(b) (6)
(16 November) with rise in bilirubin but not serum enzymes activities.
) laproscopic
cholecystectomy was done after which warfarin was resumed from 31 January to 7 June

(b) (6)

without further liver

injury test abnormalities being observed.

O42009 109538 Czech Republic

M

W

76

25.21

9.39

7.49

2.75

1.98

Comment: A Czech man 76 with history of myocardial infarction, angina,mitral regurgittion, pacemaker, congestive failure
class II, ischemic stroke, and Af started W on 9 July 2008. Slight recurrent bilirubin elevations without symptoms or rises
were noted over the next 7 months, but AST and ALT elevations to 9.3 and 7.5 xULN were found on 18 February 2009 (Day
228). Investigation by ultrasound disclosed gallbladder sludge. His warfarin was stopped and ursodeoxycholic treatment
acid led to resolution of the abnormalities.

001342 109103 United States

F

W

60

42.08

8.97

6.75

4.69

1.63

Comment: A morbidly obese U.S.woman 60 with history of hypertension, sleep apnea, uterine cancer, ischemic stroke,
gastroesophageal reflux, sciatica, tinnitus, vertigo, and Af started W on 11 July 2008. Abdominal pain, nausea, vomiting
(b) (6)

led to hospitalization and diagnosis of acute cholecystitis and ancreatitis with common duct

compression but no stones, and warfarin was stopped. The pancreatitis subsided with intravenous fluids, suppression of
gastric acid, and she was followed for another month.

049062 105006 Germany

F

W

75

30.12

5.83

5.83

20.35

2.92

Comment: An obese German woman 75 with history of diabete, hypertension, hypothyroidism, gallbladder stones, aortic
and mitral regurgitation,and Af started W on 7 February 2008. Slight elevation of ALT was noted on 13 October and again on
11 November, and warfarin was stopped 18 November (Day 286). On 27 November jaundice was noted and she was found
(b) (6)

to have a common duct stone that caused jaundice to 20.3 xULN on

, after which the stone was removed

endoscopically, with resolution.

086024 108475 China

F

A

78

26.17

40.66

5.76

3.25

1.80

Comment: A slightly overweight Cinese woman 78 with history of diabetes, hypertension, myocardial infarction, class III
heart failure, and Af was started W on 13 June 2008. Bilirubin elevation without enzyme rises were noted over the next
(b) (6)

several months but warfarin was continued and her failure was treated.

she went into worse

heart failure with hypoglycemic coma and was admitted with AST 40.7 xULN. Acute myocardial infarction was diagnosed
with CPK very elevated, creatinine increased, heart failure. She was treated effectively, the liver test abnormalities fell to
normal and warfain was resumed from21 April to 27 May without recurrent rises.

086031 115267 China

F

A

84

20.00

3.97

5.70

7.34

0.96

Comment: A thin Chinese woman 84 with history of hypertension, ischemic stroke, obstructive pulmonary diease,
previous cholecystectomy and common duct stone, and Af started W on 6 March 2009.

(b) (6)

she was

admitted to hospital with fever, leukocytosis, jaundice, abdominal pain, and vomiting. She was found to have pneumonia
and another common duct stone. Treatment with antibiotics led to resolution and the stone passed spontaneously. The
abnormalities returned to near normal on 3 November and warfarin was stopped 12 November 2009.

Reference ID: 2961539

recurrent CD stone 4
narrative truncated

 061042 106239 Australia

M

W

78

24.93

3.14

5.26

2.75

1.57

3.4

2

1

2

2

uncertain 3

2.8

1

1

2

1

calculous cholecystitis 4

1.3

3

4

3

0

cholangiolitic choledocholithasis 5

8.2

2

2

1

2

uncertain 3; Gilbert syndrome

5.0

1

1

1

1

uncertain 4; Gilbert syndrome

3.6

3

3

3

0

acute hepatitis A and B 3; lymphoma 2

5.6

1

1

1

1

uncertain 4; Gilbert syndrome

Comment: An Australian man 78 with history of hypertension, mitral regurgitation, myocardial infarction, bypass graft, valve
surgery, and Af started W on 12 March 2008. He had a transient episode of dyspnea on 10 June (Day 91), and syncope
with epistaxis and minor bleeding in mid-August. His ALT and AST were elevated on 26 August (Day 168) to ALT 5.3 and
AST to 3.1 xULN that but were not explained and were back to normal 6 days later on 1 September (Day 174) despite his
continuing warfarin..He continued on warfarin until 30 December (Day 294), 13 days after another transient spike of ALT
to 4.4 and TBL to 2.7 xULN on 17 December (Day 281). The mild enzyme elevations were attributed to to warfarin by the
investigator, but very little attempt was made to establish the probable cause of the mild, transient test abnormalities.

086007 109999 China

M

A

76

22.20

6.22

4.93

5.67

1.79

Comment: A slim (BM! 22.2) Chinese man 66 with past hypertension, ischemic stroke, and Af started W on 6 August 2008.
On 29 October

(b) (6)

AST 4.6 and ALT 4.0 xULN were noted , without symptoms or bilirubin increase. The tests were

checked again 6 days later on 4 November
until

(b) (6)

(b) (6)

and were within normal range. He remianed on warfarin for 7 months

when he presented with fever and jaundice, ALT 5.9, AST 6.2, TBL 5.7 xULN. Workup in

hospital showed cholecystitis and gallbladder stones, and warfarin was stopped. He was treated with antibiotics and was
refrerred to another hospital for gallstone removal, but no followup information was obtained

(b) (6)

later he was

reported to have had a fatl myocardial infarction.

001362 111453 United States

F

W

87

29.24

4.74

4.82

3.58

3.58

Comment: A moderately obese American woman 87 with diabetes, obsrrtuctive pulmonary disease, angina, coronary stent,
patent foramen ovale, congestive failure II, gout, hysterectomy, colostomy, hypothyroidism, choledocholithiasis, spinal
(b) (6)

stenosis, gastroesophageal reflux, and Af started W on 25 September 2009.

she presented to

an emergency room with right flank pain, fever, and jaundice, with ALT 4.8, AST 4.7, ALP 3.6, and TBL 1.7 xULN diagnosed
as cholangitis and common duct stone. An ERCP was done the next day to remove 2 large common duct stones, with
sphincterotomy and antiobiotic follow-up. She was restarted and continued on warfarin until 8 Jun 2010

(b) (6)

withou

further serious liver test abnormalities.

886009 101230 Taiwan

M

A

72

26.72

2.08

4.49

2.75

0.55

Comment: A slightly overweight Taiwanese man 72 with hypertension, mild congestive failure I, emhysema, osteoporosis,
gout, hernia, prostatic hypertrophy, and Af started W on 20 August 2007. Serum ALT was slightly high before he started
warfarin at 1.7 x ULN and rose to 4.5 with ASST 2.1 xuLN on 15 October (Day 57). Retseat tests a week and three weeks
later showed reurn to near-normal range. He also showed repeated mild elevations of TBL, probably Gilbert syndrome,
but never deloped any significant liver abnormalities ov er a long course of warfarin until 27 April 2009 (Day 617) or afterward until7 December 2009 (Day 841)

063006 102225 Philppines

M

A

57

23.92

1.11

4.42

2.25

0.89

Comment: A Philippino man 57 with hypertension, angina, ischemic heart disease, mild congestive failure class I, and Af
started W on 9 October 2007. On 1 September 2008 he reported dyspnea and on 10 September ALT was 4.4 xuULN, but
not investigated and warfarin was continued. Recheck on 7 October 2008 (Day 365) showed a normal value and he stayed
on warfarin until 14 June 20110 (Day 980) without further ALT rise, although many mild elevations of TBL were noted (were
probably Gilbert syndrome).

055005 112147 Brazil

M

W

69

28.39

4.11

4.40

11.00

1.23

Comment: An overweight Brazilian man 69 with history of hypertension, ischemic stroke, mitral and aortic regurgitation,
mild congestive failure class I, and Af started W 29 October 2008. He had a brief episode of worsened heart failure on 3
June (Day 218), with changes in liver tests, and continued warfarin. Jaundice was noted on 17 October (Day 354) after
findings of elevated ALT 4.4 and AST 4.1 xULN on 5 October (Day 342) with little change in ALP. Investigation disclosed
lymphoma involving the head of the pancreas, and warfarin was stopped 19 October. The TBL rose further to 11 xULN as
the aminotransferases declined, and he had a laparotomy for diagnostic evaluation. Liver biopsy showed cholestasis, but
later serological testing show IgM antibodies against heaptitis A and B. Liver test abnormalities subsided, the lymphoma
was treated with chemotherapy, and he was followed until 10 June 2010 without further liver test abnormalities.

380002 106199 Ukraine

M

W

75

26.99

0.75

4.34

3.33

0.78

Comment: A slightly overweight Ukranian man 78 with history of angina, transient ischemic attack, congestive heart failure

Reference ID: 2961539

Gilbert syndrome 3

 class II, and Af started W on13 March 2008. He showed repeated high TBL values without symptoms or serum enzyme
activity elevation (probable Gilbert syndrome) for over two years on warfarin. Which was stopped 1 June 2010 (Day 811).
A transient, isolated peak of ALT to 4.3 xULN four weeks later was not investigated or explained.

063007 103724 Philppines

M

A

68

28.29

2.42

4.26

2.08

1.43

3.0

0

0

1

1

Comment: An overweight Philippino man 68 (no history) started W on 3 December 2007. He showed minor TBL elevations

uncertain 4; Gilbert syndrome
no narrative

between 15. and 2.1 xULN repeatedly, with elevations in serum enzyme activities. An unexplained elevation of ALT to 4.3
and AST to 2.4 xULN was noted on 27 August (Day 26), and warfarin was stoppe. The cause was not investigated.

043011 114789 Australia

M

W

64

24.93

3.44

4.21

3.25

0.73

5.8

1

1

1

1

uncertain 4

3.8

2

2

2

1

worsened heart failure 4

2.2

2

1

2

1

uncertain 4

0.9

2

2

2

2

worsened heart failure 3

3.1

1

1

2

1

alcoholic hepatitis 3; uncertain

1.8

3

3

3

1

common duct stones 4

Comment: An Australian man 64 with history of hypertension, ischemic stroke,, urinary infection, high bilirubins, and AF
started W on 12 February 2009.Although the TBL was slightly elevated before starteding the drug, it jumped to 3.3 xULN
three weeks later, then subsided but showed repeated mild elevations (consisttent with Gilbert syndrome). Mild ALT
elevations to 2.4 xULN were noted 4 August, rising to 4.2 xULN 15 October (Day 236). Viral hepatitis tests were negative,
but he reported light alcohol use, and ultrasound was said to show steatohepatitis. No diagnosis was made, but warfarin
was stopped 15 October 2009 (Day 246).

001111 100044 United States

M

W

84

25.61

4.06

4.18

2.40

1.10

Comment: A U.S. man 74 with history pf hypertension, mitral regurgitation, myocardial infarction, congestive heart failure
class III, bypass surgery, pacemaker, and Af started W on 21 February 2007. He had some episodes of slightly worsened
heart failure in May and November, with minor ALT elevations, but on 23 May 2008

(b) (6)

worse cardiac failue with renal

insufficiency occurred and ALT rose to 4.2, AST 4.1, and TBL 2.4 xULN , all resolveing quickly with treatment of the heart
(b) (6)

failure. His warfarin had been stopped 16 May 2008

(b) (6)

He later died

after

apsiration pneumonia from which he did not recover.

082009 104949 South Korea

M

A

79

26.13

3.86

4.03

4.17

1.80

Comment: A slightly overweight South Korean man 79 with history of hypertension, hypertrophic cadiomyopathy, moderate
alcohol consumption, and AF started W on 29 January 2008. Over two years later on 1 June 2010 (Day 855) his ALT was
elevated to 3.6, AST 2.6, TBL 4.1, ALP 1.5 xULN with mild abdominal discomfort and prurius. Tests for viral hepatitis were
negative, but no further warfarin was taken. Gallbladder stones were seen by ultrasound but no explanation was found for
the liver test abnormalities, which resolved promptly.

001555 111827 United States

F

W

60

27.58

6.24

3.85

2.58

4.12

Comment: A somewhat overweight U.S. man 76 with history of diabetes, hypertension, obstructive pulmonary disease,
coronary artery bypass, valvular disease, serious congestive failure class III, and AF started W on 24 October 2008. He
had an episode of renal failure on Day 6, thought due to excessive diruesis. On 15 January 2009 (Day 84) he was found to
2.6 xULN attributed to the drug by the investigator and warfarin was stopped 4 days later, but RUQ ultrasound indicated
cardiogenic hepatic congestion. Past hepatitis E and CMV but not acute viral hepatitis markweers were found, but slightly
high alpha-1-antitrypsin anf ANA markers wer seen before drug wa started.

007070 115879 Russia

M

W

59

25.06

4.44

3.56

3.00

1.15

Comment: A Russian man 59 with history of hypertension, transient ischemic attack, cholecystitis, and AF started W on
1 April 2009. Slight bilirubin elevations were noted (1.3-1.9 xULN), probably due to Gilbert syndrome. He admitted to an
episode of alcohol abuse on 2 March 2010 and the next day showed AST 4.4, ALT 3.6, ALP 1.2, and TBL 2.7 xULN that
were not immediately investigated, and warfain was continued and the abnormalities subsided. Another isolated bilirubin
increase to 3 xULN was noted on 28 April 2010 (Day 393), also not explained.Warfarin was continued until 22 June 2010
(Day 458) but no further laboratory testing was done

001381 103820 United States

M

O

80

25.95

6.19

3.54

9.92

1.98

Comment: A slightly overweight U.S.non-Caucasian man 80 with history of hypertension, obstructive pulmonary disease,
asthma, hypothyroidism, prostatic hypertrophy, chronic renal disease, peptic ulcer, myocardial infarction, bypass graft,
serious congestive heart failre class III, and Af started W on 30 November 2007.

(b) (6)

he was found to

have acute cholecystitis with TBL 9.9, AST 2.5, ALT 2.1, ALP 1.2 xULN, and was admitted to hospital. Common duct stone
was found, and cholecystectomy was done

(b) (6)

, after which warfarin was restarted following a one-week interruption.

He continued on warfain for over 10 months without recirrent of liver test abnormalities, but abdominal pain and jaundice

Reference ID: 2961539

 (b) (6)

recurred

and warfarin was stopped. He was found to have sludge and small sones in his common duct,

removed ay ERCP, after which the abnormalities resolved promptly.

082006 108749 South Korea

M

A

72

25.51

11.37

3.53

4.00

1.17

3.0

1

1

3

1

Comment: A slightly overweight South Korean man 72 with past hypertension, transient ischemic attack, high cholesterol,

alcoholic hepatitis 2; uncertain 2
narrative truncated

prostatic hypertrophy, and AF started W on 11 June 2008. Elevated ALT 2.2 xULN was noted on 10 September (Day 92)
and TBL 2.6 xULN 10 days later. He admitted to consuming excess alcohol prior to these events and had sustained some
bruising. He showed mild increases in ALT and TBL intermittently but continued warfarin. On 26 April 2010 (Day 685) T
BL was 4.4 and AST 4.0 xULN but these findings were not investigated or reported. Warfarin was stopped 6 June 2010
after he had been taking it for almost two years.

048036 110038 Poland

M

W

72

25.01

1.13

3.23

2.12

0.57

5.7

2

2

2

1

worsened heart failure 4

3.9

3

3

3

0

acute heart failure 5

3.9

3

3

3

0

septic choledocholithiasis 5

R

CMP

INF

SEV

LIK

Comment: A Polish man 72 with history of diabetes, hypertension, ischemic stroke, myocardial infarction, bypass graft,
serious congestive heart failure class III, and Af started W on 29 July 2008. On 21 October (Day 85) he presented with
increased dyspnea, worse heart failure, bradycardia and ALT 2.6, TBL 2.1 xULN. The heart failure was treated and liver
(b) (6)

test abnormalities resolved and remained normal for over a year until warfarin was stopped 17 Februarty 2010

057014 111778 Columbia

F

B

85

27.98

4.47

3.19

2.17

0.81

Comment: A short (4'5") overweight black Columbian woman 85 with history of hypertension, transient ischemic attack,
depression, renal insufficiency, myocardial infarction, serious congestive heart failure class III, and Af started W on 8
October 2008. She continued on warfarin for 20 months with only two minor ALT elevations to 1.4, 1.5 xULN until
when she had worse heart failure after bronchopneumonia and showed AST 4.5, ALT3.2, TBL 2.2 xULN
(b) (6)

She was treated intensively but died in heart failure

057014 112797 Columbia

M

(b) (6)
(b) (6)

W

71

31.16

9.65

3.17

7.83

0.82

Comment: An obese Columbian man 71 with past hypertension, ischemic stroke, congestive heart failure class II, and Af
(b) (6)

started W on 13 November 2008.

he showed jaundice, fever, dark urine and was admitted for study

and diagnosis.. Warfarin was stopped 16 April, and he was found to have acute suppurative cholangitis, and stones in the
(b) (6)

common duct. Despite antibiotics and ERCP he developed sepsis and died

40 cases
Site

Subj

Reference ID: 2961539

Country

Sex

race

Age

BMI

pASTx

pALTx

pTBLx

pALPx

probable cause

 --------------------------------------------------------------------------------------------------------This is a representation of an electronic record that was signed
electronically and this page is the manifestation of the electronic
signature.
--------------------------------------------------------------------------------------------------------/s/
---------------------------------------------------JOHN R SENIOR
06/16/2011

Reference ID: 2961539

 FOOD AND DRUG ADMINISTRATION
Center for Drug Evaluation and Research
Division of Drug Marketing, Advertising, and Communications

Agency 

Memorandum
Date: 6/8/201 1
To: Tyree Newman, Regulatory Project Manager

Division of Hematology Products

From: James Dvorsky, Regulatory Reviewer
Division of Drug Marketing, Advertising, and Communications

Subject: Comments on draft labeling (Package Insert) for NBA 22406,
Xarelto (rivaroxaban) ?lm-coated oral tablets

In response to your labeling consult request on February 11, 2011, we have
reviewed the draft Package Insert for Xarelto and offer the following comments.
Note that these comments are based upon the 6-1-11 label version.

Package Insert Labeling:

 

Section Statement Comment

 

 

 

 

Highlights As currently written, this statement

Warnings and ives instructions
Precautions

  
 
 
 

 

an oes not

presen Impo an risk information
as the Warnings and Precautions
are intended. DDMAC
recommends either excluding this
Highlight as the risk is outlined in
the Black Box, or speci?cally state
that caution should be used when
removing catheters and speci?c
dosing instructions should be
followed.

2.1 Use with P-gp This statement is misleading as it

and strong can be interpreted in different ways

CYP3A4 inducers (two drugs: one P-pg inducer plus
one CYP3A4 inducer or just one

7.2, 7.3, 7.4 8.7 drug possessing both induction
properties). Section 7.1 uses the
terminology ?combined P-pg and
CYP3A4 inhibitor" clarifying that
this refers to one drug having both
induction characteristics. DDMAC

 

 

 

 

Reference ID: 2957996

(b) (4)

4
Contraindications

7.1 Drugs that
Inhibit
Cytochrome…

8.6 Geriatric Use

14 Clinical Studies

Description of the 4 studies

recommends revising the relevant
sections to clarify the “combined”
trait.
DDMAC recommends removing the
reasoning behind the
contraindication and only present
the contraindication itself,
pregnancy.
According to the data presented
above, erythromycin would also fall
into this category. DDMAC
suggests adding “erythromycin” to
this listing.
DDMAC recommends removing the
second half of this sentence as it is
making an efficacy claim about a
subpopulation within the trial.
DDMAC recommends describing
the primary endpoints for each
study. The presentation is
misleading the data is presented
but no indication is given as to what
the study was designed to show or
prove.
According to the studies:
Two trials (RECORD 2 and 3) were
designed as superiority trials and
two trials
(RECORD 1 and 4) were designed
as non-inferiority trials.
The primary efficacy endpoint was
a composite endpoint of
• Any deep vein thrombosis (DVT)
(proximal and/or distal)
• Non-fatal pulmonary embolism
(PE)
• Death from all causes.

14 Clinical Studies

(b) (4)

The pre-specified secondary
efficacy endpoints were:
• Major VTE (proximal DVT, nonfatal PE, VTE-related death) as
main secondary
endpoint.
This endpoint was listed as a
secondary endpoint in all 4 trials.

2
Reference ID: 2957996

 (b) (4)

Therefore, DDMAC recommends
removing this endpoint from the PI.

3
Reference ID: 2957996

 --------------------------------------------------------------------------------------------------------This is a representation of an electronic record that was signed
electronically and this page is the manifestation of the electronic
signature.
--------------------------------------------------------------------------------------------------------/s/
---------------------------------------------------JAMES S DVORSKY
06/08/2011

Reference ID: 2957996

 DEPARTMENT OF HEALTH HUMAN SERVICES

Public Health Sen/ice

 

 

Date:

From:

Through:

Through:

To:
Drug:

Subject:

Pediatric and Maternal Health Staff
Of?ce of New Diugs

Center for Diug Evaluation and Research
Food and Drug Administration

Silver Spring, MD 20993

Tel 301-796-0700

FAX 301-796-9744

Maternal Health Team Review

J1me 7, 2011 Date Consulted: Februaly 11, 2011

Upasana Bhatnagar, MD
Medical Of?cer, Maternal Health Team
Pediatric and Maternal Health Staff

Karen B. Feibus, MD

Medical Team Leader, Matemal Health Team
Pediatric and Maternal Health Staff

Lisa Mathis, MD.

Associate Director, Of?ce of New Diugs
Pediatric and Maternal Health Staff

Division of Hematology Products (DHP)
Xarelto (Rivaroxaban)- NBA-022406 (SND70)

Pregnancy and Nlu?sing Mothers Labeling Review

Materials Reviewed:

Pregnancy and Nm?sing Mothers subsections of Sponsor?s proposed labeling,

Consult Question:

Reference ID: 2957880

Please review the Sponsor?s proposed labeling for the Pregnancy and Nlu?sing
Mothers subsections.

In animal studies, Xarelto crosses the placenta and there are no studies of Xarelto use in
pregnant women. The animal studies indicate an increased risk of fetal wastage/post
implantation loss and maternal hemorrhagic complications. An initial pharmacology/
toxicology review was done by Dr. Yash Chopra dated May 12, 2009. However, the division
is currently finalizing its analysis.

Anticoagulation during pregnancy
Pregnancy is a hypercoagulable state due to changes that occur in the coagulation system.
Pregnant women have a fivefold increased risk of venous thromboembolism in comparison to
non-pregnant women. The absolute risk of symptomatic venous thrombosis during
pregnancy is between 0.3 and 0.5 per 1,000 women. 2 Pulmonary embolism during
pregnancy is a leading cause of maternal mortality. Because of the high prevalence and
associated mortality from hypercoagulability, anticoagulant therapy is frequently used during
pregnancy and post-partum period for various indications. The goal of anticoagulation in
pregnancy is to prevent both maternal thrombosis and adverse pregnancy outcomes.
Women with thrombophilia have an increased risk of pregnancy complications such as
preeclampsia, fetal growth restriction, placental abruption, and fetal loss. 3
According to the Eighth American College of Chest Physicians Conference, 4 indications for
treatment of patients with either prophylactic or adjusted doses of anticoagulants in
pregnancy include the following:
• acute venous thromboembolism
• prior history of venous thromboembolism
• antithrombin deficiency or other thrombophilias
• recurrent pregnancy loss.
During pregnancy, these conditions are currently managed with parenteral unfractionated or
fractionated heparin products, which do not cross the placenta. Occasionally, patients at
particularly high risk for thrombosis (e.g. those with mechanical heart valves) are managed
with coumadin. Coumadin is the only oral anticoagulant currently approved for use in the
United States, and it is a known human teratogen that causes a characteristic embryopathy in
about 5% of fetuses exposed during the first trimester of pregnancy. 5 An oral medication
with an acceptable maternal and fetal safety profile would be a convenient option for
pregnant patients needing anticoagulation. In addition, Xarelto could be used for patients
with heparin-induced thrombocytopenia.
In clinical practice, pregnant patients who require anticoagulation are often maintained on
longer acting agents until a transition is required due to clinical circumstances or advancing
gestational age. During the peripartum period, patients are transitioned to unfractioned
2

ACOG Practice Bulletin, Thromboembolism in Pregnancy, Number 19, August 2000.
ACOG Practice Bulletin. Inherited Thrombophilias in Pregnancy. Number 113. July 2010.
4
Bates SM, Greer IA, et al. Venous Thromboembolism, Thrombophilia, Antithrombotic Therapy, and
Pregnancy:American College of Chest Physicians Evidence Based Practice Guidelines (8th Edition). Chest.
2008;133;844S-886S
5
Gabbe S, Niebyl JR, Simpson JL eds. Obstetrics Normal & Problem Pregnancies. 3rd ed, New York,1996: 255.
3

3
Reference ID: 2957880

 heparin, which has a short half life and can be discontinued a few hours prior to surgery or
delivery. 6 The anticoagulant effects of both heparin products and coumadin can be reversed
– heparin with protamine sulfate and coumadin with vitamin K. If obstetrical hemorrhage
occurs in the presence of an anticoagulant, supportive care often involves the administration
of blood products, such as cryoprecipitate and/or fresh frozen plasma, to provide exogenous
sources of coagulation factors

Pregnancy labeling
The Maternal Health Team (MHT) has been working to develop a more consistent and
clinically useful approach to the Pregnancy and Nursing Mothers subsections of labeling.
The Pregnancy and Nursing Mothers section of labeling should describe available animal and
human data in a manner that allows clinicians, who are prescribing medication for pregnant
patients and female patients of reproductive potential, to balance the benefits of treating the
patient with the potential risks to the mother, fetus, and/or infant. PMHS-Maternal Health
labeling recommendations not only comply with current regulations but also incorporate “the
spirit” of the Proposed Pregnancy and Lactation Labeling Rule (published on May 29, 2008).
Usually the first paragraph in the pregnancy subsection of labeling summarizes available data
from published literature, the required regulatory language for the designated pregnancy
category, and, when available, outcomes of studies conducted in pregnant women and studies
conducted in animals. The paragraphs that follow provide more detailed descriptions of the
available human and animal data and appropriate clinical information that may affect patient
management.
This review provides the Maternal Health Team’s (MHT) recommended revisions to the
pregnancy and nursing mothers sections of the Sponsor’s proposed labeling. Additionally,
the MHT recommendations include creation of section 8.6 Females of Reproductive
Potential.

REVIEWED MATERIALS
Sponsors Proposed Pregnancy and Nursing Mothers Labeling
(b) (4)

6

James AH, Abel DE, Brancazio LR. Anticoagulants in Pregnancy. Obstetrical and Gynecological Survey.
2005.61;59-69.

4
Reference ID: 2957880

 (b) (4)

REVIEW OF LITERATURE AND PRACTICE GUIDELINES
A literature search was performed in PubMed for the following:
• Pregnancy and rivaroxaban
• Lactation and rivaroxaban
No studies of Xarelto use in pregnancy or lactation were found with these queries.
The Reprotox and LactMed databases were also queried for Xarelto (rivaroxaban) and no
results were obtained.
A further search was performed in PubMed
• factor Xa and pregnancy
• factor Xa fluctuations and pregnancy
• vaginal bleeding and pregnancy

Factor Xa and Pregnancy
Factor Xa (FXa) plays key roles in the coagulation pathway. In the initiation phase, FXa in
conjunction with Factor Va converts prothrombin to thrombin by forming the
Prothrombinase complex. 7 Subsequently, in the amplification phase, the thrombin formed
potentiates platelet activation and activates other coagulation proteins. Furthermore, in the
7

Toschi, V, Lettino M. Inhibitors of propagation of coagulation: factors V and X. “accepted article” British
Journal of Clinical Pharmacology. May 4, 2011.

5
Reference ID: 2957880

 propagation step, both activated platelets and coagulation factors promote a burst of thrombin
generation and further coagulation. Drugs that directly inhibit FXa, such as Xarelto, are
small molecules and can enter a thrombus and inhibit both circulating and thrombus-bound,
functionally active, factor Xa and thereby diminish thrombin mediated coagulation.
Even in healthy pregnant patients, many changes are seen in the blood coagulation pathway
resulting in a hypercoagulable state. Factor XII, X, and IX increase throughout pregnancy,
whereas factor XI decreases in pregnancy. Factor V increases in concentration during early
gestation and then decreases to a stable level. 8 These prothrombotic changes are somewhat
counterbalanced by increases in the activity of the fibrinolytic system.
Several studies have analyzed FXa levels in pregnant patients using anticoagulant therapy.
Although they are small studies, they demonstrate that notable variation exists in measured
FXa levels throughout pregnancy. In a retrospective review of 77 patients receiving
prophylactic low molecular weight heparin, factor Xa levels were drawn four hours post
injection at various stages of gestation. The study found that 26% of patients had
subprophylactic factor Xa levels, 15% were supraprophylactic, and 59% of patients were in
the therapeutic range. In their analysis, the authors did not find a correlation between antifactor Xa levels and maternal age, gestational age, weight, or BMI.
Reviewer comments: If Xarelto was used in pregnant patients, the therapeutic window must
be established and physiologic changes of pregnancy, such as changes in the coagulation
pathway (especially fluctuation of Xa levels), should be considered when establishing the
dose.

Bleeding and Pregnancy
Vaginal bleeding occurs in about 20 to 30% of confirmed pregnancies during the first 20
wks, and about half of these pregnancies end in spontaneous abortion. 9 In a study by Yang et
al, 2802 pregnancies were prospectively enrolled in the Pregnancy, Infection and Nutrition
(PIN) Study database and patients from 24-29 weeks gestation were interviewed about
vaginal bleeding. A total of 24.4% (683 out of 2,802) of women reported vaginal bleeding
during pregnancy.
In a meta-analysis of 21 studies, from 1950 to 1992, Ananth et al. studied vaginal bleeding
during pregnancy. They excluded known etiologies of vaginal bleeding such as placenta
previa, abruptio placenta, and premature rupture of membranes in their analysis. Vaginal
bleeding was defined as bleeding in pregnancy prior to 28 weeks gestation. Their pooled
estimate of vaginal bleeding frequency across all studies, both case controlled and cohort
studies, was 12.2%.
8

Holmes VA, Wallace JMW. Hemostasis in normal pregnancy: a balancing act? Biochemical Society
Transactions. 2005. 33;2.428-32.
9
The Merck Manual of Diagnosis and Therapy- 18th Ed. (2006) Section18 – Gynecology and Obstetrics 259.
Approach to the Pregnant Woman and Prenatal Care.
http://online.statref.com/document.aspx?fxid=21&docid=880, accessed 5/16/2011.

6
Reference ID: 2957880

 Reviewer comments: These studies indicate that vaginal bleeding frequently complicates
pregnancy. Therefore, the use of an irreversible anticoagulation may not be appropriate in
the obstetric population.

FDA DOCUMENTS
Clinical Pharmacology Review
Two thirds of Xarelto is eliminated by metabolic degradation. 10 This portion of the drug is
eliminated half through the kidneys and half through fecal route after metabolism in the GI
tract and/or liver. The other one third is cleared renally as unchanged active substance. In
healthy adults, the terminal half life of Xarelto is 5 to 9 hours whereas the therapeutic effect
is seen up to 24 hours.1 There were no clinically relevant exposures in studies correlating
body weight or sex with pharmacokinetics. However, increased bleeding risk was noted in
subjects at the extremes of body weight in phase 3 trials.
The predictive value of laboratory tests to monitor the therapeutic effect of Xarelto has not
been adequately studied. Xarelto prolongs blood prothrombin time (PT) and activated partial
prothrombin time. Although monitoring of these tests is not proposed with Xarelto,
prolongation of the prothrombin time (PT) had a linear relationship with Xarelto plasma
concentration. The factor Xa assay used in the clinical trials has a curvilinear relationship
with Xarelto concentration so cannot be easily correlated with plasma concentration of
Xarelto for dose adjustment.

Reviewer comments: There are no studies in the pregnant population regarding the optimal
dosing of Xarelto. When using Xarelto in pregnant patients, the effect of increased
glomerular filtration rate that occurs during pregnancy upon the therapeutic levels of the
drug should be considered. In a personal communication with Joseph Grillo, Pharm.D of
clinical pharmacology, he indicated that although the PT has a linear relationship with
Xarelto plasma concentration, data from the phase 3 trials indicate that this is not always a
predictable relationship. Therefore, no laboratory test is well correlated with therapeutic
effect of Xarelto. It may be difficult for healthcare providers to use this anticoagulant in the
setting of pregnancy when physiologic changes may require dose adjustment.

SPONSOR’S SUBMISSIONS
Safety Updates
The Sponsor’s periodic safety update reports (PSUR) were reviewed from September 2008 to
March 2011. Overall, 12 unintended exposures to Xarelto occurred in women of
10

Clinical pharmacology review, Joseph Grillo 4/6/09

7
Reference ID: 2957880

 childbearing age, six were among patients enrolled in clinical trials. Of the nine known
outcomes, two “healthy” babies were delivered, one preterm delivery occurred, one missed
abortion, and five elective terminations were noted. There was one reported exposure to a
neonate who was human milk fed for three weeks. No adverse events were attributed to
Xarelto use in this neonate.
Reviewer comments: Although, little can be extrapolated from this limited experience with
Xarelto in pregnancy and lactation, these reports underscore the potential for unintended
exposures of females of reproductive potential through both the labeled and off-label use of
Xarelto.

DISCUSSION
Xarelto (rivaroxaban) is a first in class oral anticoagulant that directly inhibits factor Xa in
the coagulation pathway. Xarelto binds both circulating and functionally active factor Xa
and inhibits thrombin mediated coagulation. The Sponsor’s current submission is for the use
of Xarelto for the indication of deep venous thrombosis and pulmonary embolism
prophylaxis after knee and hip replacement procedures.
Pregnancy exposures may occur whether planned or inadvertent. This is evidenced by the
pregnancy exposures that have already reported in the clinical trials and through spontaneous
reports. Furthermore, once marketed, this drug may be used to treat disorders that occur
more frequently in females of reproductive potential. Therefore, if healthcare providers plan
to use Xarelto in females of reproductive potential, they should discuss pregnancy planning
with these patients. Similarly, women who are lactating should be counseled about potential
benefits of Xarelto use and the potential risks to a nursing infant.
The Maternal Health Team recommends that Xarelto be labeled as Category C. At the time
of this review, the pharmacology toxicology review is in progress. The preliminary results
suggest that animal reproduction studies show no increased risk of structural malformations
but an increased risk of post-implantation pregnancy loss in rabbits.
However, the MHT is concerned about the irreversible anticoagulation effects of Xarelto in
the setting of obstetric hemorrhage. Currently, there is no antidote to reverse the action of
Xarelto, and the therapeutic effects lasts up to 24 hours. Irreversible anticoagulation during
pregnancy could result in devastating hemorrhagic complications for the pregnant patient. In
early gestation, spontaneous abortion or fetal death may occur, necessitating a dilation and
curettage procedure or induction of labor and delivery. Once the fetus is viable after 24
weeks gestation, emergent delivery may be needed due to unexpected maternal or fetal
complications or because of conditions that increase bleeding risk such as placenta abruption
or placenta previa. Therefore, in clinical practice, unexpected bleeding complications can
occur throughout pregnancy and at delivery. Optimal strategies for treatment of life
threatening hemorrhage requiring reversal of Xarelto have not been established. As with
other anticoagulants, patients will have to be transitioned off Xarelto prior to planned

8
Reference ID: 2957880

 delivery and may require supportive therapy such as blood and blood products to reverse the
anticoagulant effects of Xarelto in the event of a major bleeding episode.
Other factors that will influence proper dosing of Xarelto in pregnancy include determining
and measuring the therapeutic range for Xarelto during pregnancy. Factor Xa levels fluctuate
in normal pregnancy. Furthermore, Xarelto is eliminated through the kidneys, and the
glomerular filtration rate is substantially increased in pregnancy. These physiologic changes
may influence the metabolism of Xarelto during pregnancy and would then affect dosing
during pregnancy. Therefore, healthcare providers may need an established standard
laboratory test to titrate drug effect and adjust the dosing of Xarelto during pregnancy.

RECOMMENDATIONS
1. The Maternal Health team recommends labeling Xarelto (rivaroxaban) Category C in
pregnancy. Because the concerns regarding Xarelto use in the setting of obstetric
hemorrhage remain, additional language has been added to the Warnings and
Precautions section of labeling. (see 5.3)
2. Recommendations for the pregnancy and lactation subsection labeling revisions are
provided below. See Appendix A for the track changes version.
3. The MHT recommends adding Section 8.6 Females of Reproductive Potential for the
labeling of Xarelto to inform healthcare provides to consider pregnancy planning in
women who are using this medication as an anticoagulant.

PMHS – Maternal Health Labeling Recommendations

HIGHLIGHTS OF PRESCRIBING INFORMATION

------------------------------WARNINGS AND PRECAUTIONS------------------------------• Pregnancy related hemorrhage: Use with caution in pregnant women due to the potential
for obstetric hemorrhage and/or emergent delivery with an anticoagulant that is not
readily reversible.

5. Warnings and Precautions

9
Reference ID: 2957880

 5.3 Pregnancy related hemorrhage
Xarelto should be used with caution in pregnant women. Xarelto dosing in pregnancy has
not been studied. The anticoagulant effect of Xarelto can neither be monitored with standard
laboratory testing nor readily reversed. Counsel pregnant women about the risks of
hemorrhage and benefits of anticoagulation during pregnancy with Xarelto.

8 Use in Specific Populations
8.1 Pregnancy
Pregnancy Category C: There are no adequate or well-controlled studies of Xarelto in
pregnant women, and dosing for pregnant women has not been established. Use Xarelto with
caution in pregnant patients because of the potential for pregnancy related hemorrhage and/or
emergent delivery with an anticoagulant that is not readily reversible. The anticoagulant
effect of Xarelto cannot be reliably monitored with laboratory testing. Animal reproduction
studies showed no increased risk of structural malformations but increased post-implantation
pregnancy loss occurred in rabbits. Xarelto should be used during pregnancy only if the
potential benefit justifies the potential risk to mother and fetus.
Animal reproduction studies have shown pronounced maternal hemorrhagic complications in
rats and an increased incidence of post-implantation pregnancy loss in rabbits. Rivaroxaban
crosses the placenta in animals. Rivaroxaban increased fetal toxicity (increased resorptions,
decreased number of live fetuses, and decreased fetal body weight) when pregnant rabbits
were given oral doses of >= 10 mg/kg rivaroxaban during the period of organogenesis. This
dose is about 11 times the human exposure of unbound drug, based on AUC comparisons at
the maximum recommended human dose of 10 mg/day. Fetal body weights decreased when
pregnant rats were given oral doses of 120 mg/kg. This dose is about 40 times the human
exposure of unbound drug.

8.2 Labor and Delivery
Safety and effectiveness of rivaroxaban during labor and delivery have not been studied in
clinical trials; however, in animal studies maternal bleeding and maternal and fetal death
occurred at the rivaroxaban dose of 40mg/kg (17 times maximum human exposure of the
unbound drug at the human dose of 10 mg/kg).

8.3 Nursing Mothers
It is not known if rivaroxaban is excreted in human milk. Rivaroxaban and/or its metabolites
are present in rat milk. Because many drugs are excreted in human milk and because of the
potential for serious adverse reactions in nursing infants from rivaroxaban, a decision should

10
Reference ID: 2957880

 be made whether to discontinue nursing or discontinue the drug, taking into account the
importance of the drug to the mother.

8.6 Females of Reproductive Potential
Females of reproductive potential requiring anticoagulation should discuss pregnancy
planning with their physician.

17 PATIENT COUNSELING INFORMATION
17.6 Females of Reproductive Potential
Advise patients who can become pregnant to discuss pregnancy planning with a healthcare
professional.

2 Page(s) of Draft Labeling have been Withheld in Full as b4 (CCI/TS) immediately following this
page

11
Reference ID: 2957880

 --------------------------------------------------------------------------------------------------------This is a representation of an electronic record that was signed
electronically and this page is the manifestation of the electronic
signature.
--------------------------------------------------------------------------------------------------------/s/
---------------------------------------------------UPASANA BHATNAGAR
06/08/2011
Karen B FEIBUS
06/08/2011
I agree with the information and recommendations provided in this review.
LISA L MATHIS
06/10/2011

Reference ID: 2957880

 XareltoTM (rivaroxaban)
NDA 22-406

Pediatric and Maternal Health Staff Review
May/June 201 1

DEPARTMENT OF HEALTH HUMAN SERVICES Public Health Service

 

 

Date:

From:

Through:

To:

Re:
Submission Date:

Sponsor:

Drug:

Proposed Trade Name:

Application:

Indication (proposed):

Dosage form:

Reference ID: 2957131

Food and Drug Administration

Office of New Drugs - Immediate Of?ce
Pediatric and Maternal Health Staff
Silver Spring, MD 20993

Telephone 301-796-2200

FAX 301-796-9855

MEMORANDUM

May 26, 2011

Elizabeth L. Dmmowicz, MD, Medical Of?cer
Pediatric and Maternal Health Staff

Hari Cheryl Sachs, MD, Team Leader

Lisa Mathis, MD, 0ND Associate Director
Pediatric and Maternal Health Staff

Min Lu, MD, MPH, Medical Reviewer
Kathy Robie-Suh, MD, Team Leader
Division of Hematology Products (DHP)
Pediatric Labeling

December 30, 2010

Johnson and Johnson Pharmaceutical Research 
Development, LLC

rivaroxaban
XareltoTM

NDA 22-406

Prophylaxis of deep vein thrombosis (DVT) and pulmonary
embolism (PE) in patients Imdergoing hip or knee
replacement surgery

10 mg ?hn?coated immediate release tablet

Page 1 of3

Xarelto™ (rivaroxaban)
NDA 22-406

Route of administration:

Pediatric and Maternal Health Staff Review
May/June 2011

oral

Proposed Dosing (adults): 10 mg once daily administered orally for 35 days in
patients undergoing hip replacement surgery and 14 days
for patients undergoing knee replacement surgery.
Consult Question:
DHP requests review of proposed pediatric labeling.
Materials reviewed
• PMHS Rivaroxaban Consult Reviews, April 2009 and June 2010
• Sponsor’s Proposed Labeling, December 28, 2010
Background
Xarelto™ (rivaroxaban), a selective Factor Xa inhibitor, is being studied in adults as an
oral anticoagulant for the treatment of multiple thrombosis-mediated conditions. NDA
22-406 was originally submitted in July 2008 for prophylaxis of deep vein thrombosis
(DVT) and pulmonary embolism (PE) in patients undergoing hip or knee replacement
surgery. A Complete Response was issued in May 2009 secondary to potential
hepatotoxicity, as well as data integrity and drug product issues. Labeling comments
were not provided. A Class 2 Resubmission was received in December 2010.
Pediatric Development:
The Division and the Pediatric Review Committee agreed with a full waiver of PREA
studies for this application since studies would be impossible or highly impractical
because there are too few children with the disease/condition, i.e. pediatric patients
undergoing hip or knee replacement surgery. However, the Sponsor is in the process of
(b) (4)
developing rivaroxaban for the treatment and secondary prophylaxis of VTE
In April 2009, the Sponsor met with the Agency to discuss pediatric
development, and in April 2010, nonclinical juvenile animal data and a protocol for a
single-dose pilot study in pediatric patients were submitted. Although the Agency
provided comment on the clinical protocol, no clinical hold issues were identified. Per
clinicaltrials.gov, a multicenter study, including a US site, entitled “Single-dose Pilot
Study of Oral Rivaroxaban in Pediatric Subjects with Venous Thromboembolism” is
currently recruiting.
Reviewer Comment:
Per personnel correspondence with Min Lu, clinical reviewer (May 12, 2011), no
additional information about pediatric development and no pediatric data have been
submitted to the Agency. Input from the Pharmacology/Toxicology reviewer is needed to
confirm that no safety signal has been identified in the available nonclinical data
submitted in support of pediatric clinical trials. Search of PubMed did not identify a
specific pediatric safety concern regarding rivaroxaban use in pediatric patients.
If a risk is associated with the use of a drug in a particular pediatric population, the risk
should be described in labeling. However, no safety concerns appear to have been
identified.
Page 2 of 3
Reference ID: 2957131

 Xarelto™ (rivaroxaban)
NDA 22-406

Pediatric and Maternal Health Staff Review
May/June 2011

Proposed Labeling:
The Sponsor has proposed the following language to be included under Section 8.4,
Pediatric Use:
(b) (4)

Reviewer Comment:
When substantial evidence does not exist to support a pediatric indication in any
pediatric population, or the drug has not been studied in any pediatric population, the
following statement (or a reasonable alternative) must be included in the Pediatric Use
section of labeling (8.4): “Safety and effectiveness in pediatric patients have not been
established.” (See 21 CFR 201.57(c)(9)(iv)(F)
http://www.accessdata.fda.gov/scripts/cdrh/cfdocs/cfcfr/CFRSearch.cfm).
Although the labeling proposed by the Sponsor would be acceptable, the Division may
wish to choose the more standard language:
“Safety and effectiveness in pediatric patients have not been established.”

Page 3 of 3
Reference ID: 2957131

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electronically and this page is the manifestation of the electronic
signature.
--------------------------------------------------------------------------------------------------------/s/
---------------------------------------------------ELIZABETH L DURMOWICZ
06/07/2011
HARI C SACHS
06/07/2011
LISA L MATHIS
06/10/2011

Reference ID: 2957131

 MEMORANDUM

DEPARTMENT OF HEALTH AND HUMAN SERVICES
PUBLIC HEALTH SERVICE
FOOD AND DRUG ADMINISTRATION
CENTER FOR DRUG EVALUATION AND RESEARCH
___________________________________________________________________________________________

COMPLIANCE REVIEW
DATE:

May 24, 2011

TO:

Tyree Newman, Regulatory Project Manager
Min Lu, M.D., Medical Officer
Division of Hematology Products

FROM:

Susan D. Thompson, M.D., Medical Officer
Good Clinical Practice Branch II
Division of Scientific Investigations

THROUGH:

Tejashri Purohit-Sheth, M.D.
Branch Chief
Good Clinical Practice Branch II
Division of Scientific Investigations

SUBJECT:

Evaluation of Clinical Inspections

NDA:

22-406

APPLICANT:

Johnson & Johnson

DRUG:

Xarelto (rivaroxaban)

NME:

Yes

THERAPEUTIC CLASSIFICATION:
INDICATIONS:

Standard Review

1. Prophylaxis of deep vein thrombosis and pulmonary embolism in
patients undergoing hip or knee replacement surgery

CR LETTER DATE: May 27, 2009
(b) (4)

AUDIT SUBMISSION DATE:

(b) (4)

INFORMATION REQUEST RESPONSE DATE: September 26, 2010

April 19, 2010

CR SUBMISSION DATE: December 23, 2010

Reference ID: 2951276

 Page 2

Compliance Review of

(b) (4)

NDA 22-406, Xarelto

I.
BACKGROUND: Rivaroxaban is a highly selective direct factor Xa (FXa) inhibitor
for oral administration. Inhibition of FXa produces antithrombotic effects by decreasing the
amplified generation of thrombin, thus diminishing thrombin-mediated activation of both
coagulation and platelets, without affecting existing thrombin levels. The sponsor states that
the remaining thrombin should be sufficient to ensure primary hemostasis, resulting in a
favorable efficacy to safety (bleeding) margin for rivaroxaban. The sponsor submits this NDA
to support the use of rivaroxaban for the indication of prophylaxis of deep vein thrombosis
(DVT) and pulmonary embolism (PE) in patients undergoing hip or knee replacement surgery.
Patients undergoing major orthopedic surgery, including total hip replacement (THR) and total
knee replacement (TKR) surgeries, are a group that is at a particularly high risk for venous
thromboembolism (VTE), which includes DVT and PE. Without prophylaxis, the incidence of
objectively confirmed total DVT based on older studies is approximately 40 to 60% following
THR or TKR, with a 10-30% incidence of proximal DVT. The most appropriate strategy to
reduce the incidence of VTE is prophylaxis for all patients undergoing THR or TKR. Current
therapeutic agents available for anticoagulant prophylaxis include low molecular weight
heparins (LMWHs), fondaparinux, and adjusted-dose vitamin K antagonists such as warfarin.
The duration of therapy is at least 10 days for both THR and TKR; for patients undergoing
THR, extended prophylaxis to up to 35 days after surgery is recommended. LMWHs and
fondaparinux are administered subcutaneously, which may be associated with pain and
bruising as well as poor compliance. Warfarin is the only available oral anticoagulant for VTE
prophylaxis after major orthopedic surgery in the U.S. However, warfarin has a narrow
therapeutic window, exhibits variable dose response, has many dietary and medicinal
interactions, requires dose adjustment, and has a slow onset of action. Rivaroxaban offers an
alternative oral prophylactic therapy for VTE.
IND 64,892 for rivaroxaban was submitted on May 29, 2002 for the treatment and secondary
prophylaxis of VTE by Bayer. All of the clinical trials submitted with the current NDA were
conducted by Bayer. Approximately one month prior to the submission of this NDA, Bayer
sold the rights of reference for use of the investigations to Johnson and Johnson. Johnson and
Johnson submitted NDA 22-406 as the applicant on July 28, 2008. Of note, both Bayer and
Johnson and Johnson submitted letters to the review division that the IND is now transferred to
Johnson and Johnson.
The pivotal protocols in support of NDA 22-406 were:
RECORD 1 Study: Regulation of Coagulation in Orthopedic Surgery to prevent DVT and
PE; controlled, double-blind, randomized study of BAY 59-7939 in the extended prevention of
VTE in patients undergoing elective total hip replacement (Protocol 11354)
RECORD 2 Study: Regulation of Coagulation in Orthopedic Surgery to prevent DVT and
PE; controlled, double-blind, randomized study of BAY- 59-7939 in the extended prevention
of VTE in patients undergoing elective total hip replacement (Protocol 11357)

Reference ID: 2951276

 Page 3 Compliance Review?
NDA 22-40 to

RECORD 3 Study: Regulation of Coagulation in Orthopedic Surgery to prevent DVT and
a controlled, double-blind, randomized study of BAY 59-7939 in the prevention of in
patients undergoing elective total knee replacement (Protocol 11356)

RECORD 4 Study: Regulation of Coagulation in Orthopedic Surgery to prevent DVT and
a controlled, double-blind, randomized study of BAY 59-7939 (rivaroxaban) in the
prevention of VTE in subjects undergoing elective total knee replacement (Protocol 11355)

FDA Inspections
During the conduct of the clinical studies for this NDA, complaints were received regarding

two investigators enrollin sub'ects, Dr. Arturo Corces in RECORD 2 and Dr. David Loucks in

 

On July 28, 2008, Johnson Johnson submitted the data from the RECORD 1, 2, 3, and 4
studies to the FDA to support the approval of rivaroxaban for the indication of prophylaxis of
deep vein thrombosis and pulmonary embolism in patients undergoing hip or knee replacement
surgery (NDA 22-406). A?er receipt of the NDA, eight FDA data validation inspections of
investigators who enrolled subjects in the four RECORD studies were conducted. The results
of these clinical investigator inspections resulted in the identi?cation of multiple regulatory
violations ?om many of these sites, raising concerns with the overall integrity of the data
submitted for approval of the NDA. Details of the ?rst cycle of clinical investigator, sponsor,
and applicant inspections, as well as RECORD 1-4 investigators identi?ed as problematic prior
to submission of the NDA, are summarized in the following table:

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Compliance ReviewF
to

NDA 22-40 

 

Table 1: NDA 22?406 and First Cycle Clinical Investigator Data Validation Audits

 

  
 

 

 

   
 
 
 
 
 
 
 
   
  
 

 

 

Name of C1 or Protocol and Major Findings
Sponsor Location of 505.1%?
Andrzej Gorecki Protocol #11354, None
Szpital Klim'czny RECORD 1
Dzieciatka ezus Site P?land
. 18006
Centrum Leczema of subjects
(Total 71):
1M OttoPed?? Xarelto: 36
Enoxaparin: 35
uc 
Ul. Lindleya 4
02-005 Warszawa 
Poland
Tadeusz Gazkzik Protocol #11354, None
Slaska Adademia 1851333311111
1te 0

ram: I I . I 18012

. . of subjects
Klm?w?k?, (Total 76):
Ortopedu Ito: 38
szpi?al Enoxaparin: 38
Nr 5
Im. SW. Barbaby
Pl. Medykow 1

41-200 Sosnowiec,
Poland

 

 

   

 

 

   
   
   
  
   
  
    

 

 

 

Qingming Yang Protocol 11357, AEs not reported,
Rui Jin Hospital, RECORD 2 including
Shanghai Second Site China abnormal liver
M?di?al UniV?'SitY 54005 ?mction tests and
OIthOI'Paedic bleeding; protocol
Shanghai Ryuijin of subjects violations,
Hospital (T otal# 34): recordkeeping
No. 197 Ruijin Xarelto: 17 de?ciencies
Second Road Enoxaparin: l7
Shanghai, China
200025
Cesar Diaz Valverde Protocol 11357, AEs (relatively
Hospital   2 minor) not
Rebagliati Martins Av. Site Peru 64005 reported; protocol
Edgardo and recordkeeping
Rebagliati Martins of subjects de?ciencies
Jesus Maria Lima (T otal#: 41):
Lima, 11 Peru Xarelto: 20

Enoxaparin: 21

 

 

Interim DSI
Classi?cation Classi?cation
NAI NAI
NAI NAI

 

 

    

(untitled)

 

 

 

 

Reference ID: 2951276

VAI

 

VAI

 

 

Page 5 Compliance ReviewF
NDA 22-40 to

 

 

 

 

   
  
   
   
   
  
  
 
  
  
   
    

 

 

 

 

 

 

Table 1: NBA 22?406 and First Cycle Clinical Investigator Data Validation Audits

Name of C1 or Protocol and Major Findings Inspection Interim DSI
Sponsor Location of Silbiects Date Classi?cation Classi?cation
Bin?mg Zeng Protocol 11356, AEs not reported, OAI VAI
A?iliated Sinh People?s RECORD 3 including 2 
Hospital Orthorpaedic Site China protocol
54?14 violations
No. 600 Yishan Road,
thui District of subjects
Shanghai, China 200233 (Total# 26):

Xarelto: l3

Enoxaparin: l3
Jacek Protocol 11356, Protocol VAI VAI
Szpital Uniwersytecki RECORD 3 violan'ons
im. Site Poland
Antoniego Jurasze 18003
Klinika Ortopedii i
Traumatogii of subjects
Narzadu Ruchu (T Ota1# 35):
M. Sklodowskiej- Xarelto: 18
Curie 9 Enoxaparin: 18
85-094, Bydgoszcz
Poland

 

 

 

 

 

     

 

 

 

 

 

 

 

 

 

 

Ricardo Esquivel Protocol 11355, Drug disposition,
Naulcapan, Mexico RECORD 4 record usable
Site 32006 de?ciencies,
missing records
of subjects
(T otal# 42):
Xarelto: 22
Enoxaparin: 20
R. Michael Murray Protocol 11355, Post-operative OAI OAI-WL
Capstone Clinical RECORD 4 randomization in
Research Site 14005 violation of
2018 3100ka protocol, possible
Medical Center of subjects unblinding
Suite 314 (Total 152)
Birmingham, AL 35209 Xarelto: 76
Enoxaprin: 76
David Fox Protocol #11355, Informed consent VAI VAI
Unlimited Research, LP Record 4 de?ciencies and
12709 Toepperwein Site #14022 protocol
Road violations
of subjects

 

 

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(b) (4)

Table 1: NDA 22-406 Pre-NDA and First Cycle Clinical Investigator Data Validation Audits
Name of CI or
Sponsor Location

Protocol # and #
of Subjects

Suite 101
San Antonio, TX 78233

(Total # 64)
Xarelto: 32
Enoxaparin: 32
Protocol # 11354,
RECORD 1
Protocol # 11357,
RECORD 2
Protocol # 11356,
RECORD 3
Protocol #11355,
Record 4

Bayer Pharmaceutical
340 Change Bridge
Rd.
Pine Brook, NJ 07058

Johnson & Johnson
920 U.S. Highway 202
Raritan, NJ 088690602

Protocol # 11354,
RECORD 1
Protocol # 11357,
RECORD 2
Protocol # 11356,
RECORD 3

Major Findings

Inspection
Date

Interim
Classification

DSI
Classification

VAI

VAI

NAI

VAI

(b) (4)

Monitoring
deficiencies,
protocol
violations, failure
to ensure that
FDA was
informed of all
AEs
No significant
issues noted;
however,
inspection limited
in scope

Protocol
#11355, Record
4
Key to Classifications
NAI = No deviation from regulations.
VAI = Deviation(s) from regulations.
OAI = Significant deviations from regulations. Data unreliable.

As can be seen in Table 1, there were a variety of major findings, including protocol violations,
deficiencies in drug dispensation records, AE reporting, and informed consent. A major issue
identified during inspections of RECORD 4 study sites was post-operative randomization of
subjects, instead of randomization of subjects prior to surgery as specified in the protocol. In
order to characterize more fully how frequently post-operative randomization in violation of
the protocol occurred, an assignment for inspection of three additional clinical investigators in
RECORD 4 was issued. Details of the second cycle of clinical investigator inspections are
summarized in the following table:

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(b) (4)

Table 2: NDA 22-406 Second Cycle Clinical Investigator Data Validation Audits

Name of
CI/Address/contact
information

Protocol # and
# of Subjects

Major
Findings

Dr. John Ward
Capstone Clinical Research
2018 Brookwood Medical
Center
Suite 314
Birmingham, AL 35209
Phone: (205) 877-2766
Fax: (205) 877-2990
Email:
capstoneclin@aol.com

Protocol #
11355
RECORD 4

Post-operative
randomization,
IRB approval
expired

Dr. Craig Buettner
West Alabama Research,
Inc.
Black Warrior Medical
Building
100 Rice Mine Road Loop
Suite 104
Tuscaloosa, AL 35406
Phone: (205) 248-6160
FAX: (205) 248-6467
Email: vredding
@walresearch.com
(coordinator)
Dr. John Schwappach
Colorado Orthopedic
Consultants
401 W. Hampton Place
Suite 220
Englewood, CO 80110
Phone: (303) 695-6060
(research dept. extension)
FAX: (303) 399-9959
Email:
schwappach@cocortho.com

Inspection
Date

Interim
Classification

Final
Classifiation

OAI

OAI-WL

Post-operative
randomization

OAI

OAI-WL

Protocol
violations

VAI

VAI

(b) (4)

Site # 14010
# of subjects
(Total # 203)
Xarelto: 101
Enoxaprin: 102
Protocol
#11355
RECORD 4
Site #14004
# of subjects
(Total # 61)
Xarelto: 31
Enoxaprin: 30

Protocol
#11355
RECORD 4
Site #14045
# of subjects
(Total # 106)
Xarelto: 53
Enoxaprin: 53

Key to Classifications
NAI = No deviation from regulations.
VAI = Deviation(s) from regulations.
OAI = Significant deviations from regulations. Data unreliable.

Additionally, inspection of Bayer Pharmaceuticals as the sponsor of the four RECORD 4
studies revealed that the sponsor failed to 1) ensure proper monitoring of the study, 2) to
ensure the study was conducted in accordance with the protocol and/or investigational plan,
and 3) to ensure that FDA and all investigators were promptly informed of significant new
adverse effects or risks. The sponsor inspection of Bayer revealed that some of the minor
(b) (4)
items cited in the OAI letters for Drs.
Murray were not identified in site Monitoring
Visit Reports although the CRAs were aware of them (either through the company’s internal
audit program or FDA inspections). The major violations at these sites were not detected by
sponsor monitoring. Bayer acknowledges the failure to include the cited deficiencies in

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(b) (4)

Monitoring Visit Reports in their response letter dated April 13, 2009. The sponsor inspection
of Bayer does not provide information on whether or not monitoring and/or corrective actions
were inadequate at other sites classified by FDA as OAI. A limited inspection of the applicant
Johnson & Johnson revealed no identifiable deviations from applicant related regulations as
per 21 CFR 314.
Complete Response Letter to Applicant and Subsequent Activity
On May 27, 2009 FDA issued an NDA Complete Response letter to Johnson & Johnson for
Xarelto NDA 22-406 that listed several deficiencies, including Clinical Deficiency 1 which
stated that the reasons that data from 7 Clinical Investigator sites are considered unreliable
include:
•

Failure to conduct the study according to the signed investigator statement and the investigational plan
[21 CFR 312.60]

•

Failure to report to the sponsor adverse events [21 CFR 312.64]

•

Failure to prepare or maintain adequate and accurate case histories with respect to observations and data
pertinent to the inspection [21 CFR 312.62 (b)]

•

Failure to obtain adequate informed consent [21 CFR 50]

•

Failure to maintain drug accountability records [21 CFR 312.62 (a)]

•

Failure to report to the IRB all unanticipated problems involving risk to human subjects [21 CFR 312.66]

On the basis of these findings, FDA requested in the CR letter that the applicant:
a. Provide the following information regarding their QA audit program:
i. A report of the QA audit plan, including the plan for securing compliance from
non-compliant clinical investigators. Included should be copies of any Standard
Operating Procedures that were in place during conduct of the study to address
means by which corrective actions were to be taken if or when you or the CRO
identified noncompliant clinical investigators.
ii. A report of the sponsor’s audit findings, including any corrective actions taken and
(b) (4)
final outcome for the Yang, Murray,
, and Esquivel sites and for all
other sites audited under the sponsor’s QA program.
iii. A description of any clinical investigators terminated for noncompliance. The list
should include sites, specific violations, and whether the data were included in the
NDA submission.
b. Describe Bayer’s QA program with respect to the oversight of CROs that were hired to
(b) (4)
monitor the clinical sites, including
for RECORD 4.
Describe the procedures implemented to make sure that the CROs adequately
monitored the clinical sites. The response should include the following information:
i. Provide the procedures by which Bayer was kept apprised by the CROs concerning
monitoring of the clinical site during the course of the study. Specifically, describe
what information the CROs provided to the sponsor and provide a list of
noncompliant clinical study sites reported by the CROs.
ii. Describe how the sponsor reviewed the information provided by the CROs during
the course of the study and at the end of the study. Describe what monitoring
information was kept at the end of the study.

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c. Independent Thirty Party Audits

(b) (4)

(b) (4)

Provide assurance that the clinical data obtained from the RECORD 1, 2, 3, and 4 studies
are reliable. Specifically, perform an additional audit and supply the results of this audit
within your response to this letter. Within your response, include:
i. A copy o f your audit plan, including the following information:
• How many clinical sites were to be audited, how many subject records were
examined, and a description of the process for selection of the audited sites.
• If not all subject records at a given clinical site were to be audited, describe how
subject records were sampled and how the specific data from each subject were
audited.
ii. The timeline for completion of your audit (plan finalization, start date, completion
date, report finalization date).
As per above, the CR letter stated that additional third party audits should be conducted to
provide assurance that the RECORD 1-4 studies are reliable and requested that Johnson &
Johnson submit a proposal for these audits. On June 8, 2009, Johnson & Johnson submitted
“Clarification Questions” for the Complete Response Letter, which included a proposal that 24
new audits be conducted, together with submission of the reports of the 69 routine and 5
directed/for-cause audits. Johnson & Johnson proposed that the results of the new audits be
submitted as an addendum to the Complete Response. In a written response preparatory to a
face-to-face meeting between FDA and Johnson & Johnson on June 19, 2009, FDA proposed
that 25% of the clinical investigator RECORD 1-4 sites be audited by an independent, third
party. At the June 19, 2009 meeting, FDA proposed the following:
“Selection of sites from all four RECORD studies with a total enrollment of 60 or
higher results in identification of 26 sites: 9 in RECORD 1 (2 already inspected
by the Agency), 4 in RECORD 2, and 13 in RECORD 4 (6 already inspected by
the Agency). If 5% is the margin of error for tolerance of unreliable sites detected
by the audit, then the audit of 30 sites is necessary to show with 95% confidence
that the percentage of unreliable sites exceeds 5%, assuming that 25% of sites are
actually unreliable. Therefore, 18 high enrolling sites not previously inspected
could be included in the audit plan, which represents 11% of enrolled subjects. If
30 total sites are to be audited, an additional 12 sites could be included in the
audit, which represent a random sample of sites which enrolled 40-60 subjects
and sites which enrolled 10-30 subjects.”
Johnson & Johnson submitted the proposed audit plan on July 8, 2009. The audit plan
included audits of an additional 30 clinical sites across the entire RECORD program including
all 18 high enrolling sites with > 60 randomized subjects, and 12 moderate enrolling sites with
15-59 randomized subjects. The 12 moderate enrolling sites (3 per study) were randomly
selected by the Johnson & Johnson statistics group from a pool of sites which met the stated
enrollment criteria. None of the sites selected for audit had previously been inspected for this
NDA by the FDA. Johnson & Johnson intended to audit all subjects if there were 35 subjects
or less enrolled at the site. If there were more than 35 subjects, a random selection of subjects

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NBA 22-406. Xarelto

was to be chosen such that if no data integrity issue was found in sample subjects, there would
be 95% con?dence to rule out more than a 5% error rate. The resulting sample size
represented a 31% to 58% sampling (35 to 43 subjects) of sites which enrolled more than 35
subjects. Audit of these 30 sites resulted in a total of 950 subjects with data audited out of
12,729 subjects, which constituted 7.5% of all subjects in the RECORD program data base.
The results of the m? audits were to be submitted with the CR.

The parameters to be veri?ed during each audit were those contained in the Complete
Response Letter (listed in Part H. 1.c. below). The audit ?ndings at each site were to be
documented in an individual site audit report and provided to the FDA. In addition, a se arate
report was to be provided. Johnson Johnson proposed that a? 

conduct the targeted audits. The criteria used by Johnson Johnson to identify
the independent third party auditor required that there were 1) no previous associations with
the rivaroxaban development program, and 2) no current contracts with Johnson Johnson or
Bayer. Auditors utilized were full-time employees of the independent third party or regionally
based contractors who were trained on the company?s SOP and were overseen by a full-time
employee of the independent third party. Johnson Johnson has previously employed mm
as an independent third party audit team. Johnson Johnson proposed to provide a member of
the Bayer Global Clinical Operations or Quality Assurance team to escort the third-party
auditor for logistical support and translation, if needed.

On August 5, 2009, D81 commrmicated in writing that DSI was in agreement with the number
of sites selected and the nrunber of subjects to be audited at each site, submission of individual
site reports as well as a separate srumnary report, and agreement with the proposed Data
Veri?cation Tool for the audits.

On March 5, 2010, Johnson Johnson submitted Meeting Backgrormd Information in
preparation for a face-to-face meeting on April 7, 2010. The Background Information
contained a srunmary of the results of the audits. Johnson Johnson also submitted a
proposal for data veri?cation and sensitivity analyses for RECORD 4 in order to allay concerns
regarding the FDA inspectional and third party audit ?ndings pertaining to that study.
According to the proposal, Johnson Johnson would employ to revisit all RECORD 4
sites to obtain unreported adverse events as well as relevant data for the sensitivity analysis.
DSI responded that a review of the complete audit reports conducted for all four RECORD
studies, rather than a smnmary, was necessary before agreement could be reached on a path
forward. In addition, no could be given regarding the data
veri?cation proposal prior to the review of the RECORD 4 mm audits. Subsequent to this
meeting, Johnson Johnson submitted on April 19, 2010 the moaudit reports for the
audits conducted between 0w), as well as copies of the Bayer

internal company audits conducted concurrently with the clinical trials. The CR was submitted
on December 23, 2010.

The following sections of this review will ?rst evaluate the Applicant?s Complete Response
focusing on the adequacy of responsiveness to the items requested in the Agency?s Complete
Response Letter. This will be followed by a description of Audit ?ndings focusing on
items considered key to evaluation of data reliability. The review will then provide 
analysis of the speci?c audit fmdings and their impact on data reliability, followed by an

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(b) (4)

assessment of data reliability for each RECORD study. The review will then conclude with
DSI’s conclusions and recommendations on reliability of data for the application as a whole.
II. EVALUATION OF APPLICANT’S DECEMBER 23, 2010 SUBMISSION
In the FDA’s April 29, 2009 Complete Response (CR) letter, a number of requests were
outlined that the applicant needed to address to resolve the Agency’s concerns with respect to
data integrity issues. In the sections below, each of the items in the letter will be restated in
bold font, followed by a summary of Johnson & Johnson’s response, and DSI’s assessment of
the adequacy of the response.
1. a. Provide the following information regarding your clinical data quality assurance
(QA) audit program that was in place for the four RECORD studies:
i. A report of your QA audit plan, including your plan for securing compliance from
non-compliant clinical investigators. Include copies of any standard Operating
Procedures (SOPs) that were in place during conduct of the study to address the
means by which corrective actions were to be taken if or when you or the
applicable means by which corrective actions were to be taken if or when you or
the applicable contract research organization (CRO) identified noncompliant
investigators.
Johnson & Johnson provided a summary of their audit plans for the RECORD 1, 2, 3, and 4
studies. They also provided a summary of their audit procedures and copies of SOPs for audit
procedures. Included were SOPs which address procedures for site initiation and monitoring,
study management, investigator site audits, and misconduct.
DSI Assessment of Response: Johnson & Johnson has adequately responded to this request.
ii. A report of your audit findings, including any corrective actions taken and final
(b) (4)
outcomes for the Yang, Murray,
, and Esquivel sites and for all
other sites you audited under your QA program.
iii. A description of any clinical investigators terminated for non-compliance.
Provide a list of these clinical investigators, their sites, the specific violations, and
whether the data were included in the NDA submission.
The description of the findings requested in Parts 1.a.ii. and 1.a.iii. and the DSI assessment of
these findings are combined below.
Response to 1a.ii.
Johnson & Johnson provided a summary of audit findings, corrective action plans, and
outcomes for each site for clinical investigator sites that participated in the RECORD studies.
There were 74 clinical investigator site audits conducted by Bayer; 69 were routine and 5 were
for cause. There were 25 audits conducted at RECORD 1 sites, 15 audits conducted at
RECORD 2 sites, 15 audits conducted at RECORD 3 sites, and 19 audits conducted at
RECORD 4 sites. Findings during the audit were classified into Class 1, Class 2, and Class 3.
Class 1 findings are findings of confirmed misconduct which endanger subject safety and/or

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Page 12

would lead to rejection of data by Regulatory Authorities, whereas Class 2 and Class 3 are less
serious findings. There were 2 clinical investigator sites with Class 1 findings in RECORD 1,
1 clinical investigator site with Class 1 findings in RECORD 2, 3 clinical investigator sites
with Class 1 findings in RECORD 3, and 2 clinical investigators with Class 1 findings in
RECORD 4. Of these clinical investigator sites with Class 1 findings, 4 were the sites which
were for cause inspections: Dr. Macaire Site 11354 in RECORD 1 and Site 16009 in
RECORD 3, Dr. Mortele Site 28020 in RECORD 3, Dr. Dadi Site 60017 in RECORD 4, and
(b) (4)
Dr.
(the third inspection); these inspections will be discussed below. The
remaining sites with Class 1 findings included Dr. Jasey Site 26007 in RECORD 2 which had
enrollment temporarily suspended due to limited access of the site by the auditors to source
documents, poorly documented changes to source documents, suboptimal level of principal
investigator involvement, and enrollment of a clearly ineligible subject. Enrollment was
restarted 11 days later after these issues were addressed to the satisfaction of the sponsor. The
2 remaining sites with a Class 1 finding both routinely obtained coagulation studies at the site,
which could potentially result in unblinding and is a protocol violation. Both sites (Dr.
Schmelz Site 10010 in RECORD 1 and Dr. Debue Site 16001 in RECORD 3) corrected the
problem immediately. The last site with a Class 1 finding is Dr. Esquivel Site 32006, also
discussed below.
FDA requested a report of the applicant’s audit findings, including any corrective actions taken
(b) (4)
and final outcomes for the Yang, Murray
, and Esquivel sites and for all other
sites that were audited under their QA program. The following provides a summary of this
information.
Dr. Q. Yang Site 54005 RECORD 4: This site was not included in Bayer’s audit program.
The regulatory violations cited by the FDA inspector are acknowledged by the applicant in the
CR and reasons given for the violations. However, no evidence is presented to refute the
violations observed during FDA inspections.
Dr. Michael Murray Site 14005 RECORD 4: There were no Class 1 findings at the inspections
of Dr. Murray, Site 14005, and Dr. John Ward, Site 14010, who enrolled as separate sites in
Birmingham, Alabama under the umbrella of an SMO. Class 2 findings included source data
inadequacies, systematic data inaccuracies involving adverse event and concomitant
medications, and failure to obtain protocol required venograms. The applicant presents
information from Dr. Murray’s letter of response to the inspectional findings. The source
document issues were addressed by source verification by the site CRA, with correction as
needed. These issues differ from those identified during the FDA clinical site inspection
(b) (4)
(postoperative randomization, possible unblinding) which resulted in an OAI
.
RECORD 4: A routine audit of this site was conducted starting
on December 12, 2006. A number of Class 2 findings were identified involving problems with
data quality and general GCP compliance, including lack of source documentation and lack of
documentation of Principal Investigator (PI) involvement. Study activities were
inappropriately delegated to unqualified study personnel, and there were extensive delays in
CRF completion. Enrollment was placed on hold at the conclusion of the inspection;
enrollment resumed on January 16, 2007 based on feedback from the CRA monitoring the
(b) (4)

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Page 13

study. A follow-up audit was conducted starting on May 14, 2007 to determine the
effectiveness of the corrective actions taken. Persistent GCP noncompliance was noted,
including evidence that the original source data worksheets completed during the outpatient
phase of the study had been rewritten and the original documents not maintained. Enrollment
was placed on hold, and the frequency of monitoring was increased. A third audit was
conducted starting January 16, 2008. This audit was precipitated by site notification to the IRB
of data falsification; the IRB communicated this information to the FDA. The January, 2008
Bayer audit confirmed falsification of the signatures of the PI (and in some cases the subinvestigator) on lab reports, ECGs, hospital orders, FDA 1572s, SAE documentation, IRB
submissions, and ICF documents. At least 19 patients’ source data and nine submissions to the
IRB were falsified.
For the NDA submission, subjects from Dr.
site were excluded from the per protocol
analyses. Patients were included in the safety and mITT analyses when validity criteria were
met, and sensitivity analyses were conducted after including subjects in the per protocol
analysis and excluding subjects in the mITT which revealed that the overall results were not
changed.
(b) (4)

Response to 1.a.iii.
Johnson & Johnson listed the following clinical investigators who were terminated for
noncompliance:
Dr. Esquivel Gomez Site 32006 RECORD 4: A routine audit of the site starting on October
17, 2007 revealed the Class 1 finding that the site had failed to retain all available source
records due to a hospital policy of periodically purging hospital and in-patient nursing notes.
The nursing notes were considered to be source documents which verified the administration
of the investigational product. The site had been placed on enrollment hold by the study team
on August 9, 2007 due to delays in CRF completion and the hold remained in effect for the
remainder of the study.
Subjects were included in the Per Protocol analyses only when it could be confirmed that
eCRF data had been verified as correct by the CRA. All subjects were included in the safety
and mITT populations unless the subject did not meet validity criteria.
RECORD 2: This site was not audited by Bayer. The inspection
conducted by FDA found inadequate Investigator oversight and systematic use by the site of
PlexiPulse pneumatic compression, which was not allowed by the protocol. An Investigative
Committee was established and follow-up activities were conducted by Bayer, including
assignment of an additional CRA to the site. Retraining was conducted. No subjects
randomized were valid for the per protocol analysis due to the use of pneumatic compression
or inadequate assessment of thromboembolism. All subjects were included in the safety and
mITT analyses, unless they did not meet validity criteria.
(b) (4)

Dr. Richard Rouhe Site 14062 RECORD 4: On August 16, 2007 Dr. Rouhe was notified by his
IRB of his failure to report that his medical license was on probation for 5 years by the
California Medical Board. Upon transmission to Bayer of this information, enrollment at this

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NDA 22-406, Xarelto

site was terminated; six subjects had been randomized and two subjects were treated. The
CRA noted that Dr. Rouhe’s CV and medical license were missing at the first periodic
monitoring visit on May 30, 2007; however, copies of the license was available at the August
10, 2007 CRA visit, and his CV was available at the October 15, 2007 monitoring visit. Data
from this site were only included in the Safety Analysis, as the two subjects did not have an
adequate assessment of venous thromboembolism.
Additionally, the efficacy data from Dr. P. Macaire’s site 16009 in RECORD 1 was invalidated
after a for cause inspection revealed that the CRA entered data in the eCRF and made changes
outside of agreed permissible clarifications. The PI refused to confirm data entered into the
eCRF. The data was considered valid for safety.
DSI Assessment of Response: Johnson & Johnson has adequately responded to this request.
In general, review of the audits revealed that appropriate corrective action plans were
generated and implemented for those clinical investigator sites with Class 1 findings.
However, there were several areas of concern identified. Although significant findings were
identified at Dr. Michael Murray’s site during the Bayer audit, the issues identified by FDA
inspectors which resulted in an OAI classification were not identified. Of greater significance,
(b) (4)
site identified significant problems at this site,
the initial two Bayer audits at Dr.
resulting in a temporary hold on enrollment and increased frequency of monitoring. However,
the most serious issue of forging the principal investigator’s signature was apparently not
identified during the two audits; it came to attention after a CRA at the site reported this
violation to the IRB. The information available from the Bayer audits confirms the FDA’s
(b) (4)
finding that data from the sties of Drs. Yang, Murray,
, and Esquivel are not
considered reliable.
b. Describe Bayer’s QA program with respect to the oversight of CROs that were hired
(b) (4)
to monitor the clinical sites, including
for the RECORD 4
study. Describe the procedures implemented to make sure that the CRO adequately
monitored the clinical sites. In your response, include the following information:
i. How was Bayer kept apprised by the CROs concerning monitoring of the
clinical sites during the course of the study? Specifically, what information did
the CROs provide? Provide a list of non-compliant study sites reported by the
CROs.
ii. How did Bayer review the information obtained from the CROs, during the
course of the study and at the end of the study? What monitoring information
was kept at the end of the study?
iii. What actions did Bayer take based on the monitoring reports?
Response to 1.b.i.-iii.
Bayer provided the majority of the monitoring for the RECORD 1, RECORD 2, and RECORD
3 clinical trials. The applicant presents information on the CROs that provided monitoring for
RECORD 1 in Israel, RECORD 2 in Portugal and India, and RECORD 3 in Israel due to the
lack of Bayer monitoring facilities in these countries. The monitoring oversight of the CRO

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NDA 22-406, to

and processes for study documentation by the CROs were described for each of the non-Bayer
CROs.

  
  
 
 
 

Mprovided the monitoring for most RECORD 4 sites. Monitorin of
srtes 1n akistan was provided by! (by a subcontract 
and by ?in Israel. The following ormation regarding

role in RECORD 4 was presented:
0 was responsible for the monitoring and management of RECORD 4.
0 The Bayer Study Manager was responsible for overseeing the operational conduct of
the CRO. This oversight included reviewing, trackinil analyzing, and summarizing

  

 
  

the study related activities and the performance 0 . The Bayer Study Manager
kept the Bayer Study Team and relevant member 0 Bayer management informed of
the overall progress of the study via meetings or reports.
0 - had a Pro'ect Leader responsible for the overall management of the trial,
managed by the Director of Clinical Operations.
0 Processes implemented to ensure suf?cient oversight of outsourced trials and to ensure
the CRO adequately monitored the clinical sites.
0 Holding the Study Kick-off Meeting chaired by the Bayer Study Manager
0 The Task De?nition Document (TDD) detailed the expectations of each task
from initiating and conductin throu closing out the clinical trial. An outline
of expectations of Bayer was included in this
document. The TDD detaile pr01ect management, study management,
monitoring, medical management, and electronic data transfer/data
management.
0 Routine meetings between Bayer and were conducted.
0 Generation of 3 Status Tracking Report to track details of the study
0 A Monitoring Plan was created by for RECORD 4, reviewed, and agreed upon
by the Bayer Study Manager. The Momtorin Plan detailed roles, responsibilities,
training plan, lines of communication (within external to sites), monitoring,
and site management expectations.
0 All CRAs were trained on the Monitoring Plan, study documents, goals, and timelines.
CRAs were the primary contact with the sites, maintained the Investigator Site Files
within and informed the- Project Leader of any site issues.
was responsible for ensuring appropriate training and supervised monitoring

Lead CRAs or Project Leader reviewed and approved Monitoring Reports.

ensured proper follow ui and resolution of issues. The Monitoring Visit Reports

 

 

 
 

    
  

 

were posted on the website, and the Bayer Study Mana er had
access to this websrte. Bayer not conduct routine reviews of the
Monitoring Visit Reports as this task was assigned to the Lea CRA or
Regional Project Leader. The applicant states that discussron 0 issues identi?ed at
Monitoring Visits were discussed at ?frequent meetings? between and Bayer.

   

 

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DSI Assessment of Response: Johnson & Johnson has adequately responded to this request.
The methodology outline for Bayer’s oversight of CROs used for the RECORD studies
(b) (4)
including
should have been adequate. However, there are clearly
monitoring inadequacies in the RECORD studies, most prominently in RECORD 4 which was
(b) (4)
(b) (4)
monitored by
. Although there were meetings between
and Bayer, there was no
routine exchange of problematic information regarding audit findings (nor was this required by
(b) (4)
the agreements between
& Bayer). In addition, as discussed above, critical issues
identified by other means (FDA inspections, third party audits) were not routinely identified by
(b) (4)
site monitoring. This raises concerns, particularly, as to the adequacy of monitoring of
RECORD 4 studies.
c. Independent Thirty Party Audits

(b) (4)

The following was requested in the CR letter:
Provide assurance that the clinical data obtained from the RECORD 1, 2, 3, and 4 studies
are reliable. Specifically, perform an additional audit and supply the results of this audit
within your response to this letter. Within your response, include:
i. A copy o f your audit plan, including the following information:
• How many clinical sites were to be audited, how many subject records were
examined, and a description of the process for selection of the audited sites.
• If not all subject records at a given clinical site were to be audited, describe
how subject records were sampled and how the specific data from each subject
were audited.
ii. The timeline for completion of your audit (plan finalization, start date,
completion date, report finalization date).
iii. In addition to any other information within your audit report, address the
following questions or requests:
• At each site audited, how many violations involved each of the following
specific issues? For each specific violation, list the clinical sites involved and
provide a breakdown by treatment group for each site and overall for the four
RECORD studies.
o Enrollment of subjects that did not meet study eligibility criteria.
o Failure of the Principal Investigator to ensure that all associates and
colleagues assisting in the investigation were meeting the commitments
of the study protocol.
o Failure to report adverse events and serious adverse events
o Failure to randomize subjects preoperatively
o Failure to obtain informed consent from all subjects
• List all clinical sites where either Bayer or CRO monitoring is determined to
be ineffective, either in identifying significant violations or in taking actions
towards securing compliance (such as notifying the sponsor).

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Response to 1c.i and ii.
(b) (4)
Overview of
Audits
(b) (4)
The audit program was conducted by an independent third party,
.
The studies included in the audit were the four pivotal Phase 3 studies of rivaroxaban 10 mg
immediate-release tablets for the prophylaxis of deep vein thrombosis (DVT) and pulmonary
embolism (PE) in patients undergoing hip replacement surgery or knee replacement surgery.
The objective of the audit program was to provide assurance that the data obtained from the
RECORD 1-4 studies are reliable. The audits assessed compliance with the protocol and
appropriate Good Clinical Practice (GCP) requirements. Additionally, compliance with
International Conference on Harmonization (ICH) Guidelines, the U.S. Code of Federal
Regulations as set out in 21 CFR Parts 50, 54, 56, and 312, and, where applicable, local
regulatory requirements was assessed. Selected documentation including protocols and
monitoring visit reports was provided to the auditors by Johnson & Johnson. Bayer clinical
operations representatives assisted with logistics and translations. The audit program focused
on the specific areas of concern identified by the FDA in the CR letter in six categories:
•
•
•
•
•
•

Informed Consent
Investigational Product
Source Data Verification and Case Report Completion
Safety
Study Conduct
Monitoring

Each audit observation was grouped by

(b) (4)

into one of the following categories:

CRITICAL: An observation that requires prompt corrective action to ensure compliance with
regulations, guidelines, company policy, or local law. These findings if unaddressed could
compromise human safety, market authorizations, or the acceptability of investigational
product, data, facilities, or systems intended for regulatory submission. Regulatory authority
action would appear probable.
MAJOR: An observation that requires improvement to ensure compliance with regulations,
guidelines, company policy, or local law. These findings if unaddressed could compromise
human safety, market authorizations, or the acceptability of investigational product, data,
facilities, or systems intended for regulatory submission. Regulatory authority action would
appear possible.
MINOR: An observation where improvement is recommended for minor deviations from
regulations, guidelines, company policy, or local law.
There were 30 sites selected across the RECORD studies for auditing, including all 18 highenrolling sites with > 60 randomized subjects along with 12 moderate-enrolling sites with 1559 randomized subjects. Focused audits were performed on individual subject records for
100% of the subjects enrolled in each site that had up to 35 subjects. The 12 moderateenrolling sites (3 per study) were randomly selected by the Johnson & Johnson statistics group
suing SAS Version 9.1 from a pool of all sites that met the stated enrollment criteria. For

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higher enrolling sites, focused audits were performed on a random sample of 35 to 43 subjects,
depending on the number of subjects required to rule out a 5% error rate or higher with 95%
(b) (4)
confidence. The 30 site audits were conducted between
by
teams of 2 auditors for 28 sites and by 1 auditor for 2 sites. The number of audited sites and
subjects by study and overall is shown below, taken from the sponsor’s April 19, 2010
submission.
Table 3: NDA 22-406:
Study
RECORD 1
RECORD 2
RECORD 3
RECORD 4
Overall

(b) (4)

RECORD Study Site Audits
Audited sites/total
Audited subjects/total
sites
subjects at audited sites (%)
11/217 (5.1% sites)
347/626 (55.4%)
7/123 (5.7%)
216/439 (49.2%)
3/147 (2.0%)
70/70 (100%)
9/130 (6.9%)
312/636 (49.1%)
30/617 (4.9%)
945/1771 (53.4%)

Audited subjects/total
study subjects (%)
347/4541 (7.6%)
216/2509 (8.6%)
70/2531 (2.8%)
312/3148 (9.9%)
945/12,729 (7.4%)

(b) (4)

Draft
audit reports were reviewed by Johnson & Johnson QA personnel and comments
(b) (4)
relating to the consistency of reporting were provided
for their consideration before
the final reports were issued. The final audit reports were reviewed by Johnson & Johnson
clinical and regulatory staff for consistency. Amended reports involved only the upgrading of
findings. All of the audit reports were finalized by Johnson & Johnson by November 6, 2009
and all addenda by November 30, 2009.
DSI Assessment of Response: Johnson & Johnson has adequately responded to this request.
Note that across the 4 RECORD studies, 2.0-6.9% of sites were audited, with audits of 2.89.9% of total subjects in the studies. This will be taken in the context of audit findings as
discussed below for each of the RECORD 4 studies.
iii. In addition to any other information within your audit report, address the following
questions or requests:
• At each site audited, how many violations involved each of the following
specific issues? For each specific violation, list the clinical sites involved and
provide a breakdown by treatment group for each site and overall for the four
RECORD studies.
o Enrollment of subjects that did not meet study eligibility criteria.
o Failure of the Principal Investigator to ensure that all associates and
colleagues assisting in the investigation were meeting the commitments
of the study protocol.
o Failure to report adverse events and serious adverse events
o Failure to randomize subjects preoperatively
o Failure to obtain informed consent from all subjects
• List all clinical sites where either Bayer or CRO monitoring is determined to
be ineffective, either in identifying significant violations or in taking actions
towards securing compliance (such as notifying the sponsor).
Response to 1.c.iii.
J&J Analysis of

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Audits

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(b) (4)

Prior to submission of the complete set of
audit reports, Johnson & Johnson submitted
an analysis of the audits in a March 5, 2010 meeting background package. A brief summary of
(b) (4)
the Johnson & Johnson analysis is given here. Johnson & Johnson analyzed the
audits
using two approaches:
1. By six audit categories (informed consent, investigational product, SDV/CRF,
safety, study conduct, monitoring).
2. By specific audit findings by classification category (critical, major, and minor).
Across the 30 audited sites, there were a total of 251 findings. Nineteen of these findings were
(b) (4)
categorized by
auditors as critical, 121 were categorized as major and 111 were
categorized as minor. The number of major findings per site ranged from 1 to a maximum of
10, with 12 of the 30 sites having 5 or more major findings (RECORD 1: 3/11 [27%],
RECORD 2: 2/7 [29%], RECORD 3: 1/3 [33%], RECORD 4: 6/9 [67%]). The 19 critical
(b) (4)
findings recorded by
occurred at 13 of the 30 audited sites in the following categories:
• 1 finding for Informed Consent
o For one subject at one site, a signed consent form was not available.
• 2 findings for Investigational Product
o Documentation of the Investigational Product administration during the inpatient
phase of the study was either missing or insufficient.
• 6 findings for Source Data Verification and Case Report Form Completion
o These critical findings can be further broken down into findings related to missing
medical records (15 subjects at 4 sites), and significantly deficient and discrepant
source documentation (2 sites).
• 4 findings for Safety
o These findings were associated with adverse events that weren’t reported and/or
deficient safety reporting practices.
• 5 findings for Study Conduct
o These can be further broken down into findings related to eligibility (9 subjects; 1
each at 2 sites, 7 at one site), protocol violations for study drug treatment outside
the protocol specified time window (19 subjects at one site), and an improperly
constituted ethics committee (1 site).
• 1 finding for Monitoring
o The site monitor had failed to detect unreported adverse events, failed to detect
late reporting for SAEs, and failed to meet with the principal investigator for 6
months, and failed to document training.
Further, Johnson & Johnson noted that there were a total of 603 audit identified (AI) AEs in
the 931 audited subjects from 28 of 30 sites audited. The highest proportion of subjects with
AI AEs were in the RECORD 4 study. There were eight AI SAEs found, all from RECORD 4
sites; five of these were newly reported events and three were upgraded AEs. Johnson &
Johnson concluded the following regarding unreported AEs:
• Qualitatively, the most commonly reported AEs were similar in the audited subjects
compared to those seen overall in the originally reported RECORD population.
• The AI-AEs appear to be balanced between the two treatment groups and their
inclusion does not substantially alter the previously reported event rates in the audited
subjects.

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•
•

RECORD 4 was found to have the largest number of AI-AEs, and all of the unreported
SAEs were identified exclusively in the RECORD 4 study.
Overall, the identification of the AI-AEs and AI-SAEs did not alter the previously
reported safety profile of rivaroxaban.

The applicant notes that the efficacy endpoint in the RECORD studies was a hard composite
endpoint of death, symptomatic VTE, or venographically detected VTE. They also note that
(b) (4)
the
audits did not identify any evidence that would suggest that any of the venography
data were not reliable; similarly, the audits did not identify any possibly missing or invalid
symptomatic DVT or PE events. The sponsor concludes that the results of the RECORD
studies are valid and reliable, but that the RECORD 4 study monitoring process should be
specifically further addressed by a data validation plan, outlined in their submission.
DSI Assessment of Response: The sponsor’s response is considered adequate to address the
(b) (4)
request in the CRL. In the following section, DSI will specifically analyze the
Audits
(b) (4)
and will discuss the
Audit findings considered critical to the evaluation of data
reliability.
(b) (4)

III. DSI Analysis of
Audits
(b) (4)
This section will provide DSI’s analysis of the
Audits focusing on items deemed critical
to evaluations data reliability:
• Adequacy of Monitoring
• Human Subject Protections and Adverse Event Reporting
• Post-Operative Randomization
• Drug Accountability
• Eligibility
This section will also briefly touch upon

(b) (4)

Verification of RECORD 4 Data.

1. Adequacy of Monitoring
(b) (4)

(b) (4)

In one method used during the
audits to assess adequacy of site monitoring,
auditors reviewed each individual monitoring report. The Patient Data Check (PDC) Form was
then completed for each subject, answering the question: “Was the monitoring effective, either
in identifying significant violations or in taking actions towards securing compliance? The
results are as follows (subjects inadequately monitored/subjects audited (%))
RECORD 1:
RECORD 2:
RECORD 3:
RECORD 4:
(b) (4)

96/347 (27.2%)
55/216 (25.5%)
28/70 (40.0%)
197/312 (63.1%)

The
audit reports note that inadequate monitoring was considered to be present at 2/11
(9%) of RECORD 1 sites, 2/7 (29%) of RECORD 2 sites, 1/3 (33%) of RECORD 3 sites, and
(b) (4)
4/9 (44%) RECORD 4 sites (Table 4) according to
assessment. Note that not all audit
reports contained a specific statement regarding adequacy of monitoring. DSI review of the

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(b) (4)

audit reports yielded an additional RECORD 4 site at which
monitoring
did not detect findings which would affect the primary efficacy or safety outcome (Table 4).
For 3 additional audit reports (2 at RECORD 1 sites and 1 at a RECORD 2 site), it could not be
determined from review of the audit report whether key primary efficacy or safety issues
(b) (4)
(b) (4)
detected by the
auditors were noted by the Bayer/
monitors. Key
primary efficacy or safety issues included study drug administration inconsistencies between
source documents and eCRF, drug accountability and dosing issues, identical drug
dispensation times for all subjects, and inclusion of a subject with intraocular hemorrhage in
(b) (4)
violation of the exclusion criteria. Note that
audits of many other sites demonstrated
missed monitoring issues with respect to protocol deviations, adverse event reporting, source
document verification, etc. However, only those instances in which monitoring omissions
involved primary efficacy parameters or safety issues, which are considered critical for the
evaluation of data integrity, are addressed here. In addition, instances where a single subject at
a site had an issue impacting safety or efficacy are not included here since these instances
would be unlikely to significantly impact overall site data reliability. Rather, review has
focused on findings at sites where a substantial number of subjects were impacted at the site,
such that overall data reliability of the site is in question. Please see Table 8 in Section III.5.
for a listing of specific issues impacting on data reliability at individual sites.
(b) (4)

Table 4: Monitoring Adequacy and Issues Based on
Audit Reports
RECORD 1
RECORD 2
RECORD 3
RECORD 4*
(b) (4)
# of
-audited Number sites
Number sites
Number sites
Number sites
Sites with
(n/N;%)
(n/N;%)
(n/N; %)
(n/N; %)
Monitoring
Deficiencies
(n)/Total # of sites
(b) (4)
audited by
(N)
Per (b) (4) audit
2/11 (9%)
2/7 (29%)
1/3 (33%)
4/9 (44%)
reports; DSI concurs
Monitors missed
0/11 (0%)
0/7 (0%)
0/3 (0%)
1/9 (11%)**
key primary
efficacy or safety
issue per DSI
review of (b) (4)
audit
(b) (4)
*
was monitor
**Sepulveda (Site 32002): Monitoring did not detect study drug administration inconsistencies between source
documents and eCRF.

The specific sites deemed by Johnson & Johnson analysis of the
ineffective monitoring are the following:

(b) (4)

audits to have

Garces, RECORD 1, Site 240002: Monitoring was inadequate to detect some unreported AEs,
medical historical information, and protocol deviations; 90% of subjects audited had a “no”
response given for the PDC question.
Slappendel, RECORD 1, Site 30002: The Executive Summary of the audit states that
monitoring is inadequate. 91% of subjects audited had a “no” response given for the PDC
question.

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Ono, RECORD 2, Site 50005: 92% of subjects audited had a “no” response given for the PDC
question.
Wang, RECORD 2, Site 54001: Monitoring inadequate as judged by a significant number of
eCRF versus source discrepancies; 46% of subjects audited had a “no” response given for the
PDC question.
Brabants, RECORD 3, Site 28015: 100% of subjects audited had a “no” response given for the
PDC question.
Kilgore, RECORD 4, Site 14034: 66% of subjects audited had a “no” response given for the
PDC question.
Reddy, RECORD 4, Site 60001: Numerous protocol/GCP deviations were unreported by the
monitor; 100% of subjects audited had a “no” response given for the PDC question.
V. Shah, RECORD 4, Site 60006: Numerous protocol/GCP deviations were unreported by the
monitor; 100% of subjects audited had a “no” response given for the PDC question.
H. Shah, RECORD 4, Site 60004: Numerous protocol/GCP deviations were unreported by the
monitor; 100% of subjects audited had a “no” response given for the PDC question.
Modi, RECORD 4, Site 60010: None of the issues noted in this report were noted as
deviations by the monitor. 97% of subjects audited had a “no” response given for the PDC
question.
(b) (4)

It could not be determined from DSI evaluation of the
audit results from Dr. Garces and
Dr. Wang’s sites whether inadequate monitoring of the site resulted in a deleterious effect on
(b) (4)
key primary efficacy and/or safety findings from those sites. However, review of the
audit results themselves did not raise concerns as to data reliability of these sites.
Johnson & Johnson also submitted reports of 74 clinical investigator site audits conducted by
Bayer GCP Study Audit Management for the RECORD 1-4 studies, 69 of which were routine.
(b) (4)
Review of the Bayer audit reports for the clinical investigator sites for which
and/or
DSI considered that the data was unreliable (when available) showed that in the majority of
instances, the violation considered most significant by DSI was not reported in the Bayer audit
report. Significant deficiencies at the sites of Drs. Lenart (RECORD 1), Porvaneckas
(b) (4)
(RECORD 1), Nararrete (RECORD 2 ), and Buettner (RECORD 4), described in the
audit reports were not mentioned in the Bayer audit reports. Although significant findings
were identified at Dr. Michael Murray’s RECORD 4 site during the Bayer audit, the issues
identified by FDA inspectors resulting in an OAI classification were not noted. The initial two
(b) (4)
Bayer audits at Dr.
site in RECORD 4 did not report forgery of the Principal
Investigator’s signature, which was subsequently reported to the IRB by a site CRA. Failure to
identify via site audits these serious regulatory violations identifies adequacy of monitoring as
a problem in the RECORD trials, especially RECORD 4.

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DSI Assessment of Response:
(b) (4)
(b) (4)
Based on DSI review of
audit reports,
auditors stated that overall study
monitoring was deficient at 1 of 11 (9%) sites in RECORD 1, 2 of 7 (29%) sites audited in
RECORD 2, 1 of 3 (33%) sites audited in RECORD 3, and 4 of 9 (44%) sites audited in
RECORD 4. DSI concurs that monitoring was deficient at these sites. According to DSI
(b) (4)
review,
monitoring failed to detect a key efficacy or safety issue in one
additional instance in RECORD 4 (Dr. Sepulveda). It could not be determined from DSI
(b) (4)
evaluation of the
audit results from Dr. Garces and Dr. Wang’s sites whether
inadequate monitoring of the site resulted in a deleterious effect on key primary efficacy and/or
safety findings from those sites. It should be noted that these findings impacted a substantial
number of subjects at each site, such that overall data reliability of the sites is in question.
Review of the audit reports for RECORD 1, 2, 3, and 4 submitted by Johnson & Johnson also
(b) (4)
revealed that Bayer/
audits did not always identify serious deficiencies.
(b) (4)

assessment of monitoring ineffectiveness by PDC forms showed that 63% of subjects
in RECORD 4 audited were not monitored effectively. RECORD 1 and 2 had similar levels of
unreliable monitoring, 27% and 29%, respectively. The relatively high level of ineffective
monitoring (40%) noted in RECORD 3 is very likely reflective of the comparatively low
number of subjects audited in RECORD 3 together with the presence of a problematic site
(Brabants – see Section III.3. below) which enrolled 27 subjects.
The frequency of monitoring ineffectiveness was less in RECORD 1, 2, and 3 as compared to
RECORD 4; however, there was not as large a difference between monitoring ineffectiveness
between RECORD 3 as compared to RECORD 4. However, as noted above, this assessment
(b) (4)
ineffectiveness by
was based solely on PDC form checks. Note that in DSI’s
assessment of monitoring adequacy of all 4 RECORD studies, assessment of monitoring
effectiveness/ineffectiveness was not based solely on PDC form evaluation and respective
percentages, but rather on the specific findings and their impact on data reliability. As such,
perhaps from a percentage standpoint, it may be noted that monitoring ineffectiveness of 40%
for RECORD 3 is not substantially different from the 63% monitoring ineffectiveness for
RECORD 4 based on the PDC form check; however, taking into account not only PDC form
checks, but also the extent and scope of deficiencies noted in RECORD 4, particular concerns
are raised regarding data reliability of RECORD 4 based on evaluation of monitoring.
Overall, monitoring deficiencies were noted for all 4 RECORD studies; however, in
comparison to RECORD 1-3, the extent and scope of monitoring deficiencies noted for
RECORD 4 are considered more significant and raise concerns regarding pervasiveness of
monitoring deficiencies for other sites not inspected or audited, and as such undermine the
confidence in reliability of the data.

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2. Human Subject Projection and Adverse Event Reporting in

(b) (4)

Audit Reports

Human Subject Protection
In Table 5 below are presented clinical investigator sites where any instance of failure to
(b) (4)
protect human subject rights was noted during DSI review of the
audits. Data from the
sites of Drs. Brabants, Mody, and V. Shah were assessed by DSI as unreliable based on
efficacy findings as given in Table 8 in Section III.5. Additionally, four women of childbearing
potential were enrolled in RECORD 2 without performance of a pregnancy test; omission of
the pregnancy tests were intentional, based on cultural factors. This protocol violation had the
potential to significantly adversely impact any pregnancies which had been preexisting to the
study. Although the events documented at the sites of Drs. Bauer, Marinoni, and Field are of
substantial concern to DSI, they either involve a single individual or did not result in subject
harm, and as such are unlikely to impact data reliability of these 3 specific sites.
Table 5: Clinical Investigator Sites with Instances Where Subject Safety Was Not Protected Based on DSI
(b) (4)
Review of
Audit Reports
Study
Clinical Investigator
Detail
Site number
Number of subjects
RECORD 1
Bauer
One subject with untreated hypertension
Site 44003
63 subjects
RECORD1
Marinoni
• Subject 4003 Subject had history of disturbed vision
Site 22001
& ITP = exclusion criteria. Subject had “pre-retinal
15 subjects
hemorrhage” Day 1, study medication continued.
• 4 subjects had epidural catheters inserted or
removed outside of protocol requirements; none of
these catheters were recorded on the CRF. Two
were placed too soon after study drug
administration (1.5 and 2 hours) and 2 were
withdrawn too soon after study drug administration
(1.5 and 4 hours after dose, rather than 2X the halflife)
RECORD 2
Field
Subject 7989-251107 had a diagnosis of chronic renal
Site 12008
insufficiency (CRI) per medical records, no screening
(b) (6)
140 subjects
labs reviewed prior to surgery
,
screening labs signed by PI 10/14/06, subject withdrawn
due to elevated BUN/Cr on 10/13/06.
RECORD 2
Wang
Four of six women of child bearing potential did not
Site 54001
have pregnancy test performed prior to enrollment in the
88 subjects
trial
RECORD 3
Brabants
9 of 27 subjects had screening procedures performed
Site 28015
prior to signing Informed Consent
27 subjects
RECORD 4
Mody
• Ethics Committee (EC) impartiality could not be
Site 60010
confirmed, as the EC was established at the PI’s
68 subjects
request, and the members had no training or prior
experience.
• Clinician review of study documents (laboratory
studies, ECGs) for 25/35 subjects (71%) was either
not done or not done in a timely fashion. Example
= ECG showing anterior wall myocardial ischemia.
RECORD 4
V. Shah
Language used to discuss the Informed Consent

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Site 60006
80 subjects

document with all subjects was coercive, with
documentation indicating that he said “that the study
drug was completely safe, that it is the best treatment
currently available, that risks were minimal (same as any
other surgery). . .”

Adverse Event Reporting
(b) (4)
The
audit reports were reviewed in order to assess the adequacy of adverse event
reporting. Only 2 of the 30 audited sites had no unreported adverse events identified during
the audits. The number of unreported adverse events ranged from 1 to 54 per site. Eight
unreported SAEs were identified, all at RECORD 4 sites. Unreported adverse events were
assessed as “significant” by the DSI reviewer if they clearly required further expeditious
medical evaluation; all events which included bleeding or elevation of liver function tests were
included in this category. Anemia in itself was not considered “significant”.
Table 6 below summarizes unreported AEs by clinical investigator site audited by
Table 6: Unreported Adverse Events
RECORD
Investigator
Number and
study
type of
unreported
SAEs

RECORD 1
RECORD 1
RECORD 1
RECORD 1
RECORD 1
RECORD 1
RECORD 1
RECORD 1

Bauer
Kruczynski
Lenart
Marinoni
Mazurkiewicz
Garces
Pesola
Porvaneckas

0
0
0
0
0
0
0
0

Number of
unreported
adverse
events/number
of subjects
with
unreported
adverse events
(Excludes
SAEs)
4/4
1/1
1/1
5/4
4/4
8/6
2/2
22/12

RECORD 1
RECORD 1

Schwartsmann
Slappendel

0
0

0
54/21

0
9

RECORD 1

Stehlik

0

12/11

1

RECORD 2
RECORD 2

Belickas
Dhanjee

0
0

8/7
4/4

2
3

RECORD 2

Field

0

21/13

2

RECORD 2

Martson

0

9/5

3

RECORD 2
RECORD 2

Nafarrete
Ono

0
0

34/10
37/16

4
7

Reference ID: 2951276

Number of
unreported
adverse events
of significance
– clearly
required
medical
evaluation
1
0
0
1
0
1
0
3

(b) (4)

.

Examples of
significant
unreported
adverse events

GGT = 205
Abnormal ECG
Disorientation
Allergic skin
reaction, elevated
BP
SOB, wound
hematoma, calf
red/painful, fever,
low HR requiring
Rx
Hypotension and
chest pain
Fever
Hypotension, calf
pain, fever
Leg swelling
elevated GGT
Thigh hematoma,
fever, hypotension
Infection
Hypertension, nasal

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Table 6: Unreported Adverse Events
RECORD
Investigator
Number and
study
type of
unreported
SAEs

RECORD 2

Wang

RECORD 3
RECORD 3
RECORD 3
RECORD 4

Number of
unreported
adverse
events/number
of subjects
with
unreported
adverse events
(Excludes
SAEs)

Number of
unreported
adverse events
of significance
– clearly
required
medical
evaluation

Examples of
significant
unreported
adverse events

bleeding during
surgery
Hypertension,
dyspnea
Leg hematoma;
Shaking with fever
& hallucinations,
drug-induced
pancreatitis,
elevated GGT =
275, ARI,
decreased platelets,
Na = 119 with K =
2.5, irregular HR,
Tx 2U PRBCs,
burning calf
Fever, hypotension,
UTI
SOB, Elevated
AST/ALT/GGT/alk
phos
Chest
pain/breathing
difficulties, Tx 2U
PRBCs, fever,
hypertension,
amylase

0

18/14

3

Brabants
Paulsson
Synder
Dessouki

0
0
0
1: cholecystitis/
cholecystectomy

36/20
1/1
0
18/15

2+*
0
0
14

RECORD 4
RECORD 4

Hollman
Jove

0
0

7/6
33/13

0
7

RECORD 4

Kilgore

1: Respiratory
failure

29/25

3

RECORD 4

Mody

47/21

7

RECORD 4

Reddy

38/10

10

Fever, elevated
bilirubin, left
bundle branch
block, decreased
platelets, elevated
ALT

RECORD 4

Sepulveda

3: Chest
infection
requiring
hospitalization;
bedsore
requiring
hospitalization;
hypotension &
SOB requiring
transfer.
3: Grade II
adenoCA of the
prostate; pyrexia
requiring
hospitalization;
hospitalization
more than 12
hours for
catheterization
0

13/25

8

Edema, hematoma,
wound infection,

Reference ID: 2951276

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Table 6: Unreported Adverse Events
RECORD
Investigator
Number and
study
type of
unreported
SAEs

Number of
unreported
adverse
events/number
of subjects
with
unreported
adverse events
(Excludes
SAEs)

Number of
unreported
adverse events
of significance
– clearly
required
medical
evaluation

RECORD 4

H. Shah

0

44/19

7

RECORD 4

V. Shah

0

36/17

5

Examples of
significant
unreported
adverse events

ALT/AST > 3X
ULN
Probable LVH,
possible MI, pitting
edema,
neutropenia,
irregular heart beat
Fever, LE swelling,
elevated ALT > 3X
ULN

*Many are unspecified abnormal hematology and chemistry values

The total number of unreported adverse events for each RECORD study is as follows:
RECORD 1 – 110; 16 significant*
RECORD 2 – 131; 24 significant
RECORD 3 – 37; 2+ significant
RECORD 4 – 265; 61 significant
Total RECORD studies – 543; 103+ significant
*see note below in “DSI Assessment of Response” as to how “significant” was defined
Although slightly more RECORD 4 subjects were audited than in other 3 studies (and
RECORD 3 subjects were audited less frequently), it appears that RECORD 4 has a
disproportionate number of unreported adverse events as well as unreported significant adverse
events when compared with the other RECORD studies. In addition, RECORD 4 was the only
study with unreported SAEs.
DSI Assessment:
(b) (4)
audit reports of two clinical investigator sites of 11 audited for RECORD 1 (Drs. Bauer
and Marinoni), 2 sites of 7 audited for RECORD 2 (Mr. Field and Dr. Wang), 1 site of 3
audited for RECORD 3 (Dr Brabants), and 2 sites of 9 audited for RECORD 4 (Drs. Mody and
V. Shah) demonstrated instances where human subject rights were not protected during the
conduct of the RECORD studies. However, the findings noted in Tables 5 and 6 above for Drs.
Bauer, Marinoni, Field and Wang, are not considered pervasive in nature, and unlikely to
impact data reliability for their respective RECORD 1-3 studies. The findings for Drs. Mody
and Shah are concerning and provide further evidence for the distinction between study
monitoring/conduct of RECORD 4 as compared to RECORD 1-3.

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(b) (4)

audits of the majority of sites identified unreported adverse events, ranging from 0 (2
sites) to 54 per site. When adverse events considered significant by DSI (defined as adverse
events which clearly required expeditious medical evaluation and all events including bleeding
or elevation of LFTs), there were 16 significant unreported AEs in RECORD 1, 24 in
RECORD 2, 2+ in RECORD 3 (exact number could not be determined), and 61 in RECORD
4. Unreported AEs and SAEs identified during the data verification process conducted by
(b) (4)
will be presented in Section III. 6.
(b) (4)

The finding of unreported adverse events during the
audits did not alone result in a DSI
determination that data from these sites were unreliable. However, the striking finding on
examination of the number of unreported adverse events and SAEs per study is the
(b) (4)
disproportionate number of adverse events detected during the
audits of RECORD 4
(more than twice the number of undetected AEs and significant AEs) when compared with the
smaller numbers reported from RECORD 1, 2, and 3. Of additional concern, are the eight
(b) (4)
unreported SAEs noted by
auditors from the RECORD 4 audits, whereas no undetected
SAEs were reported from RECORD 1, 2, or 3. The disproportionate number of adverse events
(b) (4)
detected during the
audits of RECORD 4 when compared with RECORD 1, 2, and 3, as
well as the detection of unreported SAEs only in RECORD 4 brings into question the adequacy
and completeness of the RECORD 4 safety data submitted to the Agency. In addition, the
relatively large number of unreported adverse events raises further concern regarding the
adequacy of study conduct and monitoring of RECORD 4.
3. Post-operative Randomization in

(b) (4)

Audit Reports

As noted in Table 2, post-operative randomization was identified by FDA audits for the NDA
submission at 3 clinical investigator sites (Drs. Murray, Ward, and Buettner), all enrolling in
(b) (4)
RECORD 4, in violation of the protocol. This is despite the fact that
the
CRO monitoring RECORD 4, sent an email to all sites during the clinical trial reiterating the
protocol requirement that subjects be randomized prior to surgery. One FDA inspection noted
that the investigator gave permission to randomize after the patient stopped oozing at the
surgical wound site.
As part of the CR, Johnson & Johnson determined the incidence of postoperative
randomization at all RECORD sites. The results are as follows:
(b) (4)

Postoperative randomization was assessed in most RECORD 4
audit reports with the
following specific information regarding post-operative randomization (number of subjects
randomized postoperatively/total subjects enrolled in study (%)):
RECORD 1:
RECORD 2:
RECORD 3:
RECORD 4:

18/4541 (0.4%)
13/2509 (0.5%)
9/2531 (0.4%)
1227/3148 (39.0%)

Dessouki - 18/35 randomized day of surgery, no time stamp on IVRS form
Hollman - Two subjects randomized post-operatively
Jove - No subjects randomized post-operatively

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Kilgore - “Majority” of subjects randomized day of surgery, no time stamp on IVRS form
Mody - 34/35 subjects randomized day of surgery, no time stamp on IVRS form
Reddy - 12/40 subjects randomized post-operatively, deviation forms on file for 11 of these 12
subjects, in 7/40 subjects the time of randomization couldn’t be determined
Sepulveda - 9 subjects were randomized on the day of surgery, no time stamp on IVRS form;
there was no randomization sheet available for 1 subject
H. Shah - 1 post-operative randomization
V. Shah – no subjects noted to be randomized post-operatively
(b) (4)

Based on these results, there are three RECORD 4 clinical investigator sites from the
audits where subjects were randomized postoperatively (Drs. Hollman, Reddy, and H. Shah; at
Dr. Reddy’s site, these events were identified as protocol violations). At four additional sites
(Dr. Dessouke, Kilgore, Mody and Dr. Sepulveda), it cannot be determined from the
(b) (4)
information available in the
audit reports what proportion of the subjects were
(b) (4)
randomized postoperatively. Therefore, based on the
audit reports, post-operative
randomization occurred at a significant number of clinical investigator sites enrolling in
RECORD 4. This protocol violation occurred in 3 of 5 of the sites originally inspected for the
(b) (4)
NDA, and to varying degrees in 3 additional sites audited by
in addition, it cannot be
determined from the site records whether subjects randomized on the day of surgery were in
fact randomized post-operatively.
DSI Assessment of Response
According to Johnson and Johnson, postoperative randomization took place for 1227 of 3148
(b) (4)
(b) (4)
(39%) of RECORD 4 subjects, audited and nonaudited by
Based on the
audit
results, 3 of the 9 sites audited for RECORD 4 randomized postoperatively; at 4 additional
(b) (4)
sites, it cannot be determined from the information available in the
audit reports what
proportion of the subjects randomized on the day of surgery were in fact randomized postoperatively. Although such postoperative randomization errors would occur in both arms of
the clinical trial, it has the potential to alter the patient population included in the RECORD 4
study. If sufficient sites enrolled subjects postoperatively, especially based on specific criteria,
the population included in the Xarelto product label may not reflect the population actually
studied. The review division will need to assess the impact of this issue on potential product
labeling. The high incidence of this protocol violation again reinforces the monitoring
(b) (4)
deficiencies in RECORD 4. Although
was aware of the occurrence of postoperative
randomization, they did not effectively enforce compliance with this protocol requirement.
Post operative randomization did not occur to any significant degree in RECORD 1, 2, or 3.
4. Drug Accountability Issues in
(b) (4)

(b) (4)

Audits

Review of the
audit reports focused on identification of clinical investigator sites where
there were documentation issues for study drug administration and/or storage. Attention was
focused on identified problems with drug administration of accountability and/or
administration, such that uncertainty existed as to whether subjects actually received the
assigned study drug which had been stored appropriately to maintain activity. If subjects did
not receive study drug as described in the data listings, the primary efficacy outcome could
potentially be compromised.

Reference ID: 2951276

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DSI concurs with
assessment of data from Dr. Brabants site (RECORD 3) as
unreliable due to inadequacies in study drug administration documentation. Based on a review
(b) (4)
of the
audit reports, DSI identified four additional sites for RECORD 1 (Drs. Lenart,
Porvaneckas, Schwartsmann, and Slappendel), two additional sites for RECORD 2 (Drs.
Naraffete and Ono), and three additional sites for RECORD 4 (Drs. Mody, Sepulveda, and
Shah) which have sufficient deficits in drug administration and accountability that DSI cannot
verify subjects received study drug as purported. Details of drug accountability issues for each
CI are given in Table 7. At each of the additional sites, source documentation for study drug
administration was missing or lacking, and/or there were significant issues with documentation
of drug accountability such that it does not appear possible to verify that subjects at the site
received active/correct study drug therapy.
(b) (4)

(b) (4)

Table 7: Clinical Investigator Sites with Drug Administration and Accountability Issues Based on
Audits
Clinical Investigator
Study
Assessment Source
Major Drug
Location
Site Number
(FDA Inspections,
Accountability/Administration
(b) (4)
Number of Subjects
Audit Reports, Issues
(b) (4)
DSI Review of
Audit Reports)
Robert Slappendel
RECORD 1
DSI review of (b) (4)
• No source documentation
Netherlands
Site 30002
site audits
for date/time of the pre61 subjects
operative self-administered
injection of
enoxaparin/placebo by the
subject or the date and time
of last outpatient dosing
• 10 of 35 subjects audited
had drug accountability
records which were
incomplete and/or
discrepant with other
subject source
documentation.
Endre Lenart
Hungary

RECORD 1
Site 46002
87 subjects

DSI review of
audit reports

(b) (4)

Narunas Porvaneckas,
Lithuania

RECORD 1
Site 57001
72 subjects

DSI review of
audit reports

(b) (4)

Edmundo Berumen
Naraffete

RECORD 2
Site 32005
25 subjects
RECORD 2
Site 50005
24 subjects

FDA review of
site audits

(b) (4)

FDA review of
site audits

(b) (4)

Keiske Ono
Brazil

Reference ID: 2951276

Study coordinators log used to
document drug accountability
and dosing for all subjects, but
entries in log were not
dated/initialed
Study drug administration times
were exactly the same for all 34
subjects audited. Exact dosing
times were not documented.
Study drug administration times
were exactly the same for each
subject for all subjects audited
• Documentation of study
drug administration during
inpatient phase of study
was missing or deficient: 8
subjects records contained

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(b) (4)

Karl Brabants
Belgium

RECORD 3
Site 28015
27 subjects

Bharat Mody
India

RECORD 4
Site 60010
68 subjects

FDA review of
site audit

(b) (4)

Victor Sepulveda
Mexico

RECORD 4
Site 32002

FDA review of
site audit

(b) (4)

Reference ID: 2951276

site audits

very few notations that
study drug had been given,
and the remaining 16
records contained none.
Doses documented on the
SDW were not
signed/initialed or dated
• Large number of
discrepancies between
eCRF, SDW, and medical
chart information (73
discrepancies for 20
subjects – e.g. surgery
start/stop time,
intraoperative blood loss,
drain volume)
• Exact time of study drug
administration was rarely
recorded on the inpatient
medication administration
records for any of the 27
subjects – only on grid with
0800, 1200, 1600, and 2000
time points
• Times of study drug
administration frequently
do not match the times
noted on the inpatient
medication administration
sheets
• Study coordinator was
unable to define a
consistent primary source
for many of the data points,
including drug dosing,
surgery start/stop times, and
laboratory draw times.
• Drug accountability logs
provided by Bayer were not
used by the study
coordinator to record drug
accountability and the site
did not keep a log of
accountability
• Ambient temperatures in
study drug storage room
was monitored weekly, not
daily
Study drug not stored in
permissible temperature range
of 15-30oC for 19 consecutive
days, dropping to 10.2oC each
day
• Medical records of 10
subjects were missing from

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46 subjects

•

V. Shah
India

RECORD 4
Site 60006
80 subjects

DSI review of
site audit

(b) (4)

•

•

the site. Nursing notes,
which include dosing
entries, were missing for an
additional 7 subjects
15 of 33 subjects audited
had source vs eCRF
discrepancies pertaining to
study drug administration
noted (ranging from 1 to all
doses, most = 2-3 doses)
Data discrepancies exits
between the eCRF and site
source documentation,
including for study drug
administration (26 subjects,
23 instances)
Missing source
documentation of drug
administration for 8 of 35
subjectsc

(b) (4)

Further information was requested by the FDA on August 2, 2010 regarding the
audit
findings at eight clinical sites (sites with significant drug accountability issues as identified in
Table 7 above). This Information Request was intended to obtain any additional information
(b) (4)
which might be available at the clinical sites to clarify what the
auditors considered to
be inadequate drug accountability. Please see Appendix 2 for details of DSI requests,
response/finding from Johnson & Johnson received on September 26, 2010, and DSI
assessment of the additional information provided. Johnson & Johnson sent monitoring
personnel to seven of the clinical sites in question; the entire team including Dr. Slappendel
and the Study Coordinator is no longer present at his site, so the RECORD 1 study team
attempted to provide additional clarification. The results of the site revisit to Dr.
Schwartsmann’s site provided sufficient evidence that study drug was given appropriately.
However, the data provided for the other sites was insufficient to provide such reassurance.
DSI Assessment of Response
In conclusion, issues in drug accountability were identified across the RECORD studies, most
seriously in RECORD 4. In some instances, it appears that routine hospital practice was
followed (e.g., physician notes what time medication should be given and this information is
copied onto a nurse’s sheet, with initials/dates/times of drug administration recorded only if
there were variations from this procedure). However, for purposes of a clinical trial, it is
imperative that documentation sufficient to assure that medication was actually administered to
study subjects be provided in the source documents. The absence of actual dates/times of drug
administration as well as initials of the person administering the medication results in an
inability to have confidence that the subject actually received the medication as specified in the
protocol.
(b) (4)

Overall, there were some drug accountability issues identified by
audits at sites from all
of the RECORD studies. The statistical import of the single site in RECORD 3 identified with

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significant drug accountability issues is difficult to assess, given that only 3 sites were audited
from RECORD 3. We acknowledge that RECORD 1 had 3 sites with significant drug
accountability issues, and RECORD 2 had 2 sites. These findings for RECORD 1 and 2, when
interpreted together with the failure to identify deficiencies in drug accountability in FDA
inspection and the relatively small number of sites audited, do not allow extrapolation to the
conclusion that all sites from RECORD 1 and 2 had drug accountability deficiencies sufficient
to impugn data integrity from all sites in these studies. The ultimate decision regarding overall
study reliability must be based on the totality of evidence pertinent to good clinical trial
conduct. In contrast to RECORD 1, 2, and 3, however, RECORD 4 had 3 sites identified with
(b) (4)
significant drug accountability issues by
audit, in addition to the 2 RECORD 4 sites
(b) (4)
(
Esquivel) already identified by DSI as unreliable based on drug accountability
issues, among other violations. This suggests that drug accountability deficits are more
pervasive at RECORD 4 sites. Please see Section IV. Below for a further discussion of the
effect of drug accountability on overall study data reliability.
5. Eligibility Criteria in the

(b) (4)

Audits

One item of concern identified during the initial cycle of FDA inspections was enrollment of
(b) (4)
subjects in violation of the protocol inclusion criteria. Review of the
audit reports
revealed a few subjects enrolled who did not meet eligibility criteria, but this was not a
frequent finding.
DSI Assessment of Response
Enrollment of ineligible subjects does not appear to be a systematic problem in the RECORD
studies.
(b) (4)

6.
Verification of RECORD 4 Data
(b) (4)
As described in Section C.1. above, deficiencies in monitoring by
and
study conduct issues appeared to be more severe and widespread in the RECORD 4 study
when compared with the RECORD 1, 2, and 3 studies. Therefore, the applicant proposed a
data verification plan in an attempt to demonstrate the validity of the RECORD 4 data. The
sponsor’s plan was presented to the Division of Hematology Products and DSI on April 7,
2010. The goal of the data verification was to identify any AEs or SAEs present in the
subjects’ medical records that were not reported to Bayer before the time of finalization of the
study, to assess overall site and investigator quality, to assess the impact of postoperative
randomization, and to address the Agency’s areas of concern regarding study reliability. All
(b) (4)
sites participating in RECORD 4 were to be visited by site monitors from
, an independent CRO. Please see the CR document dated December 23, 2010 for
details of the data verification plan.
After revisiting all RECORD 4 sites, there were 260 newly identified treatment emergent
adverse events in the rivaroxaban arm and 244 in the enoxaparin arm. This resulted in an
increase in the reported rate of adverse events from approximately 80% of subjects originally
reported with adverse events to 97% of subjects following data verification; there was no
change in the distribution of AEs between treatment groups. There were 28 newly reported
SAEs in 25 subjects (15 rivaroxaban, 12 enoxaparin, and 1 never randomized). There were 2

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newly-reported cases of ALT>3X ULN concurrent with a total bilirubin >2X ULN identified,
both in subjects receiving enoxaparin. No new events of death, DVT, or PE were identified.
(b) (4)

monitors were instructed to answer a series of questions regarding site and investigator
overall performance. Sites and investigators were then ranked according to quality.
Sensitivity analyses were performed for primary efficacy and safety by high versus low quality
sites/investigators. This procedure was intended to address site performance concerns raised
by the agency. Based on this procedure, the sponsor concludes that the primary efficacy and
safety results remained essentially unchanged in the groups of sites with performance
(b) (4)
considered by
as acceptable or questionable, compared to that seen in the overall
patient population.
(b) (4)

In order to address the issue of postsurgical randomization,
compared outcomes in
subjects treated preoperatively versus postoperatively in both treatment arms. The applicant
states that their results demonstrate that when the rates of the efficacy and safety outcomes
were calculated in the two treatment groups for subjects randomized preoperatively versus
postoperatively, they appeared to be comparable and similar to those results seen overall.
DSI Assessment of Response
(b) (4)
The
data verification audits of the RECORD 4 study sites were conducted with the
intention of reassuring the Agency of the robust nature of the RECORD 4 data. The
identification of 504 new treatment emergent adverse events as well as 28 newly identified
SAEs in the RECORD 4 study provokes more concern than reassurance. Although it is
certainly possible that there are unreported adverse events and SAEs in clinical trials in
general, the number of unreported adverse events in the RECORD 4 trial seems excessive.
Additionally, these newly reported adverse events reaffirm the concern that monitoring of the
RECORD 4 trial was inadequate. Similarly, it is reassuring that no difference in efficacy or
safety outcome was noted in subjects randomized pre- versus postoperatively. However, the
large number of subjects randomized postoperatively in violation of the protocol raises again
the issue of adequacy of study monitoring. The portion of the data verification process in
(b) (4)
which
assessed site and investigator overall performance which was then correlated
with efficacy and safety outcome is interesting, but not a validated method of assessing study
conduct. DSI remains concerned with the deficiencies in clinical trial conduct and monitoring
of RECORD 4 with potential deleterious effects on the validity of the efficacy and safety data
from the RECORD 4 study.
(b) (4)

IV. DSI Review of
Audits – Unreliable Sites
(b) (4)
In order to assess whether or not the findings from the
audits significantly impacted
overall data reliability from each CI site, DSI reviewed the 30 audit reports in detail. At many
(b) (4)
sites,
auditors identified issues with study conduct, unreported adverse events, drug
disposition and accountability, informed consent, source document verification and case report
completion, and monitoring. If findings at a site involved more than a few subjects or
appeared to significantly impact key efficacy assessments for multiple subjects, then DSI
considered data from the site to be unreliable. Please see Table 8 for details of sites with
efficacy data considered unreliable by DSI, which is based on review of the totality of
(b) (4)
information available to DSI, to include Bayer audits,
audits, as well as FDA

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(b) (4)

inspections. The identification by
monitors that adverse events had not been fully
reported did not in and of itself result in site assessment as unreliable, especially if the balance
of the issues rendered the site data assessment as reliable.
As seen in Table 8 below, data from the following clinical investigators had been previously
identified based on DSI review of FDA inspections as unreliable with the recommendation that
(b) (4)
it should not be used in support of the application: RECORD 2: Drs.
Yang; and
(b) (4)
RECORD 4: Drs.
Esquivel, Murray, Ward, and Buettner. DSI concurs with Falcon’s
assessment of data from Dr. Brabants site (RECORD 3) as unreliable, and this data should not
(b) (4)
be used in support of the application. Based on a review of the
audit reports, DSI
identified three additional sites for RECORD 1 (Drs. Lenart, Porvaneckas, and Slappendel),
two additional sites for RECORD 2 (Drs. Naraffete and Ono), and three additional sites for
RECORD 4 (Drs. Mody, Sepulveda, and Shah), which in DSI’s opinion, provided unreliable
data, and this data should not be used in support of the application. Note that the Executive
(b) (4)
Summary contained in the
audit reports for each of these investigators lists multiple
issues identified at each of these 8 sites, but stops short of stating that the data are unreliable.
(b) (4)
Only the data from Dr. Brabants’ site was classified as unreliable by the
auditors. At
each of the additional sites, source documentation for key efficacy assessments was missing or
lacking, and/or there were significant issues with documentation of drug accountability such
that it does not appear possible to verify that subjects at the site received active/correct study
drug therapy. The following table summarizes the reasons DSI recommends that data from
individual CI sites be considered unreliable and not be used in support of the NDA. The source
(b) (4)
of the recommendation is also given as FDA inspection,
audit report, or DSI review of
(b) (4)
audit report.
Table 8: Clinical Investigator Sites with Efficacy Data Considered Unreliable by DSI
Clinical Investigator Study
Assessment Source
Primary Reason DSI Assesses Data
Location
Site Number
(FDA Inspections,
from Site to be Unreliable
(b) (4)
Number of Subjects
Audit
Reports, DSI Review
(b) (4)
of
Audit
Reports)
Endre Lenart
RECORD 1
DSI review of (b) (4)
Study coordinators log used to
Hungary
Site 46002
audit reports
document drug accountability and
87 subjects
dosing for all subjects, but entries in
log were not dated/initialed, and as
such can’t verify accuracy of subject
dosing.
Narunas Porvaneckas, RECORD 1
DSI review of (b) (4)
Study drug administration times were
Lithuania
Site 57001
audit reports
exactly the same for all 34 subjects
72 subjects
audited. Exact dosing times were not
documented, As such, can’t verify
accuracy of subject dosing.
RECORD 1
DSI review of (b) (4)
Robert Slappendela
• No source documentation for
Netherlands
Site 30002
site audits
date/time of the pre-operative
61 subjects
self-administered injection of
enoxaparin/placebo by the
subject or the date and time of
last outpatient dosing
• 10 of 35 subjects audited had

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Table 8: Clinical Investigator Sites with Efficacy Data Considered Unreliable by DSI

 

 

 

Clinical Investigator Study Assessment Source Primary Reason DSI Assesses Data
Location Site Number (FDA Inspections, from Site to be Unreliable
Number of Subjects Audit
Reports DSI Review
of Audit
Reports)
drug acc01u1tability records
which were incomplete and/or
discrepant with other subject
source documentation".
As such. can?t verify accuracy of
subject dosing.
RECORD 2 FDA inspection Recordkeeping and drug disposition
(hm) de?ciencies. considered signi?cant
enough to raise concerns regarding
data reliability.
Qingming Yang RECORD 2 FDA inspection Failure to report AEs. signi?cant for
China Site 54005 evaluation of safety data as well as
34 subjects human subject protection
Edmundo Berumen RECORD 2 FDA review of Study drug administration times were
Naraffete Site 32005 site audits exactly the same for each subject for
25 subjects all subjects audited: as such. can?t
verify accuracy of subject dosing.
Keiske 0110 RECORD 2 FDA review of 0 Documentation of study drug
Brazil Site 50005 site audits administration during inpatient
24 phase of study was missing or
de?cient: 8 subjects records
contained very few notations that
study drug had been given. and
the remaining 16 records
contained none. Doses
documented on the SDW were
not signed/initialed or dated
0 Large number of discrepancies
between SDW. and
medical chart information (73
discrepancies for 20 subjects 
e. g. surgery start/ stop time.
intraoperative blood loss. drain
vohune)
The ?ndings raised signi?cant
concerns with respect subject dosing
as well as adequacy and accuracy of
data on CRFS. of signi?cant concern
to impact data reliability.
Karl Brabants RECORD 3 on?) site audits Exact time of study drug
Belgium Site 28015 administration was rarely

Reference ID: 2951276

27 subjects

recorded on the inpatient
medication administration
records for any of the 27 subjects
only on grid with 0800. 1200.
1600. and 2000 time points

0 Times of study drug
administration frequently do not

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Table 8: Clinical Investigator Sites with Efficacy Data Considered Unreliable by DSI

 

 

 

Clinical Investigator Study Assessment Source Primary Reason DSI Assesses Data
Location Site Number (FDA Inspections, from Site to be Unreliable
Number of Subjects Audit
Reports DSI Review
of Audit
Reports)
match the times noted on the
inpatient medication
administration sheets

0 Study coordinator was unable to
de?ne a consistent primary
source for many of the data
points. including drug dosing.
surgery start/stop times. and
laboratory draw times.

0 Drug accountability logs
provided by Bayer were not used
by the study coordinator to
record accomitability and
the site did not keep a log of
accomitability

0 Ambient temperatures in study
drug storage room was
monitored weekly. not daily

RECORD 4 FDA inspection 0 Recordkeeping de?ciencies
. (W4)
0 Protocol violations
Ricardo Esquivel RECORD 4 Bayer monitoring 0 Drug disposition record
Mexico Site 32006 de?ciencies
42 0 Missing records
R. Michael Murray RECORD 4 FDA inspection 0 Post-operative randomization
Alabama.  Site  Possible 
152 subjects
John Ward RECORD 4 FDA inspection 0 Post-operative randomization
U-S-A- Site 14010 Study continued despite lapse of
 subjects  approval
Craig Buettner RECORD 4 FDA inspection Post-operative randomization
Alabama. USA. Site 14004
61 subjects
Bharat Mody RECORD 4 FDA review of (4) Study drug not stored in permissible
India Site 60010 site audit temperature range of for 19
68 subjects consecutive days. dropping to 
each day
Victor Sepulveda RECORD 4 FDA review of mm 0 Medical records of 10 subjects
Mexico Site 32002 site audit were missing from the site.
46 subjects Nursing notes. which include

Reference ID: 2951276

dosing entries. were missing for
an additional 7 subjects

15 of 33 subjects audited had
source vs discrepancies
pertaining to study drug
administration noted (ranging
from 1 to all doses. most 2-3

Compliance Review of (b) (4) Audits
NDA 22-406, Xarelto

Page 38

Table 8: Clinical Investigator Sites with Efficacy Data Considered Unreliable by DSI
Clinical Investigator Study
Assessment Source
Primary Reason DSI Assesses Data
Location
Site Number
(FDA Inspections,
from Site to be Unreliable
(b) (4)
Number of Subjects
Audit
Reports, DSI Review
(b) (4)
of
Audit
Reports)
doses)
RECORD 4
V. Shahb
DSI review of (b) (4)
• Data discrepancies exits between
India
Site 60006
site audit
the eCRF and site source
80 subjects
documentation, including for
study drug administration (26
subjects, 23 instances)
• Missing source documentation of
drug administration for 8 of 35
subjectsc
• Use of inappropriate correction
techniques in all subject records
• For 3 subjects, source
documentation and eCRF entries
were changed months after an
event, sometimes in response to
a query from data management.
• Language used to discuss the
Informed Consent document
with all subjects was coercive,
with documentation indicating
that he said “that the study drug
was completely safe, that is the
best treatment currently
available, that risks were
minimal (same as any other
surgery). . .”
a
Evaluation of data submitted by Johnson & Johnson resulted in assessment of data from 4 of the 10 subjects in
question at this site as acceptable; see Section III and Appendix 2; however, the data overall from this site is still
considered unacceptable.
b
Evaluation of data submitted by Johnson & Johnson resulted in assessment of data from 1 of the 8 subjects in
question at this site as acceptable; see Section III and Appendix 2; however, the data overall from this site is still
considered unacceptable.

DSI Assessment of Response:
In addition to sites previously identified, based on DSI inspections as providing unreliable data
with the recommendation that data from the sites not be used in support of the NDA (Drs.
(b) (4)
(b) (4)
Yang for RECORD 2, and Drs.
Esquivel, Murray, Ward, and Buettner for
(b) (4)
RECORD 4), DSI concurs with
auditors that data from Dr. Brabants’ site enrolling in
RECORD 3 be considered unreliable and that it not be used in support of the NDA. This
recommendation is based on deficiencies in documentation of drug administration, such that
certainty regarding study drug administration is not possible.
(b) (4)

Based on review of the
audit reports, DSI identified 3 additional sites for RECORD 1
(Drs. Lenart, Porvaneckas, and Slappendel), 2 additional sites for RECORD 2 (Drs. Naraffete
and Ono), and 3 additional sites for RECORD 4 (Drs. Mody, Sepulveda, and V. Shah) from
which DSI considers key study data to be unverifiable or unreliable and recommends that data

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NDA 22-406. Xarelto

from these sites also not be used in support of the application. At each of these additional sites,
soru?ce documentation was missing and/or there were signi?cant issues with documentation of
drug accountability such that it does not appear possible to verify that subjects at the site
received active/correct study diug therapy.

As such data is not recommended for use ?'om the following sites for their respective studies:
RECORD 1: Drs. Lenart, Porvanceckas, and Slappendal

RECORD 2: Drs. Yang, Naraffete, and Ono

RECORD 3: Brabants

RECORD 4: Drs. (mesquivel, Murray, Ward, Buettner, Mody, Sepulveda, and Shah
assessment of how the inspectional/ (m4) audit ?ndings impact data reliability as a
whole to each individual study based on the information available to DSI for review, is
discussed in the next section.

V. DSI Overall Assessment of RECORD 1, 2, 3, and 4 Studies Based on mm

and FDA inspections

Audits

Inadequacies of study conduct and monitoring identi?ed in the RECORD 1, 2, 3, and 4 studies
dru?ing the initial NDA review cycle resulted in the request by DSI for independent third party
audits of clinical investigator sites, which were conducted by Table 9 below
summarizes the issues identi?ed during FDA inspections and the audits which are
considerations in the assessment of the overall integrity of each RECORD study.

Clearly, drug accountability issues at a signi?cant number of sites in each RECORD study
raises the fundamental issue of whether DSI is able (based on inspectional ?ndings and

audit results) to confnm that subjects at each site received study drug as given in the line
listings submitted with the NDA. It can be seen in Table 9 that signi?cant drug accormtability
issues affecting more than a few subjects) were noted all 4 RECORD studies, ranging
from 27 33% of mo audited sites. Since only three RECORD 3 sites were audited, the
statistical signi?cance of this ?nding for RECORD 3 is uncertain. In consideration of the
potential impact of drug accormtability issues on overall study data integrity, DSI evaluated
other determinants of study reliability. A major determinant which enables DSI to generalize
the results of audit or inspectional fmdings is adequacy of clinical trial monitoring. If
monitoring is inadequate at the majority of sites examined, it becomes impossible for DSI to
provide assurance that study conduct ?aws in drug accountability) did not occur at the
vast majority of clinical sites which were not audited or inspected or that other, undetected
?aws impacting on safety and ef?cacy data did not man: The same principle holds true for
assessment of the number of sites assessed as rmreliable after mm audit or FDA inspection.
Given the relatively small percentage of subjects and sites examined, consideration must be
given to interrelated study conduct issues nrunber of unreliable sites together with
ineffective monitoring in a given study) that is, the more essential elements of good study
conduct that are defective in a given study, the more likely that overall data integrity for that
study is unreliable. Lastly, DSI considered the relative nrunber of urn?eported adverse events
and serious adverse events in the assessment of overall study integrity. Although each
RECORD study had ?aws which had the potential to affect data integrity, DSI took a global

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approach in applying analysis of each study conduct element to overall RECORD study
reliability. We are of the opinion that assessment of significant site inadequacies in a given
study across all examined study conduct issues allows a more accurate assessment of the
impact of these issues on data integrity. Findings of deficits in a single area of study conduct
makes extrapolation of assessment of data integrity as unreliable, problematic across an entire
study, given the relatively small proportion of sites assessed. It seems reasonable, however, to
have a higher level of confidence in drawing a conclusion that data integrity is unreliable,
based on a small audit/inspectional sample for a given study, when all study conduct elements
examined are significantly flawed. Please see discussion after Table 9 for application of these
concepts to each RECORD study.

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  (4)

Page 40 Compliance Review of Audits NDA 22-406. Xarelto

TABLE 9: EVALUATION OF RECORD 1, 2, 3, AND 4 DATA INTEGRITY

Study Post-operative Unreported Unreported Drug Inadequate Inadequate #sites unreliable Overall study reliability
Randomization Adverse Adverse accountability mo&i&oring mo&i&oring (Sites unreliable/total
#subjects Evspg Evegtar issues sitqg?apdited by
POR/total (critical) overall overall 
subjects audits audits Sites with assessment assessment inspected)
signi?cant SAEs issues/sites by subject by site
au?ts?d by assayed assayed (sites
with
inadequate
monitoring/Si
tes audited)

RECORD 1 18/4541 1 10/ 16/0 NA 3/11 (27% of 96/347 2/11 3/13 Yes except Lenart. Porvaneckas
(217 sites) audited sites) and Slappendal (0
RECORD 2 13/2509 131/24/0 NA 2/7* (29% of 55/216 2/7 4/10 Yes except Yang
(123 sites) audited sites) Naraffete. and Ono
RECORD 3 9/2531 37/2+/0 NA 1/3 (33% of 28/70 1/3 1/ 5 Yes except Brabants
(147 sites) audited sites) 
RECORD 4 1227/3148 265/61/8 504/28 3/9* (33% of 197/312 6/9 8/16 No
(130 sites) audited sites) 
*1 additional site each from RECORD 2 and 2 additional sites from RECORD 4 had critical drug accountability issues identi?ed during
FDA inspections.

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DSI Assessment of RECORD 1 Reliability: DSI recommends that the data from this study can
be used in support of the NDA. Although there were diug accountability issues identi?ed at
27% of audited sites in RECORD 1, monitoring was assessed as adequate in the
majority of subjects and sites, and earlier FDA inspections did not reveal drug accountability
issues. Based on review of mm audit ?ndings, however, there were 3 sites in RECORD 1
(Lenart, Porvaneckas, and Slappendal) for which DSI cannot assure data reliability (due to
drug acc01mtability issues). DSI acknowledges that there were unreported adverse events from
this trial, and suggests that the review division consider additional events identi?ed during the
audit process in their safety analysis. There were no unreported SAEs noted from RECORD 1.
Postoperative randomization did not occur to any signi?cant degree in RECORD 1. In
summary, despite some identi?ed de?cits in study conduct, the de?ciencies do not appear
pervasive enough to cast doubt on the overall reliability of RECORD 1 study data.

DSI Assessment of RECORD 2 Reliability: DSI recommends that the data from this study can
be used in support of the NDA. Although there were diug accountability issues identi?ed at
29% of audited sites in RECORD 2, monitoring was assessed as adequate in the
majority of subjects and sites and the nrunber of audited sites is relatively small, and earlier
FDA inspections did not reveal drug acc01mtability issues. There were 4 clinical investigator
sites in RECORD 2 meang, Naraffete, and Ono) for which DSI cannot assru?e data
reliability (due to drug acc01mtability issues and/or issues with source docrunentation). DSI
acknowledges that there were unreported adverse events from this trial, and D51 suggests that
the review division consider additional events identi?ed during the audit process in their safety
analysis. There were no lun'eported SAEs noted from RECORD 2. Postoperative
randomization did not occur to any signi?cant degree in RECORD 2. In srunmary, despite
some identi?ed de?cits in study conduct, the de?ciencies do not appear pervasive enough to
cast doubt on the overall reliability of RECORD 2 data.

DSI Assessment of RECORD 3 Reliabilig: DSI recommends that the data from this study can
be used in support of the NDA. Although there were diug accountability issues identi?ed at
33% of audited sites in RECORD 3, a very small number of RECORD 3 sites were
audited by making the statistical assessment of this ?nding problematic. Monitoring
was assessed as adequate in 42 of 70 of subjects and 2 of 3 sites audited by mm
Based on monitoring audit strategy of focusing on a PDC (Patient Data Check) form
for evaluation of monitoring adequacy, it appears that up to 40% of subjects had inadequacies
in monitoring. However, note that assessment of adequacy of monitoring and data
reliability did not solely focus on the PDC form, but rather on the speci?c types of issues that
were missed by monitoring and their impact on assessment of key safety and ef?cacy
parameters. There was 1 site in RECORD 3 (Brabants) for which DSI cannot assure data
reliability (due to drug acc01mtability/storage condition issues identi?ed during audit).
DSI acknowledges that there were unreported adverse events ??om this trial, and D81 suggests
that the review division consider additional events identi?ed dru?ing the audit process in their
safety analysis. There were no unreported SAEs noted from RECORD 3. Postoperative
randomization did not occur to any signi?cant degree in RECORD 3. In summary, despite
some identi?ed de?cits in study conduct, the de?ciencies do not appear pervasive enough to
cast doubt on the overall reliability of RECORD 3 data.

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NDA 22-406, Xarelto
(b) (4)

DSI Assessment of RECORD 4 Reliability: FDA inspections, the
audits, and the
(b) (4)
data verification process have identified serious issues with the study conduct and
monitoring of the RECORD 4 study. Postoperative randomization in violation of the protocol
occurred at 1227 of 3148 (39%) of RECORD 4 subjects, despite a memo from the CRO
(b) (4)
monitoring the study (
that postoperative randomization was not acceptable. Although
this occurred equally in both study arms, the possibility exists that because of postoperative
randomization, the labeled population would not be reflective of the actual study population.
(b) (4)
The number of unreported adverse events detected by
monitors (265) was more than
twice the number from any of the other RECORD trials (110, 131, and 37 for RECORD 1, 2,
(b) (4)
and 3, respectively), and there were 504 unreported adverse events detected during the
data verification; the review division may wish to review these adverse events for safety
analysis inclusion. All newly reported serious adverse events were from RECORD 4 sites: 8
(b) (4)
(b) (4)
from the
audits and 28 from the
data verification. In addition, there were
(b) (4)
serious drug accountability issues at 3 of 9 (33%) of
audited RECORD 4 sites, in
(b) (4)
addition to 2 sites with serious drug accountability issues identified earlier by DSI (
(b) (4)
Esquivel). The
audit finding that 197 of 312 (63%) of subjects and 6 of 9 (67%) of
(b) (4)
sites in RECORD 4 were monitored inadequately by
is striking, and
higher than the other RECORD studies.
(b) (4)

Eight of 16 (50%) sites of the RECORD 4 sites audited by
or inspected by FDA ended
with an evaluation that the data from the sites was not reliable, reflective of drug accountability
deficiencies and other violations of good clinical practice, including postoperative
randomization, falsification, missing records, and improper study drug storage. DSI does not
(b) (4)
feel that the data verification process conducted by
has been validated, nor does it
(b) (4)
negate the findings described above. It is important to note that these sites audited by
represent only 7% of total sites and 10% of total subjects in the RECORD 4 study. The
additional audits were conducted with the expectation that failure to identify additional sites
with serious deficiencies would provide assurance that the remaining unaudited sites provided
reliable data. The pervasive nature of study conduct deficiencies, including particular
inadequate monitoring, raises the possibility that there may be deficiencies affecting the
primary efficacy outcome which were not detected, e.g. venography conduct. Based on serious
drug accountability issues, a relatively large number of unreported adverse events and serious
adverse events, a high rate of postoperative randomization in violation of the protocol, and
inadequate monitoring of a majority of the RECORD 4 sites as well as the relatively small
proportion of sites audited, DSI recommends that the data from RECORD 4 be considered to
be unreliable. While the Applicant attempted to provide further assurance that data from this
(b) (4)
(b) (4)
study was reliable via the
data verification process,
findings do not negate the
(b) (4)
findings described above. Recall that the
audit proposed by J&J was intended to be a
specific methodology for analysis of the audited data, not the performance of 3rd party audits,
per se, and that FDA did not agree or review as to the usage of this methodology for this
intended purpose.
VI. OVERALL ASSESSMENT OF FINDINGS AND RECOMMENDATIONS
Executive Summary Conclusion
DSI finds that Johnson and Johnson’s response to the FDA’s May 27, 2009 Complete

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NDA 22-406. Xarelto

Response Letter addresses all of the D31 items requested in the CR Letter. However 
review concludes that the data generated by the RECORD 4 study is unreliable, and
recommends that the data not be used in support of the respective indication of prophylaxis of
deep venous thrombosis and pulmonary embolism after total knee arthroplasty. Given serious
drug accomitability issues, a relatively large number of unreported adverse events and serious
adverse events, a high rate of postoperative randomization in violation of the protocol, and
inadequate monitoring of a majority of the RECORD 4 sites as well as the fact that only a
subset of sites have been audited, DSI cannot provide a favorable assessment of RECORD 4
data reliability for the remaining 88% of minispected/unaudited clinical investigator sites based
on extrapolation of the audit fmdings. Although issues exist with the study conduct of
RECORD 1, 2, and 3, they are not suf?ciently pervasive to re?ect negatively on overall study
data integrity, and the data from these 3 studies are considered to be reliable, with the
exception of a few sites.

Summary Assessment and Recommendation

On May 27, 2009 FDA issued an NDA Complete Response letter to Johnson Johnson for the
Xarelto NDA 22-406 for the indication of prophylaxis of deep vein thrombosis and puhnonary
embolism in patients undergoing hip or knee replacement s1u'gery. W4)

Inspections conducted in support of the NDA resulted in foru?
OAI classi?cations, ?ve VAI, and two NAI. Evaluation of the inspections revealed serious
de?ciencies in adverse event reporting, drug accormtability and administration, and adherence
to the protocol especially postoperative randomization. Also of serious concern were
de?ciencies in monitoring noted at the inspected CI and sponsor sites noted in all four
RECORD studies, but particularly pervasive in RECORD 4. The CR Letter requested, in part,
evidence that the form RECORD studies are reliable, and proposed that independent third party
audits be conducted at additional CI sites to provide reassru?ance of the reliability of the
RECORD 1, 2, 3, and 4 study data.

Johnson Johnson submitted a CR on December 23, 2010. mm was selected to conduct
the third party independent audits. There were 30 clinical sites audited across all four
RECORD studies: all 18 high enrolling sites (previously uninspected) with 60 randomized
subjects and 12 moderately em?olling site with 15-59 randomized subjects randomly selected.
All subjects at sites were audited if there were less than 35 subjects; otherwise, a random
sample suf?cient to provide 95% con?dence to rule out a 5% error rate was chosen. Audits of
these 30 sites resulted in audit of 950 subjects out of 12,729 total, which constituted 7.5% of all
subjects in the 4 RECORD studies. The parameters examined dru'ing the audits were adequacy
of monitoring, adverse event reporting, adherence to protocol including postoperative
randomization, informed consent, investigational product, and som'ce data veri?cation and

RF completion. Also submitted with the CR were the reports of the Bayer audits.

Adequacy of clinical trial monitoring was assessed in several ways. auditors stated that
overall site study monitoring was de?cient at of 11 of RECORD 1 sites, 2 of 7 
RECORD 2 sites, 1 of 3 RECORD 3 sites, and 5 of 9 RECORD 4 sites; key
ef?cacy and safety ?ndings were missed during monitoring of these sites. Assessment of

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monitoring by individual subjects resulted in the following assessment of inadequate
monitoring: RECORD 1 96/347 (27.2%) subjects; RECORD 2 55/216 (25.5%) subjects,
RECORD 3 28/70 (40.0%) subjects, and RECORD 4 197/312 (63.1%) subjects. Lastly,
Johnson & Johnson submitted the results of 74 clinical investigator site audits conducted by
(b) (4)
Bayer; 69 were routine. Significant findings noted during the
audits at the sites of Drs.
Lenart (RECORD 1), Porvaneckas (RECORD 1), Nararrete (RECORD 2), and Buettner
(RECORD 4) were not mentioned in the Bayer audit reports. FDA inspectional findings at the
sites of Dr. Michael Murray (RECORD 4) were not described in the Bayer audit, nor did the
(b) (4)
Bayer audits detect the most serious deficiency which resulted in disqualification of Dr.
(RECORD 4). Inspection of Bayer as the sponsor of the NDA revealed some
(b) (4)
(RECORD
monitoring deficiencies as well, in that the major issues at the sites of Drs.
2) and Murray (RECORD 4) were not identified by Bayer monitoring. Monitoring for the
RECORD 1, 2, and 3 studies was performed by Bayer, while the monitoring for RECORD 4
(b) (4)
was conducted by the CRO
Although issues with clinical trial monitoring
inadequacies were present in all four RECORD trials, the deficiencies were most frequent in
the RECORD 4 study. Deficiencies in clinical trial monitoring raise serious concern regarding
the validity of data submitted in RECORD 4. In particular, the widespread monitoring
deficiencies do not provide reassurance that study conduct deficiencies are not present at the
approximately 90% of RECORD 4 sites which were not inspected by FDA or audited.
(b) (4)

Based on DSI’s assessment of
audit reports, drug accountability deficiencies were
present at 3/11 (27%) of RECORD 1 sites, 2/7 (29%) of RECORD 2 sites, 1/3 (33%) of
RECORD 3 sites, and 3/9 (33%) of RECORD 4 sites. Site drug accountability was considered
deficient if source documentation for key efficacy assessments was absent and/or there were
significant issues with documentation of drug accountability such that it does not appear
possible to verify that subjects at the site received study drug. Further information from
Johnson & Johnson was requested that might provide assurance of drug administration at the
problematic sites, such as pharmacy or nursing records. For the sites assessed as deficient
here, no such documentation was located. Note that a very small number of RECORD 3 sites
(b) (4)
were audited by
making the statistical assessment for this study problematic. We
acknowledge the finding that 27-33% of RECORD 1-3 sites had deficiencies in drug
accountability; however these findings were not replicated in FDA inspectional findings. In
contrast with RECORD 4, however, audits of the RECORD 1, 2, and 3 studies did not
demonstrate systematic deficiencies in multiple aspects of clinical trial conduct, such that data
integrity from all study sites must be questioned. However, the findings that 33% of RECORD
(b) (4)
(b) (4)
4 sites audited by
(as well as 2 additional sites,
Esquivel, identified earlier
by DSI) had serious drug accountability deficiencies, 67% had inadequate monitoring, and
50% of sites audited or inspected were determined to provide unreliable data, together indicate
that the data from RECORD 4 cannot be considered reliable.
(b) (4)

Failure to report adverse events was identified at all but 2 sites audited by
There were
110 unreported AEs in RECORD 1, 131 unreported AEs in RECORD 2, 37 unreported AEs in
RECORD 3, and 265 unreported AEs in RECORD 4. There were 8 unreported SAEs noted in
(b) (4)
the
audits, all in RECORD 4. When the unreported AEs were individually examined
for significance as defined by the necessity for expeditious medical evaluation, or were AEs
involving bleeding or hepatic events, there were 16 in RECORD 1, 24 in RECORD 2, and 265

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Page 45

in RECORD 4; RECORD 3 could not be tabulated due to failure to list individual laboratory
(b) (4)
abnormalities. During the
data verification process of RECORD 4, 504 unreported
(b) (4)
AEs were noted, as were 28 previously unreported SAEs. The
audits identified more
than twice as many AEs in RECORD 4 than in the other RECORD studies, and all of the
unreported AEs were from RECORD 4. The high number of unreported AEs and SAEs from
RECORD 4 may impact labeling for safety, and is again reflective of inadequate monitoring of
RECORD 4.
Failure to adhere to the protocol, in particular postoperative randomization, occurred in 39% of
RECORD 4 subjects. Although postoperative randomization would not be expected to affect
the primary efficacy outcome since it occurred in both study arms, the concern remains that the
population described in the product label may not be reflective of the actual study population if
subjects are screened and enrolled by criteria other than those in the protocol. There was no
other evidence of widespread failure to adhere to the inclusion criteria, and there was no
significant postoperative randomization in RECORD 1, 2, or 3. Again, the failure of the CRO
(b) (4)
to enforce compliance with the protocol requirement for preoperative randomization is
reflective of inadequate monitoring of RECORD 4.
(b) (4)

The
audits of the RECORD 4 study sites were conducted in an attempt to provide
assurance of the validity of the data from RECORD 4. There was no difference in primary
efficacy or safety outcome when sensitivity analyses were conducted on high versus low
quality sites or investigators or on subjects randomized preoperatively versus postoperatively.
(b) (4)
Although interesting, the
methodology is not validated, nor does it address the effects
of inadequate monitoring of RECORD 4, which may have introduced unidentified errors not
accounted for in the data verification.
In summary given the pervasive findings of deficient clinical trial monitoring, high number of
clinical investigator sites with data assessed as unreliable, failure to follow the protocol
including postoperative randomization, and deficient clinical trial conduct including failure to
report significant adverse events and SAEs, DSI cannot provide a favorable assessment of
RECORD 4 data reliability for the remaining unaudited sites based on extrapolation of the
(b) (4)
audit findings. Although some issues exist with the study conduct of RECORD 1, 2,
and 3, they are not sufficiently pervasive to recommend an unfavorable assessment of data
reliability. Therefore, the data from RECORD 1, 2, and 3, with exception of select sites as
identified earlier, are considered reliable in support of the application. The data from RECORD
4 are not considered reliable in support of the respective indication.

Reference ID: 2951276

 Page 46

Compliance Review of (b) (4) Audits
NDA 22-406, Xarelto

{See appended electronic signature page}
Susan D. Thompson, M.D.
Medical Officer
Good Clinical Practice Branch II
Division of Scientific Investigations
CONCURRENCE:
{See appended electronic signature page}
Tejashri Purohit-Sheth, M.D.
Branch Chief
Good Clinical Practice Branch II
Division of Scientific Investigations

Reference ID: 2951276

 (b) (4)

Page 47

Compliance Review of
Audits
NDA 22-406, Xarelto

APPENDIX 1
CI
Location
Site Number

RECORD 1
Bauer
Austria
44003

DSI Site
Data
Reliable
Overall
Y/N

Study Monitor
Failure
Significant
(Impacts
primary
efficacy or
safety)

Y

N

Kruczynski
Poland
18009

Y

Lenart
Hungary
46002

N

Reference ID: 2951276

(b) (4)

SUMMARY OF

N

N

(b) (4)

AUDIT REPORTS
Bayer
or
(b) (4)

Detail*

missed?
Y/N
?=cannot
asses

Impacts
primary
efficacy
=E
Safety =
S
B=
Both

M

N

S

m

N

B

m

N

B

C

N

S

M

N

S

M

Y

S

M

?

E

M

N

B

M

N

S

M

N

S

m

N

B

Subject 154759 was not appropriately treated for HTN, had a CVA 1 day
after surgery.
4 unreported AEs: iron deficiency, diuresis, diarrhea, elevated GGT = 205
12 study conduct deficiencies noted in 35 audited, including no source
documentation of local lab assessments for all 35
16 subjects of 35 audited subjects had discrepant entries SD vs. CRF (e.g.,
wound drain volumes, VS)
7 subjects randomized prior to documented eligibility evaluation; all
eventually met eligibility criteria
For all subjects who experienced AEs, the severity and relationship to study
drug was not documented.
No documentation in study files that the local IEC was notified of the 5
SAEs at this site
Study Coordinators log used to document drug accountability and
dosing for all subjects, but entries in log are not signed and
dated/initialed; medications and infusions administered to the study
subjects recorded inconsistently; no documentation of subject training
on injection techniques, dosing instructions, proper storage of study
drug.
2 subjects received two pre-surgical study drug injections, as surgery was
rescheduled.
Preoperative laboratory results/ECGs not consistently signed and dated by
investigator.
For AE reporting, no source is given for seriousness, action taken with study
drug, treatment, severity, and relatedness.
8 subjects of 35 audited had discrepant entries SD vs. CRF, e.g. medical
history, Xanax dosage

Rating
C=Critical
M=Major
m=minor

 Page 48

CI
Location
Site Number

Marinoni
Italy
2200 1

Mazurkiewicz
Poland
1 80 1 9

Peidro

Reference ID: 2951276

DSI Site
Data
Reliable
Overall




Study Monitor
Failure
Signi?cant
(Impacts
primary
efficacy or
safety)




Rating
C=Critical
or
m=minor

In text. not
cited






Compliance Review of


missed?


?=cannot
asses

mm Audits

NDA 22-406. Xarelto

Impacts Detail*

primary

efficacy



Safety 





Both

1 subject had a hx of disturbed vision and HP. had a ?pre-retinic?
hemorrhage on Day 1. study drug continued

Source documentation de?cient for all subjects enrolled: No statement Day
1 to con?rm eligibility. PE/clinical assessments not recorded in source notes.
entries in source notes not signed/dated. ECGs signed . not dated.

Out of range labs not routinely armotated as ?clinically signi?cant?. 1
subject with CPK elevated before and after randomization (1172) not signed
or assessed by PI.

Source therapy logs were not always clear as to which medication had been
prescribed/dispensed and changes were made to the data in the logs for
several subjects which were not initialed/dated. 3 examples cited. including
2 doses of study drug.

4 subjects had their epidural catheter inserted/removed outside protocol
mandated timelines: none of these catheters were recorded on the CRF.
Two were placed too soon after study drug administration (1.5 and 2 hrs)
and 2 were withdrawn too soon after study drug admisntraiton (1.5 and 4 
after dose). rather than 2X the half-life.

4 subjects had unreported AEs: left lower limb paresthesia. leg edema.
abnormal ECG. wound erythema/ edema

SAE of ?infection of the surgical site? noted 10/3/06. reported late on
10/3 1/06

6 of 15 subjects the site had discrepant entries SD vs. CRF. medical
history. fever. Some source documentation was missing at the site: 1
subject central lab reports and lab culture report. 2 subjects hematology
reports. and 2 subjects medical history.

3 subjects had local lab test reports during active treatment period with
coagulation parameters. potentially unblinding the study team.

Documentation of PI involvement with study subjects lacking.

4 subjects with mireported AEs: anxiety and noncooperation. cholelithiasis.
and constipation in 2 subjects

1 medical record missing during audit

D) (4)

Page 49 Compliance Review of Audits

NDA 22-406. Xarelto

CI DSI Site Study Monitor Mm Ba?r?pr Impacts Detail*
Location Data Failure Rating primary
Site Number Reliable Signi?cant C=Critical missed? efficacy
Overall (Impacts M=Major 
primary m=minor ?=cannot Safety 
efficacy or asses 
safety) 
Both
Spain Source documents for 12 of 19 subjects audited were
24002 missing/incomplete/not recorded to GCP standards (failure to sign/date labs.

missing lab reports and/or ECGs. absent venogram results).

AE descriptions in progress notes did not include severity. relationship to
study drug. and outcome: this info was in 

No statement in progress notes or Inclusion/Exclusion checklist in records to
document eligibility (11 of 19 subjects audited).

Protocol and sponsor study procedure violations in 12 subjects 
baseline ECGs not signed. date of last study medication not f01md in source
notes. no pregnancy test. no source documentation for vital signs at Day 13.
Day 36. and/or Day 65).

6 of 19 subjects audited had mireported AEs: hand edema. low potassium.
nausea 3. skin candidiasis. No SAE
assessment documented for wound infection

In 8 of 19 subjects audited. discrepant entries SD vs. CRF. including

concomitant medications and medical history

No training documentation on ?le for subinvestigators. and the study nurses

were not identi?ed on the Site Personnel Responsibility Log.

8



Pesola 
Finland
59005

Porvaneckas 
Lithuania
57001 

2 subjects had unreported AEs: sore calf. nausea/vomiting

15 of 35 subjects audited had a single laboratory or ECG study outside of the

protocol speci?ed window.

The site?s copy of the IC document contains only the last two signature

copies.

Study drug administration times were exactly the same for each of the
34 subjects audited; exact dosing times were not documented, and it is
unknown how close to the predicted time doses were given.

Pregnancy test or contraception information was missing for 2 subjects.

There were unreported AEs in 12 of 34 audited subjects. Examples:

suspected allergic skin reaction. hypotension. elevated blood pressure.

fungal infection.


2222


Reference ID: 2951276

(b) (4)

Page 50

CI
Location
Site Number

Schwartsmann
Brazil
50006

Slappendel
Netherlands
30002

Reference ID: 2951276

Compliance Review of
Audits
NDA 22-406, Xarelto

DSI Site
Data
Reliable
Overall
Y/N

N

N

Study Monitor
Failure
Significant
(Impacts
primary
efficacy or
safety)

N

Y

(b) (4)

Bayer
or
(b) (4)

M

N

Impacts
primary
efficacy
=E
Safety =
S
B=
Both
S

m

N

B

m

N

B

M

N

B

M

N

B

M

N

E

m

N

B

M

N

B

M

N

B

Rating
C=Critical
M=Major
m=minor

missed?
Y/N
?=cannot
asses

Detail*

No verification sponsor notification of SAE within 24 hours were available
at the site for 6 of 7 SAEs
9 of 34 audited subjects had eCRF information that could not be verified in
the source data or discrepancies between the source data and the eCRFs,
including absence of time of blood transfusion in eCRF and in 2 subjects,
discrepancy in time of study drug administration (4 and 1 hour differences).
Whiteout was used to correct source documentation errors in 2 subject
records
Physical exams were not performed on Day 1, 6, 13, 36, and 65 for all 35
subjects audited in violation of the protocol.
For all 35 subjects audited, post-discharge clinical assessments are not
documented on the source document.
For all 35 subjects audited, information entered on the source document is
not signed/initialed or dated.
a
For all 35 subjects audited, documentation of study drug administration
during the inpatient phase is captured only on progress notes as
“administered dose of study 11354 medication per protocol at XXX [time]”.
It is not clear whether the tablet or syringe were administered, or both, were
administered.
8 of 35 subjects audited lacked documentation of a single dose of study
drug; 1 additional subject lacked documentation for Days 1-6.
Documentation of study drug administration in the medical record was not
contemporaneous for 4 of the 35 subjects audited.
For 5 of 35 subjects audited, discrepancies were noted between eCRF and
source documents. Examples include absent eCRF entries for concomitant
medication, medical history omitted from eCRF, study medication
administration time discrepancy of 6 minutes
Documentation of PI oversight, delegation, and training of study staff was
deficient.
Investigator review of study document was inadequate.
For all 35 subjects audited, there is no documentation of protocol-required

 (b) (4)

Page 51

CI
Location
Site Number

Stehlik
Czech
Republic
38007

Reference ID: 2951276

Compliance Review of
Audits
NDA 22-406, Xarelto

DSI Site
Data
Reliable
Overall
Y/N

Y

Study Monitor
Failure
Significant
(Impacts
primary
efficacy or
safety)

N

(b) (4)

Rating
C=Critical
M=Major
m=minor

Bayer
or
(b) (4)
missed?
Y/N
?=cannot
asses

Impacts
primary
efficacy
=E
Safety =
S
B=
Both

M

Y

E

M

N

S

M

Y

E

M

N

S

M

N

S

M

N

B

m

N

B

Detail*

physical examinations and clinical assessments for any visit days.
1 subject was randomized 2 days prior to informed consent being obtained.
b
10 of 35 subjects audited had drug accountability records which were
incomplete and/or discrepant with other subject source documentation.
21 subjects had 54 unreported AEs. Examples include shortness of breath,
hematoma around wound, tachycardia, fever, bradycardia.
AE reporting for all audited subjects did not include a source of seriousness,
action taken with the study drug, treatment, severity, and relatedness for AEs
and/or bleeding events.
Source documentation was deficient for all audited subjects. Examples
include SDWs not signed or dated for any visit days and absence of a
medication record for the subject’s hospital stay.
No source documentation to support the date and time of the preoperative self administered injection of enoxaparin/placebo by the
subjects or the date and time of last outpatient dosing for all subjects.
1 subject had study related procedures performed prior to signing the
informed consent document.
There were 12 unreported AEs in 11 subjects of 34 subjects audited.
Examples: Anxiety, hematoma, hypotension with chest pain, UTI, left leg
swelling.
No documentation in source to support the eCRF entries for severity of the
AE or relationship to the study medication; the information was recorded
directly onto the eCRF
For 13 of the 34 subjects audited, the surgery start and stop times recorded
in the eCRF could not be verified from the source documentation. Given
this inconsistency, it could not be determined if the investigator complied
with the minimum 6 hour post surgery study medication administration
requirement.
For 9 of 34 subjects audited, there were discrepancies noted between eCRF
and source documents. Examples include failure to record Zyrtec as a

 Page 52

CI
Location
Site Number

RECORD 2
Belickas
Lithuania

5 7001

Dhanjee
South Africa
3 700 1

Field
England
12008

Reference ID: 2951276

DSI Site
Data
Reliable
Overall




Study Monitor
Failure
Signi?cant
(Impacts
primary
efficacy or
safety)

M9)

Rating
C=Critical
or
m=minor

33

Compliance Review of

Basra?"
missed?


?=cannot
asses

(some)

22

mm Audits

NDA 22-406. Xarelto

Impacts Detail*

primary

efficacy



Safety 





Both
concomitant medication on the CRF. incorrect date for a pregnancy test.
medical history omitted from discrepancies in BP.

2 SAEs were reported to the sponsor more than 24 hours after site
awareness: each SAE was reported after approximately 3 months.

7 of 35 subjects audited had unreported AEs: low hemoglobin 3. fever 
2. RUQ pain. nausea. elevated potassium (6.2).

De?ciencies. omissions. and deviations from GCP were noted in the source

documentation. Examples include: alteration of dates and numbers on 2 or
3 of the local lab report slips with no explanation. missing randomization
con?rmation for 2 subjects. at least 95% of all blood pressure measurements
appeared to be estimated or rounded. use of correction ?uid was noted on
progress notes.

Discrepancies in number of tablets/injections returned vs the number that
should have been returned for 6 subjects of 35 audited. However.
compliance was not outside the protocol-allowed 80-120%.

The site maintained only the last two pages of the informed consent
document containing signatures for all subjects.
Source documentation was inconsistent with entries for 14 of 35

subjects audited. Examples include concomitant medications not recorded
on the drainage volume inconsistency. estimated surgical loss.

Dr. Belickas was not included on the Site Persormel Responsibility Logs.
The assigned tasks on these logs did not include clinical assessments for
safety or ef?cacy for the sub-investigators who performed the majority of
these assessments.

There were 4 unreported AEs: fever. calf pain. backache. and hypotension.
There was minimal documentation of PI involvement in the study
It was unclear whether SAE reporting tirnelines were adhered to for 7 SAEs:

reporting occurred after 3 weeks 1 year to the sponsorfor these SAEs.

Page 53
CI DSI Site Study Monitor
Location Data Failure
Site Number Reliable Signi?cant
Overall (Impacts
primary
efficacy or
safety)
Martson 
Estonia
63002
Nafarrete 

Reference ID: 2951276

M9)

Rating
C=Critical
or
m=minor

II) 9)

Compliance Review of Audits

NDA 22-406. Xarelto

Bam?pr Impacts Detail*

anal'y

missed? efficacy



?=cannot Safety 

asses 


Both

There were 21 unreported AES in 13 of the 43 subjects audited. Examples
include: low hemoglobin. swelling left leg

2 subjects of 43 audited had discrepant drug administration/accountability
information (4 vs. 6 tablets returned. 80 minute discrepancy in drug
administration time.)

Discrepancies were noted between entries. SDW. and medical record
information for 6 of 43 subjects audited. Examples include laboratory draw
and ECG times. concomitant medication. one instance of study drug
administration.

Medical history in the medical record not captured in in 17 of 43
subjects audited. Examples include penicillin allergies. glaucoma.

For 2 subjects laboratory pages were not signed or clinical signi?cance
documented by the PI 1 subject had a history of CRI per medical racasds.
no screening labs documented to be reviewed prior to surgery

screening labs signed by PI 10/ 14/06. subject withdrawn due to
elevated on 10/13/06.

Qualifying infonnation for AE data captured on (relationship to study
drug. action taken. seriousness. and severity. not recorded in source
documentation

1 subject had venography performed unilaterally with no documentation as
to reason.

2 subjects were enrolled despite allergy to contrast and thyroid condition:
venography could not be performed for these 2 subjects.

5 of 35 subjects audited had protocol deviations. including study visits out of
window. venography performed too close to last dose of study drug.

3 of 35 subjects had entries not supported by source documentation

(missed (no screening ECG interpretation. no reason for drug discontinuation (rash).

3) AE of pain after venography dated earlier than venography).

8 of 25 subjects had unreported AEs. Examples: thigh hematoma. swelling
right foot. anxiety. knee pain

3 of 25 medical charts could not be located

(b) (4)

Page 54

CI
Location
Site Number

Compliance Review of
Audits
NDA 22-406, Xarelto

DSI Site
Data
Reliable
Overall
Y/N

Study Monitor
Failure
Significant
(Impacts
primary
efficacy or
safety)

Mexico
32005

Ono
Brazil
50005

Reference ID: 2951276

N

Y

(b) (4)

Bayer
or
(b) (4)

M

?

Impacts
primary
efficacy
=E
Safety =
S
B=
Both
B

M

N

S

m

N

B

m

N

B

m

N

B

m

N

B

C

Y

E

C

Y

B

Rating
C=Critical
M=Major
m=minor

missed?
Y/N
?=cannot
asses

Detail*

Study drug administration times were exactly the same for each subject
for all subjects audited; exact times could not be documented.
3 subjects had study drug administered too early after wound closure (1-5
hours)
There were 35 unreported AEs in 10 of 25 subjects. Examples: anemia,
infection, vomiting
Lapses in GCP documentation were noted, including ECG tapes stapled into
patient charts without identifying information, white-out in several patient
charts, and an SAE report completed in pencil.
Concomitant medications were listed in the medical chart, but were not
reported in the CRF in 5 of 25 subjects audited: examples include
magnesium sulfate, neupogen; fraxinhearina; metoclopramide, morphine,
Graten, neumerabraum; metoclopramide, decorex; bicarsol, fentalyn,
Dobutrex, dermakin, dopamine, precedex dexmedetomidine hydrochloride.
5 of 25 subjects had discrepancies between the source data and the CRFs,
including height/weight, date of ECG, side of surgery, wound drainage
volume, date of ECG
11 of 25 subjects had information on the CRFs that could not be verified in
the source documentation. Examples include misplaced ECGs, no vital
signs in source documents, no height/weight in source document,
venography procedure/results absent from source document.
Documentation of study drug administration during inpatient phase of
study was missing or deficient: 8 subject records contained very few
notations that study drug had been given, and the remaining 16 records
contained none.
Doses of study medication documented only on SDW were not
signed/initialed or dated, so it is unclear whether they are primary
source entries.
Discrepancies were noted among eCRF entries, SDW entries, and
medical chart information – 73 discrepancies for 20 subjects. Examples
include surgery start/stop times, intraoperative blood loss, drain

 (b) (4)

Page 55

CI
Location
Site Number

Wang
China
54001

Reference ID: 2951276

Compliance Review of
Audits
NDA 22-406, Xarelto

DSI Site
Data
Reliable
Overall
Y/N

N

Study Monitor
Failure
Significant
(Impacts
primary
efficacy or
safety)

Y

(b) (4)

Bayer
or
(b) (4)
missed?
Y/N
?=cannot
asses

Impacts
primary
efficacy
=E
Safety =
S
B=
Both

M

Y

B

M

Y

B

M

Y

S

M

Y

S

M

Y

B

M

Y

S

C
M

Y
Y

B
S

M

Y

B

Rating
C=Critical
M=Major
m=minor

Detail*

volumes.
PI oversight of study conduct was deficient – PI unaware of study
procedures, no evidence that he participated in study conduct, not present in
monitoring visits, and he was unaware of how many SAEs were reported
from his site.
For 11 of 24 enrolled subjects, Day 1 physical examinations and clinical
assessments were either not recorded or could not be verified due to missing
charts.
Documentation of medical oversight was inadequate. Potential AEs were
not reviewed or evaluated by a study physician; 1 subject who received 2
pre-surgery doses of enoxparin/placebo injections due to surgery
rescheduling, had suctioning of blood from the nasal cavity, 2 subjects had
elevated BP on 5 occasions without Rx or recorded as AEs.
5 subjects had informed consent granted by a “witness” rather than by the
subject.
The consent process was not documented in the medical charts for any of the
subjects enrolled.
Source documentation was found to be deficient for all subjects: postdischarge PEs/CAs were not captured on the SDW; much of the information
captured on the SDW had not signatures/initials/dates; information appeared
to be transcribed for the medical record to the SDW, but many discrepancies
were noted; central lab results were not reviewed in a timely fashion;
screening ECGs were not reviewed by an MD until after randomization.
37 unreported AEs in 16 subjects. Examples include hypertension, nasal
bleeding during surgery, edema, mental confusion.
1 medical record could not be located
4 of 6 women of child bearing potential did not have pregnancy tests
performed prior to enrollment in the trial.
30 of 35 subject audited had discrepancies between eCRF and medical chart
information. Examples include surgery start/stop times, concomitant
medications, blood transfusion and venography absent from source records,

 (b) (4)

Page 56

CI
Location
Site Number

RECORD 3
Brabants
Belgium
28015

Reference ID: 2951276

Compliance Review of
Audits
NDA 22-406, Xarelto

DSI Site
Data
Reliable
Overall
Y/N

Y

Study Monitor
Failure
Significant
(Impacts
primary
efficacy or
safety)

Y

(b) (4)

Bayer
or
(b) (4)

M

N

Impacts
primary
efficacy
=E
Safety =
S
B=
Both
B

M

N

S

M

N

B

M

N

E

m

N

E

m

N

S

C

Y

E

C

Y

B

Rating
C=Critical
M=Major
m=minor

missed?
Y/N
?=cannot
asses

Detail*

Deficiencies were noted pertaining to source documentation including:
failure to document hx of alcohol abuse; PCA not listed as concomitant
medications; copies of venography films sent to the adjudication committee
were not kept for 13 of the 84 subjects at the site.
There wers 18 unreported AEs in 14 subjects of 35 audited, including
hypertension and dyspnea.
4 subjects had study conduct issues identified: Discontinuation of
enoxaparin/placebo 1 day late; receipt of contraindicated medication
Fragmin; failure to provide clinical evaluation of lipase = 86; placement of
spinal needle/epidural catheter 2 hours early in 2 subjects
Source documentation of study drug administration and blood sampling
times were listed as occurring at the same time for 12 of 35 subjects audited
Investigational product documentation was found to be deficient in 8 of 35
subjects audited regarding doses expected vs actually returned. Compliance
was not outside the 80 – 120% allowed per protocol.
24 of 35 subjects audited did not have documentation of the informed
consent process in the source records
Exact time of study drug administration was rarely recorded on the
inpatient medication administration records for any of the 27 subjects –
only on grid with 0800, 1200, 1600, and 2000 grids.
Times of study drug administration frequently do not match the times
noted on the inpatient medication administration sheet.
Study coordinator was unable to define a consistent primary source for
many of the data points, including drug dosing, surgery start/stop times,
and laboratory draw times.
PCAs were not verifiable in medical records
Significant portions of source records were missing for 4 subjects.
The start times of multiple activities were noted as occurring
simultaneiously or at overlapping times in the source. Examples: oral &
injectable IP; venography & lab draws.

 (b) (4)

Page 57

CI
Location
Site Number

Compliance Review of
Audits
NDA 22-406, Xarelto

DSI Site
Data
Reliable
Overall
Y/N

Paulsson
Sweden
34003

N

Synder
Poland
518008

Y

Reference ID: 2951276

Study Monitor
Failure
Significant
(Impacts
primary
efficacy or
safety)

N

N

(b) (4)

Bayer
or
(b) (4)

M

Y

Impacts
primary
efficacy
=E
Safety =
S
B=
Both
B

M

Y

S

M

Y

E

M

?

S

M

Y

S

M

N

S

m

N

S

C

N

E

M

N

E

M

N

S

Rating
C=Critical
M=Major
m=minor

missed?
Y/N
?=cannot
asses

Detail*

Documentation of PI oversight and delegation of study conduct was
deficient
Documentation of medical oversight by the study was inadequate: source
documentation of AEs and DVTs was missing qualifying data (stop
date/time, severity, relationship, and outcome) and there were 36 unreported
AEs in 20 subjects of 27 audited. Example = leg hematoma.
Documentation of investigational product accountability and storage
conditions during the inpatient phase of the study was inadequate.
Drug accountability logs provided by Bayer were not used by the study
coordinator to record drug accountability.
Temperature in study drug storage area was monitored weekly, not
daily.
In 9 of 27 subjects, screening procedures were conducted prior to written
consent or outside of study-proscribed windows, including screening ECGs
and laboratory studies
6 subjects had significant protocol deviations, including receiving study drug
tablet and injection and Fraxiparine, study drug injection fewer than 12
hours and 10 hours after surgery in 2 subjects, first dose given 1.5 hours
after surgery (not 6-8 hours after)
1 unreported AE in 19 subjects: constipation
5 subjects had source document deficiencies regarding 7 AEs: 1 subject
relationship and severity in eCRF not source; 6 AEs were in eCRF not
source
All subjects received 1 or more doses of study medication outside the
protocol-specified window (10 subejcts-1 dose, 9 subjects-2 doses). Time
outside dosing interval ranged from approximately 2 to 5 hours
6 subjects of 19 had discrepancies between eCRF and source documentation,
including laboratory draw date, whether a dose of study medication was
given, injection time.
5 subjects of 19 had missing or incorrect PI signature and/or dates on lab
reports

 (b) (4)

Page 58

CI
Location
Site Number

RECORD 4
Dessouki
Canada
26016

Reference ID: 2951276

Compliance Review of
Audits
NDA 22-406, Xarelto

DSI Site
Data
Reliable
Overall
Y/N

Y

Study Monitor
Failure
Significant
(Impacts
primary
efficacy or
safety)

N

(
b

Bayer
or
(b) (4)

M

N

Impacts
primary
efficacy
=E
Safety =
S
B=
Both
B

m

N

B

C

?

S

M

N

S

M

Y

B

M

N

B

M

N

B

M

N

S

M

N

S

Rating
C=Critical
M=Major
m=minor

missed?
Y/N
?=cannot
asses

Detail*

1 subject had an illegible time of transfusion on the source documented
corrected by the monitor
Correction fluid and pencils were used on the records of 1 and 2 subjects
respectively and all subjects had sticky notes used as source documentation
for vital signs.
1 subject was hospitalized for acute cholecystitis and subsequent
cholecystectomy; no SAE was reported to the sponsor or REB.
1 subject had ALT = 182 on Day 13 (4x ULN). Retesting not done until 1
month later, no monitoring as specified in the protocol. PI documented this
value as “NCS”
Deficiencies in documentation were noted including: approximately 75% of
subjects had an alteration in the time stamp on original ECGs; 3 subjects had
no documentation in source that subjects had stopped Metformin 2 days
prior to venography and restarted at the earliest, 2 days after venography;
most vital signs were not taken in the supine position after 5 minutes rest, as
specified in the protocol; approximately 75% of the subjects audited had an
AE of “post-op nausea” recorded due to receiving Gravol prophylactically,
despite no source record indication of nausea; a local lab CBC including
INR was obtained at Day 13 for one subject, which may result in unblinding.
7 subject records were apparently backdated by the PI (lab reports, ECG,
SDW worksheet).
There were discrepancies between eCRF and source documentation for 7
subjects. Examples include for qualifying information for 2 AEs, ECG
recorded as normal on eCRF but ECG itself read as atrial premature
complex, right axis deviation, RBBB, and old inferior MI
There were 18 unreported AEs in 15 of the 35 audited subjects. Examples
include shaking with fever &hallucinations, drug-induced pancreatitis,
elevated GGT = 275, ARI, decreased platelets, NA = 119 with K = 2.5,
irregular HR, Tx 2 U PRBCs, burning calf
There was no documentation that the 3 SAEs initially identified by the site

 (b) (4)

Page 59

CI
Location
Site Number

Hollman
U.S.A, Florida
14023

Jove
U.S.A,
Georgia
14016

Reference ID: 2951276

Compliance Review of
Audits
NDA 22-406, Xarelto

DSI Site
Data
Reliable
Overall
Y/N

Y

Y

Study Monitor
Failure
Significant
(Impacts
primary
efficacy or
safety)

N

N

(b) (4)

Bayer
or
(b) (4)
missed?
Y/N
?=cannot
asses

Impacts
primary
efficacy
=E
Safety =
S
B=
Both

m

N

B

m

N

E

M

Y

S

m

Y

E

m

Y (CAD)

S

m

Y

E

C

Y

S

M

Y

E

M

N

S

M

N

B

Rating
C=Critical
M=Major
m=minor

Detail*

and reported to the sponsor were reported to the REB.
No evidence that sub-investigators or study coordinators had been trained on
their study-related duties
18 of 35 subjects audited were randomized on the day of surgery. It was not
possible from the data at the site to determine whether randomization
occurred postoperatively
6 of 35 subjects audited had unreported AEs including leg muscle spasm,
rash on buttocks
Protocol violations were noted in 4 of 35 subjects audited including 1
subject randomized postoperatively
Discrepancies were noted between source documentation and eCRFs for 8
subjects. 1 subject who refused a venogram on Day 13 and “withdrew
consent for the study” per 2 site emails; however, the subject was not
withdrawn from the study and continued study-related blood draws through
day 42. 1 subject had coronary artery disease noted in the medical history
but not recorded on the eCRF.
34 of 35 subjects were randomized on the day of surgery. Data at the site
did not allow determination of which subjects were randomized
postoperatively.
1 subject was enrolled despite evidence of current EtOH abuse and elevated
GGT at screening (1499)
Discrepancies were noted between eCRF and medical charts for 26/39
subjects audited. Examples include 1 dose of enoxaparin/placebo recorded
in medical record not eCRF, discrepant drain volumes, discrepant vital
signs, onset dates of AEs.
For 2 of 4 SAEs that occurred in this audit sample, it could not be
determined whether or not the SAE was reported to the sponsor within 24
hours.
Data were not captured according to site practices: eCRF start and/or stop
times of surgery are inconsistent with the site’s practice of using operative
start/stop times (2 subjects); intraoperative blood loss in eCRF is

 (b) (4)

Page 60

CI
Location
Site Number

Kilgore
U.S.A.,
Florida
14034

Mody
India

Reference ID: 2951276

Compliance Review of
Audits
NDA 22-406, Xarelto

DSI Site
Data
Reliable
Overall
Y/N

Y

N

Study Monitor
Failure
Significant
(Impacts
primary
efficacy or
safety)

N

Y

(b) (4)

Rating
C=Critical
M=Major
m=minor

Bayer or
(
b

missed?
Y/N
?=cannot
asses

Impacts
primary
efficacy
=E
Safety =
S
B=
Both

M

Y

S

M

N

S

m

N

B

C

Y

S

C

Y

B

M

N

S

M

N

S

M

N

S

M

N

E

C

Y

S

Detail*

inconsistent with the site’s practice of using the intraoperative report to
obtain blood loss (10 subjects); blood transfusion start times in eCRF are
inconsistent with the site’s practice of using the time pasted into the medical
chart (3 subjects)
33 AEs in 13 of 39 subjects audited had unreported AEs. Examples include
fever, hypotension, UTI.
Drainage volumes in electronic nursing assessment system were difficult to
reconcile with drain volumes in the eCRF.
Training was not documented for any of the subinvestigators listed on the
Form 1572 and Delegation Log.
25 of 35 subjects audited had 29 unreported AEs. Examples include SOB,
elevated AST/ALT/GGT/alkaline phosphatase
9 of the 35 subjects audited had protocol deviations detected. Examples
include 6 study visits occurring 3 days out of window, screening ECG done
prior to signing of informed consent, failure of PI to sign abnormal lab
report (BUN, ALT, & LD).
4 of the 35 subjects audited had deficiencies in source documents, including
failure of the PI to assess abnormal lab values and ECGs.
The 4 SAEs that occurred at this site were not submitted to the sponsor or
IRB within 24 hours of the site becoming aware of the SAE. Reports to the
sponsor were made 3, 9, 11, and 14 days after site became aware.
17 screening ECGs were not dated by the PI to document prerandomization
review.
9 original ECG tracings were not on file and for 8/9 subjects, the photocopy
was not signed and dated.
Subjects were “generally” randomized on the day of surgery; neither the
IVRS acknowledgement nor the source document list the time of
randomization so that preoperative randomization cannot be assured.
Site safety reporting practices were deficient:
There were 47 unreported AEs in 21 of 35 subject audited. Examples: chest

 (b) (4)

Page 61

CI
Location
Site Number

Compliance Review of
Audits
NDA 22-406, Xarelto

DSI Site
Data
Reliable
Overall
Y/N

Study Monitor
Failure
Significant
(Impacts
primary
efficacy or
safety)

(b) (4)

Rating
C=Critical
M=Major
m=minor

Bayer
or
(b) (4)
missed?
Y/N
?=cannot
asses

Impacts
primary
efficacy
=E
Safety =
S
B=
Both

60010

Reference ID: 2951276

C

Y

S

M

Y

E

M

Y

S

m

Y

S

M

Y

S

m

Y

B

m

Y

B

m

Y

E

m

Y

B

Detail*

pain/breathing difficulties, Tx 2U PRBCs, fever, hypertension, elevated
amylase= 711
No source documentation for AE or Bleeding Event qualifying data.
There were 3 unreported SAEs: chest infection requiring hospitalization;
bedsore requiring hospitalization; hypotension & SOB requiring transfer.
The EC used by the PI was formed at his request, the EC address is the
PI’s clinic, members include the PI, his wife and secretary, and the EC
was not trained.
Study drug was not stored in permissible temperature range of 15-30oC
for 19 consecutive days, dropping to 10.2oC each day.
For 25 of 35 audited subjects, review of study documents was either not
done or not done in a timely manner. This includes Progress Notes, lab
reports, and ECGs
For 17 of 35 subjects, pre-study and/or concomitant medications were not
recorded in the eCRF; most were Jonac suppository
For 12 of 25 subjects medical histories/conditions were not recorded in the
eCRF or were documented in the CRF but not in the source documents.
Examples include medication allergies, hypertension, diabetes, and
bronchospasm.
There were discrepancies between the eCRF and site source documentation,
including concomitant medications and ECGs interpreted as
“Normal/Normal Variant” with the source document ECGs demonstrating
abnormalities such as T wave depression, LBBB, and anterior wall ischemia.
Site source documents were deficient in content, missing and/or conflicting
with other source documents. This included use of inappropriate correction
medium and time of lab collection
For 34 of the 35 audited subjects who were randomized on the day of
surgery, it could not be determined whether subjects were randomized
postoperatively.
For 7 of the 35 audited subjects, there was no evidence of one (7 subjects) or
2 (2 subjects) protocol-required physical examinations.

 (b) (4)

Page 62

Compliance Review of
Audits
NDA 22-406, Xarelto

CI
Location
Site Number

DSI Site
Data
Reliable
Overall
Y/N

Study Monitor
Failure
Significant
(Impacts
primary
efficacy or
safety)

Reddy
India
60001

Y

N

Reference ID: 2951276

(b) (4)

Bayer
or
(b) (4)

C

Y

Impacts
primary
efficacy
=E
Safety =
S
B=
Both
S

M

N

B

M

N

E

m

N

E

m

Y

B

m

N

B

m

N

B

Rating
C=Critical
M=Major
m=minor

missed?
Y/N
?=cannot
asses

Detail*

There were 3 unreported SAEs from this site: adenocarcinoma of the
prostate; pyrexia requiring hospitalization, hospitalization for more than 12
hours for catheterization.
There were 47 unreported AEs in 21 of 40 audited subjects. Examples
include fever, elevated bilirubin. LBBB, decreased platelets, elevated ALT.
There were discrepancies between source documentation and eCRF for AE
start and stop dates and time.
Inconsistencies in the level of source documentation for AE or Bleeding
Event qualifying data.
There were discrepancies between the eCRF and site source documentation
for 32 of 40 subjects audited. Examples include time of venography, blood
transfusions not recorded on the eCRF, time of study drug administration,
and differences in vital signs.
12 of 40 subjects audited were randomized postoperatively; deviation forms
were present for 11 of the 12 subjects. For 7 additional subjects randomized
on the day of surgery, it could not be determined whether randomization
occurred postoperatively.
Drug accountability procedures were inadequate and/or records were
incomplete and/or discrepant with other subject source documentation in 8
of 40 subjects audited. Examples include discrepancies in whether a dose of
study drug was administered and discrepancies in numbers of study drug
doses returned.
Pre-study medical histories/conditions were not recorded in the eCRF for 6
of 40 subjects audited. Examples include hx of TKA and drug allergies.
Source documents were deficient in content, missing, and/or conflicting with
other documents. For all audited subjects, inappropriate correction
techniqes were noted. For the majority of subjects, the study staff did not
date signatures. Several subject records contained ECG thermal printouts
which were faded such that they were illegible with no photocopies.
Clinician review of study documents (progress notes, lab reports, ECG
tracings) was untimely and/or missing for all 40 subjects. Clinical

 (b) (4)

Page 63

Compliance Review of
Audits
NDA 22-406, Xarelto

CI
Location
Site Number

DSI Site
Data
Reliable
Overall
Y/N

Study Monitor
Failure
Significant
(Impacts
primary
efficacy or
safety)

Sepulveda
Mexico
32002

N

N

Reference ID: 2951276

(b) (4)

Bayer
or
(b) (4)
missed?
Y/N
?=cannot
asses

Impacts
primary
efficacy
=E
Safety =
S
B=
Both

C

N

B

C

N

S

M

Y

B

M

N

E

M

N

E

M

N

S

M

N

B

m

N

E

m

N

B

Rating
C=Critical
M=Major
m=minor

Detail*

assessment of all abnormal local lab results could not be determined.
The medical records of 10 subjects were missing from the site. Nursing
notes, which include dosing entries, were missing for an additional 7
subjects.
1 of 33 subjects audited had only a blank, unsigned consent form in the
study chart; this was one of the missing medical charts.
There were discrepancies between eCRF entries and medical chart
information for 20 of the 33 subjects audited. Examples include surgery
start and stop times, intraoperative blood loss, and venography date and
time. For 1 subject a dosing worksheet was on file documenting some
injection doses, but no tablets; no dosing data is entered in the eCRF.
Differences were noted in number of tablets/injections returned vs number
that should have been returned for 19 of 33 subjects audited. However,
compliance was not outside the 80-100% allowed per protocol.
15 of the 33 subjects audited had source vs eCRF discrepancies
pertaining to study drug administration noted, ranging from 1 to all
doses, most = 2-3 doses.
Source documentation of AEs was inconsistent with eCRF entries or was
missing qualifying data, including start and stop dates.
There were 13 unreported AEs in 25 of 33 audited subjects. Examples
include: edema, hematoma, wound infection, ALT/AST > 3X ULN.
There were source documentation deficiencies and discrepancies relative to
laboratory reports and other study procedures in 15 of 33 audited subjects.
These include PI failure to review labs in a timely manner, failure of PI to
sign/date lab reports, dating discrepancies, illegible ECGs on thermal paper.
In addition, 1 subject withdrew consent after surgery; but per the eCRF,
study procedures were performed through Visit 2/Day 1.
For 9 of 33 subjects audited who were randomized on the day of surgery, it
could not be determined from data at the site whether randomization
occurred postoperatively.
For 9 of the 33 subjects audited, medical history items were not recorded on

 (b) (4)

Page 64

CI
Location
Site Number

H. Shah
India
60004

Reference ID: 2951276

Compliance Review of
Audits
NDA 22-406, Xarelto

DSI Site
Data
Reliable
Overall
Y/N

Y

Study Monitor
Failure
Significant
(Impacts
primary
efficacy or
safety)

N

(b) (4)

Rating
C=Critical
M=Major
m=minor

Bayer
or
(b) (4)
missed?
Y/N
?=cannot
asses

Impacts
primary
efficacy
=E
Safety =
S
B=
Both

M

Y

B

M

N

S

M
M

N
N

E
B

M

N

B

M

N

B

M

N

B

m

Y

B

m

Y

B

m

Y

B

Detail*

the CRF. Examples include “cardiopathy”, penicillin allergy, and knee
replacement.
For 17 of 25 subjects use of one or more pre-study medication and/or
concomitant medications were not recorded in the eCRF.
Site safety reporting practices were deficient.
There were 44 unreported AEs in 19 of 25 subjects at the site. Examples
include probable LVH, possible MI, pitting edema, neutropenia, irregular
heart beat.
No source documentation for AE or Bleeding Event qualifying dat
1 subject was randomized postoperatively
No source documentation of protocol-required clinical VTE assessments by
study staff for Visits 2, 3, 4, 5, and/or 6 for 11 of 25 subjects.
No source documentation of protocol-required physical examinations by
study staff for specific visit days (ranging from 1 to 4 visits) for 13 of 25
subjects.
PI review of study documents, including progress notes, laboratory reports,
ECG tracings was untimely and/or missing for 20 of 25 subjects.
Study related procedures, assessments, and examinations were performed by
2 personnel not included on the Delegation of Duties Log. The ECGs were
performed by an individual with no medical or scientific background and no
documentation of training in ECG performance.
Protocol Amendment 1 was submitted to the EC, but no approval letter is on
file.
Pre-study medical conditions/histories were not recorded in the eCRF for 11
of the 25 subjects. Examples include allergic bronchitis, hypertension, drug
allergy, and knee replacement.
There were discrepancies between the eCRF and site source documentation.
Examples include time of venography, date of study visits, discharge date,
time of outpatient study drug administration.
Site source documents were missing or deficient.
For all subjects, inappropriate correction techniques were used.

 (b) (4)

Page 65

CI
Location
Site Number

V. Shah
India
60006

Reference ID: 2951276

Compliance Review of
Audits
NDA 22-406, Xarelto

DSI Site
Data
Reliable
Overall
Y/N

N

Study Monitor
Failure
Significant
(Impacts
primary
efficacy or
safety)

N

(b) (4)

Rating
C=Critical
M=Major
m=minor

Bayer
or
(b) (4)
missed?
Y/N
?=cannot
asses

Impacts
primary
efficacy
=E
Safety =
S
B=
Both

m

N

S

m

N

E

M

N

S

M

Y

S

M

N

E

M

Y

B

M

N

E

Detail*

For 18 of 25 subjects, source documentation was missing from subjects’
hospital records, including Clinic First Consultation report, laboratory
reports, randomization fax, and ECG tracing.
4 subjects were randomized prior to documented clinical review of screening
laboratory reports and/or ECG tracings.
4 subjects were randomized on the day of surgery; based on site records, it
could not be determined whether they were randomized postoperatively.
According to the documented screening visit summary, a
subinvestigator used language during the informed consent process
which appears to be coercive. Documented language used includes
“that the study drug was completely safe, that it was the best treatment
currently available, that risks were minimal (same as any other
surgery).
Site safety reporting practices were deficient.
There were 36 unreported AEs in 17 of 35 subjects audited at the site.
Examples include fever, LE swelling, elevated ALT > 3X ULN.
No source documentation for AE or Bleeding Event qualifying data such as
seriousness, action taken with study drug, treatment severity, and
relatedness.
For 7 subjects there were discrepancies between the source documentation
and the eCRF regarding AE start/stop dates, action taken, etc.
There were data discrepancies between the eCRF and site source
documentation, including for study drug administration for 26 of 35
subjects audited (25 instance of discrepancies for study drug
administration).
For 3 subjects, source documentation and eCRF entries were changed
months after an event, sometimes in response to a query from data
management.
Clinician review and/or completion of study documents (for example,
progress notes, lab reports, ECG tracings) was untimely and/or missing.
Coagulation parameter testing was done locally for 2 subjects, potentially

 (b) (4)

Page 66

CI
Location
Site Number

Compliance Review of
Audits
NDA 22-406, Xarelto

DSI Site
Data
Reliable
Overall
Y/N

Study Monitor
Failure
Significant
(Impacts
primary
efficacy or
safety)

(b) (4)

Bayer
or
(b) (4)
missed?
Y/N
?=cannot
asses

Impacts
primary
efficacy
=E
Safety =
S
B=
Both

m

N

E

m

N

B

m

N

B

m

Y

E

Rating
C=Critical
M=Major
m=minor

Detail*

resulting in unblinding.
Drug accountability procedures were inadequate and/or records were
incomplete or discrepant with other subject source documentation.
For 4 subjects expected versus returned study drug was discrepant, but did
not fall outside the 80-100% allowed per protocol.
c
There was missing source documentation for 1-6 days of study
medication for 8 of 35 subjects.
Pre-study medical histories or conditions were not recorded in the eCRF for
22 of 35 subjects. Examples include knee replacement, osteoarthritis.
For all subjects, inappropriate correction techniques were used in
hospital records.
4 of 25 subjects had source documentation missing from the hospital chart,
including copy of venography, central lab reports.
For 12 of 35 subjects, protocol violations were noted, including study
medication given 5 minutes to 8 hours 42 minutes outside the window; 10 of
12 instances were less than an hour.

Bold = Finding impacting on the primary safety or efficacy outcome which results in inability to validate data from the site.
a
Evaluation of data submitted by Johnson & Johnson resulted in assessment of data from this site as acceptable; see Section III.
b
Evaluation of data submitted by Johnson & Johnson resulted in assessment of data from 4 of the 10 subjects in question at this site as acceptable; see Section III. Data is still considered unreliable.
c
Evaluation of data submitted by Johnson & Johnson resulted in assessment of data from 1 of the 8 subjects in question at this site as acceptable; see Section III. Data is still considered unreliable.

APPENDIX 2

SUMMARY TABLE: DSI Analysis of Johnson & Johnson Response to August 2, 2010 Information Request
Study Site
J&J Response/Finding
DSI Assessment of J&J Response/Finding
Lenart, RECORD 1, Site 46002, Hungary:
Study drug was prescribed by the PI on the “Fever sheet.” Initials on Although some initials are noted on the “Fever sheet”, the
day/date and time of drug administration are not noted.
Study coordinators used logs to document drug Fever sheet indicate medication administration. 35 subject

Reference ID: 2951276

 Page 67

(b) (4)

Compliance Review of
Audits
NDA 22-406, Xarelto

accountability and dosing for all subjects, but
entries in the logs were not signed and
dated/initialed; medications and infusions
administered to the study subjects were
recorded inconsistently; no documentation of
subject training on injection techniques, dosing
instructions, proper storage of study drug.

medication administration records (Fever sheets) were inspected, and
of these 28 were initialed twice, 3 were initialed once, and 4 were
not initialed. Training on injection technique/dosing/storage was
routinely done verbally and documentation regarding this was not
available.

Although the Study Coordinator’s notebook containing
information regarding study drug dispensation is
supportive,
this document is not a source document. The
(b) (4)
finding that study drug accountability and dosing
log entries for all subjects were not signed and
dated/initialed and that medication administration were
recorded inconsistently is unchanged.

Porvaneckas, RECORD 1, Site 57001 Brazil:
Study drug administration times were exactly
the same of each of the 34 subjects audited;
exact dosing times were not documented.

The logs for randomly selected patients confirmed the dose of
investigational medicinal product (IMP), route of dispensing, and
required time of dispensing by the physician. These entries were
initialed by the physician and the nurse.

Schwartsmann, RECORD 1, Site 50006: For
all 35 subjects audited, documentation of study
drug administration during the inpatient phase
is captured only on progress notes as
“administered dose of study 11354 medication
per protocol at XXX [time]”. It is not clear
whether the tablet or syringe were
administered, or both. In addition, 8 of 35
subjects audited lacked documentation of a
single dose of study drug; 1 additional subject
lacked documentation for Days 1-6.

Study drug administration during hospitalization was documented on
the source data worksheet either by the study coordinator or by the
study nurse, and entries were signed and dated. These data entries
were identified and the appropriate source documents obtained.

The nurse’s initials are not accompanied by dates/times.
The sponsor submitted the Hospital Operating Procedures
which state that a nurse must make a notation if the
medication is given more than 5 minutes for injection or
7 minutes for oral outside the prescribed window. Since
there is no other source to verify that
the medication was
(b) (4)
given at the prescribed time, the
finding is
unchanged.
The evidence submitted by the sponsor is sufficient to
ensure that drug administration was appropriately
documented.

Slappendel, RECORD 1, Site 30002,
Netherlands: 10 of 35 subjects audited had
drug accountability records which were
incomplete and/or discrepant with other subject
source documentation. In addition, no source
documentation to support the date and time of
the preoperative self administered injection of
enoxaparin/placebo by the subjects or the date
and time of the last outpatient dosing for all
subjects.

Alternate source documents were identified to address drug
accountability and outpatient dosing.

Reference ID: 2951276

The additional information provided was adequate to
provide evidence of drug administration for four subjects
300024054-153563, 300024054-153565, 300024059153618, and 300024021-150856. However, the evidence
presented for the remaining six subjects is not considered
adequate.

 Page 68

(b) (4)

Compliance Review of
Audits
NDA 22-406, Xarelto

Nafarrete, RECORD 2, Site 32005, Mexico:
Study drug administration times were exactly
the same for each subject for all subjects
audited; exact times could not be documented.

Study drug administration is documented in the nurse’s notes which
are part of the medical charts indicating 8:00, 14:00, or 20:00, but
not the exact time. This is routine practice in this hospital but not
documented as such in a hospital policy.

No additional information was provided to provide
reassurance of drug administration. No change in
conclusions.

Ono, RECORD 2, Site 50005, Brazil:
Documentation of study drug administration
during the inpatient phase of the study was
missing or deficient: 8 subject records
contained very few notations that the study
drug had been given, and the remaining 16
records contained none. Doses of study
medication documented only on the SDW were
not signed/initialed or dated, so it is unclear
whether they are primary source entries.

Source documentation to support dosing of study drug for multiple
subjects was identified and provided source data worksheets.

The entries on the source data worksheets were not
routinely singed and dated. Therefore, they cannot be
considered to be evidence of drug administration.

Brabants, RECORD 3, Site 28015, Belgium:
The exact time of drug administration was
rarely recorded on the inpatient medication
administration for any of the 27 subjects – the
times were recorded only on a grid with times
of 0800, 1200, 1600, and 2000. Times of study
drug administration frequently do not match the
times noted on the inpatient medication
administration sheets. In addition, the drug
accountability logs provided by Bayer were not
used by the study coordinator to record drug
accountability. In addition, the study
coordinator was unable to define a consistent
primary source for many of the data points,
including drug dosing, surgery start/times, and
laboratory draw times. Please provide this
information, if available.

No additional data were available.

No change in conclusions.

V. Shah, RECORD 4, Site 60006, India:
Source documentation for 16 days of study
drug medication was missing for 8 of 35
subjects.

Additional source documents supporting study drug administration
were obtained from study drug dispensing logs, hospital file
treatment sheets, nurse’s notes, study coordinator’s notes and post
operative orders.

The additional information provided for the eight
subjects is considered adequate for one subject.
However, most or all of the information for the
remaining 7 subjects in question did not provide
documentation of most or all drug dispensation doses.

Reference ID: 2951276

  (4)

Page 69 Compliance Review of Audits

NDA 22-406, Xarelto

Reference ID: 2951276

--------------------------------------------------------------------------------------------------------This is a representation of an electronic record that was signed
electronically and this page is the manifestation of the electronic
signature.
--------------------------------------------------------------------------------------------------------/s/
---------------------------------------------------SUSAN D THOMPSON
05/24/2011
TEJASHRI S PUROHIT-SHETH
05/25/2011

Reference ID: 2951276

 Executive CAC
Date of Meeting: April 15, 2011
Committee:

David Jacobson-Kram, Ph.D., OND-IO, Chair
Abigail Jacobs, Ph.D., OND -IO, Member
Paul Brown, Ph.D., OND-IO, Member
Karen Davis Bruno, Ph.D., DMEP, Alternate Member
Thomas Papoian, Ph.D., DCRP, Supervisor
Patricia Harlow, Ph.D., DCRP, Reviewer

Presenting Reviewer and Author of Draft: Patricia Harlow, Ph.D.
The following information reflects a brief summary of the Committee discussion and its
recommendations.
NDAs: 202-439, 22-406
Drug Name: Rivaroxaban (BAY 59-7939)
Sponsor: Ortho McNeil Janssen Pharmaceuticals Inc
Background:
Rivaroxaban is a direct Factor Xa inhibitor. In the Phase 3 trial for prevention of stroke
in patients with non-valvular atrial fibrillation, the maximum daily dose was 20 mg.
Rat Carcinogenicity Study:
In a 104-week study using 50 Wistar rats/sex/group, daily doses of 0, 10, 20, and 60
mg/kg/day of rivaroxaban in ethanol/solutol HS/tap water (10/40/50 v/v) were
administered by oral gavage. The exposures in the high dose males and females were 6.2
and 14.6 fold, respectively, the mean human exposure in subjects receiving 20 mg.
No significant treatment-related effect was observed on mortality, bodyweight gain, and
food consumption. Although only slight effects were observed on red cell parameters on
Days 184, 366, 548, and 716 , the mean values for thromboplastin time for all treated
groups on all sampling days were significantly greater (up to 1.9 and 2.5-fold in males
and females, respectively) than those for the control groups. Likewise, the incidence of
pigment deposition increased in some organs and across all organs in the high dose groups
consistent with the pharmacodynamic action of BAY 59-7939. However, the incidence of
valvular fibrosis in the heart increased with dose in both males and females with the
incidence in females statistically significant (p = 0.0048).
The incidences of a few tumors, including squamous cell carcinoma of the clitoral glands,
adrenal cortical adenoma, adrenal pheochromocytoma, mammary fibroadenoma, histocytic
sarcoma, and skin fibroma, were numerically increased in the higher dose groups compared
to those in the control groups. However, the incidences were within historical ranges, and the
attained p values do not reach the thresholds to classify these tumors as drug-related
according to the CDER statistical criteria.
Mouse Carcinogenicity Study:
In a 104-week study using 60 CD-1 mice/sex/group, daily doses of 0, 10, 20, and 60

Reference ID: 2934522

 mg/kg/day of rivaroxaban in ethanol/solutol HS/tap water (10/40/50 v/v) were
administered by oral gavage. The exposures in the high dose males and females were 0.8
and 0.9 fold, respectively, the mean human exposure in subjects receiving 20 mg.
No significant treatment-related effect was observed on mortality, bodyweight gain or
food consumption. At study end, slight decreases in hemoglobin concentration and
hematocrit, slightly prolonged thromboplastin times, and increased incidences of
microscopic pigment deposits were consistent with the pharmacodynamic action of
rivaroxaban.
Consistent with the increase in liver nodules macroscopically, hepatocellular tumors
(adenoma and carcinoma) increased with rivaroxaban dosage in the males, but not in the
females. However, the incidences of hepatocellular tumors were within historical ranges,
and the attained p values do not reach the thresholds to classify these tumors as drugrelated.. Similarly, the incidences of a few other tumors, including histiocytic sarcoma,
malignant lymphoma, ovarian cystadenoma, uterine hemangiosarcoma, and testicular Leydig
cell tumors, were numerically increased in the higher dose groups compared to those in the
control groups. However, the incidences were within historical ranges, and the attained p
values do not reach the thresholds to classify these tumors as drug-related.
Executive CAC Recommendations and Conclusions:
Rat:
The Committee concurred that the study was adequate, noting prior Exec CAC
concurrence with the protocol.
The Committee concurred that there were no clearly drug-related neoplasms.
Mouse:
The Committee concurred that the study was adequate, noting prior Exec CAC
concurrence with the protocol.
The Committee concurred that there were no clearly drug-related neoplasms.

David Jacobson-Kram, Ph.D.
Chair, Executive CAC
cc:\
/Division File, DCRP
/T. Papoian, Team leader, DCRP
/P. Harlow, Reviewer, DCRP
/A. Blaus, CSO/PM, DCRP
/A.Seifried, OND-IO

Reference ID: 2934522

 --------------------------------------------------------------------------------------------------------This is a representation of an electronic record that was signed
electronically and this page is the manifestation of the electronic
signature.
--------------------------------------------------------------------------------------------------------/s/
---------------------------------------------------ADELE S SEIFRIED
04/18/2011
DAVID JACOBSON KRAM
04/18/2011

Reference ID: 2934522

 MEMORANDUM

DEPARTMENT OF HEALTH AND HUMAN SERVICES
PUBLIC HEALTH SERVICE
FOOD AND DRUG ADMINISTRATION
CENTER FOR DRUG EVALUATION AND RESEARCH
___________________________________________________________________________________________

CLINICAL INSPECTION SUMMARY ADDENDUM
DATE:

May 15, 2009

TO:

Marcus Cato, Regulatory Project Manager
Min Lu, Medical Officer
Division of Medical Imaging and Hematology Products

FROM:

Susan D. Thompson, M.D.
Good Clinical Practice Branch 2
Division of Scientific Investigations

THROUGH:

Tejashri Purohit-Sheth, M.D.
Branch Chief, Good Clinical Practice Branch 2
Division of Scientific Investigations

SUBJECT:

Evaluation of Clinical Inspections.

NDA:

22-406

APPLICANT:

Johnson & Johnson

DRUG:

Xarelto (rivaroxaban)

NME:

Yes

THERAPEUTIC CLASSIFICATION:
INDICATIONS:

Standard Review

Prophylaxis of deep vein thrombosis and pulmonary embolism in
patients undergoing hip or knee replacement surgery

CONSULTATION REQUEST DATE: April 28, 2009
DIVISION ACTION GOAL DATE: May 13, 2009 for CR letter
PDUFA DATE: May 28, 2009

 I. BACKGROUND:

Rivaroxaban is a highly selective direct factor Xa inhibitor for oral administration.
Inhibition of produces antithrombotic effects by decreasing the ampli?ed generation of
thrombin, thus diminishing thrombin-mediated activation of both coagulation and platelets,
without affecting existing thrombin levels. The sponsor states that the remaining thrombin
should be suf?cient to ensru'e primary hemostasis, resulting in a favorable ef?cacy to safety
(bleeding) margin for rivaroxaban. The sponsor submits this NDA to support the use of
rivaroxaban for the indication of prophylaxis of deep vein thrombosis (DVT) and puhnonary
embolism (PE) in patients undergoing hip or knee replacement surgery.

Patients undergoing major orthopedic surgery, including total hip replacement (THR) and total
knee replacement (TKR) surgeries, are a group that is at a particularly high risk for venous
thromboembolism (VTE), which includes DVT and PE. Without prophylaxis, the incidence of
objectively con?rmed total DVT based on older studies is approximately 40 to 60% following
THR or TKR, with a 10-30% incidence of proximal DVT. The most appropriate strategy to
reduce the incidence of VTE is prophylaxis for all patients rmdergoing THR or TKR. Current
therapeutic agents available for anticoagulant prophylaxis include low molecular weight
heparins fondaparinux, and adjusted-dose vitamin antagonists such as warfarin.
The duration of therapy is at least 10 days for both THR and for patients undergoing
THR, extended prophylaxis to up to 35 days after sru'gery is recommended. and
fondaparinux are administered subcutaneously, which may be associated with pain and
bruising as well as poor compliance. Warfarin is the only available oral anticoagulant for VTE
prophylaxis after major orthopedic sru?gery in the US. However, warfarin has a narrow
therapeutic window, exhibits variable dose response, has many dietary and medicinal
interactions, requires dose adjustment, and has a slow onset of action. Rivaroxaban offers an
alternative oral prophylactic therapy for VTE.

IND 64,892 for rivaroxaban was submitted on May 29, 2002 for the treatment and secondary
prophylaxis of VTE by Bayer. All of the clinical trials submitted with the crurent NDA were
conducted by Bayer. Approximately one month prior to the submission of this NDA, Bayer
sold the rights of reference for use of the investigations to Johnson and Johnson. Johnson and
Johnson submitted NDA 22-406 as the applicant on July 28, 2008. Of note, both Bayer and
Johnson and Johnson submitted letters to the review division that the IND is now transferred to
Johnson and Johnson.

Dru?ing the conduct of the clinical studies for this NDA, complaints were received regarding
two investigators em'olling subjects, one in RECORD 2 and one in RECORD 4. (m4)

 

Brief synopses of the protocols which the review division requested to be inspected are given
below.

RECORD 1 Study: Regulation of Coagulation in Orthopedic Surgery to prevent DVT
and PE, controlled, double-blind, randomized study of BAY 59-7939 in the extended
prevention of VTE in patients undergoing elective total hip replacement (Protocol 1134)

RECORD 1 was a randomized, double-blind, double-dummy, active comparator controlled,
multi-center and multi-national trial in patients undergoing elective THR conducted between
February,  Subjects were enrolled at 218 centers in 27 countries. The
objective of the study was to assess the safety and e?icacy of rivaroxaban 10 my once daily
compared with once daily subcutaneously administered enoxaparin 40 mg in extended
prevention of VTE in men and women aged 18 years or above undergoing elective THA.
Administration of BAY 59-7939 or placebo started on the day of surgery (Day 1) 6 to 8 hours
after wound closure and thereafter once daily until Day 35 (the day before venography).
Enoxaparin 40 mg was administered once daily as a subcutaneous injection starting the
evening prior to surgery. Subsequently, enoxaparin or placebo was administered on the day of
surgery 6 to 8 hours a?er wound closure and thereafter once daily until Day 35. Subjects were
evaluated at Day 0, l, 7 2 days), 13 2 days), and 36 4 days) with a follow-up visit at
Day 65 Q5 days). On Day 0 prior to surgery, a physical examination was performed, and
medical history with demographics was recorded. Blood was sampled for clinical chemistry,
hematology, and coagulation parameters. An ECG was performed, and a urine pregnancy test
done for women of childbearing potential. On Day 1, blood samples for hematology and
clinical chemistry were taken after surgery but before study medication, and a physical
examination was performed. On Day 7, physical examination and blood sampling for
hematology and coagulation parameter were performed. On Day 13, physical examination and

blood sampling for hematology and clinical chemistry were performed. On Day 36, blood
samples for clinical chemistry, coagulation parameters, and hematology were taken, and
bilateral venography was performed. Adverse events will be recorded at each visit. On Day
65, adverse events, signs and diagnosis of VTE, and cardiovascular and bleeding events during
the 30 days after end of treatment will be recorded. Physical examinations were performed,
and a blood sample for clinical chemistry was taken.
The primary efficacy endpoint was a composite endpoint of:
• Any DVT (proximal and/or distal)
•

Non-fatal PE

• Death from all causes
The analysis of the primary efficacy endpoint was solely based on the assessments made by the
Venography and VTE Adjudication Committee. Secondary efficacy endpoints were major
VTE, incidence of DVT, incidence of symptomatic VTE, incidence of symptomatic VTE
during follow-up, “net clinical benefit”, incidence of the composite endpoint that results from
the primary endpoint by substituting VTE-related death for all death, and incidence of the
composite endpoint that results from major VTE by substituting all-cause mortality for VTErelated death. The main safety endpoint was the incidence of treatment-emergent major
bleeding observed not later than 2 days after last intake of study drug. Major bleeding
occurring after this period was considered separately. Also included as safety variables were
treatment-emergent adverse events, serious adverse events, and deaths; adverse events starting
more than 2 days after stop of treatment, adjudicated cardiovascular events, incidence of
prolonged hospitalization, transfusion requirements, discontinuations due to adverse events,
and laboratory parameters.
Brief Summary of Results
There were 4541 subjects randomized at 218 centers. Of these, 4433 subjects received study
medication, and 3153 were valid for the modified intent to treat (MITT) analysis and 3029
were valid for the per-protocol (PP) analysis. In the PP analysis, 13/1537 (0.9%) subjects in
the rivaroxaban arm met the primary efficacy endpoint and 50/1492 (3.4%) of subjects in the
enoxaparin arm met the primary efficacy endpoint. These results demonstrated non-inferiority
against enoxaparin using a non-inferiority margin of 3.5%. The results in the MITT population
were similar, with the primary efficacy outcome reached by 18/1595 (1.1%) subjects in the
rivaroxaban population and 58/1558 (3.7%) subjects in the enoxaparin population. This
finding demonstrated statistical superiority (95% CI: -3.69%, -1.54%) of rivaroxaban over
enoxaparin in preventing VTE. A total of 520 randomized subjects discontinued treatment
prematurely (256 rivaroxaban subjects and 264 enoxaparin subjects). The most common
reason for study withdrawal was withdrawal of consent: 121/ 2010 (5.3% ) in the rivaroxaban
arm and 115/2011 (5.1% ) in the enoxaparin arm. The incidence of treatment-emergent major
bleeding events was 0.3% in the rivaroxaban arm and <0.1% in the enoxaparin arm. There
were no fatal bleeding events in either arm after start of study drug. There were 10 deaths in
the study, 5 in each arm, and the incidence of treatment-emergent serious adverse events was
similar between the 2 treatment groups (6.6% rivaroxaban, 8.1% enoxaparin).

4

 RECORD 2 Study: Regulation of Coagulation in Orthopedic Surgery to prevent DVT
and PPE controlled, double-blind, randomized study of BAY- 59-7939 in the extended
prevention of VTE in patients undergoing elective total hip replacement (Protocol 11357)
RECORD 2 was a prospective, randomized, double-blind, double-dummy, active comparator
controlled, multi-center and multi-national trial in patients undergoing elective THR conducted
(b) (4)
between
. Subjects were enrolled at 123 active centers in 21
countries. The objective of the study was to compare the safety and efficacy of VTE
prophylaxis with rivaroxaban 10 my once daily administered for 5 weeks to enoxaparin 40 mg
once daily administered for 10-14 days followed by placebo up to Day 35 in men and women
aged 18 years or above undergoing elective THR. Administration of rivaroxaban or placebo
started on the day of surgery (Day 1) at least 6 to 8 hours after wound closure and thereafter
once daily every 24 + 2 hours up to Day 35 + 4 (the day before venography). All subjects in
the rivaroxaban treatment group additionally received enoxaparin placebo subcutaneous
injections once daily in the evening, starting on Day 0 and ending on Day 12 + 2 (last dose).
Enoxaparin 40 mg was administered once daily as a subcutaneous injection starting the
evening prior to surgery (Day 0). Subsequently, enoxaparin or placebo was administered on
the day of surgery 6 to 8 hours after wound closure and thereafter once daily until Day 12 + 2.
Additionally, all subjects in the enoxaparin group received rivaroxaban placebo tablets. The
first rivaroxaban placebo tablet was taken on the day of surgery (Day 1), at least 6-8 hours after
wound closure, and subsequently once daily every 24 + 2 hours up to Day 35 + 4. Subjects
were evaluated at Day 0, 1, 7 (+ 2 days), 13 (+ 2 days), and 36 (+ 4 days) with a follow-up visit
at Day 65 (+ 5 days). On Day 0 prior to surgery, a physical examination was performed, and
medical history with demographics was recorded. Blood was sampled for clinical chemistry,
hematology, and coagulation parameters. An ECG was performed, and a urine pregnancy test
done for women of childbearing potential. On Day 1, blood samples for hematology and
clinical chemistry were taken after surgery but before study medication, and a physical
examination will be performed. On Day 7, physical examination and blood sampling for
hematology and coagulation parameter were performed. On Day 13, physical examination and
blood sampling for hematology and clinical chemistry were performed. On Day 36, blood
samples for clinical chemistry, coagulation parameters, and hematology will be taken, and
bilateral venography were performed. Adverse events will be recorded at each visit. On Day
65, adverse events, signs and diagnosis of VTE, and an assessment of cardiovascular and
bleeding events during the 30 days after end of treatment were recorded. Physical examination
will be performed, and a blood sample for clinical chemistry will be taken.
The primary efficacy endpoint was defined as a composite endpoint of:
• Any DVT (proximal and/or distal)
•

Non-fatal PE

•

Death from all causes

5

 The analysis of the primary efficacy endpoint was solely based on the assessments made by the
Independent Central Adjudication Committee and VTE Adjudication Committees. The major
secondary endpoint was the incidence of the composite endpoint comprising proximal DT,
non-fatal PE, and VTE-related death. Additional secondary efficacy endpoints were incidence
of symptomatic VTE, incidence of symptomatic DVT (total, proximal, distal), incidence of
symptomatic VTE during follow-up, incidence of PE, incidence of death, “net clinical benefit”,
incidence of the composite endpoint that results from the primary endpoint by substituting
VTE-related death for all death, and incidence of the composite endpoint that results from
major VTE by substituting all-cause mortality for VTE-related death. The main safety
endpoint was the incidence of treatment-emergent major bleeding observed not later than 2
days after last intake of study drug. Major bleeding occurring after this period was considered
separately. Also included as safety variables were treatment-emergent adverse events, serious
adverse events, and deaths; adverse events starting after treatment initiation up to 2 days after
last study treatment, adjudicated cardiovascular events, incidence of prolonged hospitalization,
transfusion requirements, discontinuations due to adverse events, and laboratory parameters.
Brief Summary of Results
There were 2509 subjects randomized at 123 centers. Of these, 2457 subjects received study
medication, and 1733 were valid for the MITT analysis and 1615 were valid for the PP
analysis. In the PP analysis, 11/812 (1.4%) subjects in the rivaroxaban arm and 66/803 (8.2%)
of subjects in the enoxaparin arm met the primary efficacy endpoint. The results in the MITT
population were similar, with the primary efficacy outcome reached by 17/864 (2.0%) subjects
in the rivaroxaban population and 81/869 (9.3%) subjects in the enoxaparin population. This
finding demonstrated statistical superiority (95% CI: -9.41%, -5.15%) of rivaroxaban over
enoxaparin in preventing VTE. A total of 300 randomized subjects discontinued treatment
prematurely (135 rivaroxaban subjects and 165 enoxaparin subjects). The most common
reason for study withdrawal was withdrawal of consent in the rivaroxaban arm 51/1252 (4.1%
) and adverse events in the enoxaparin arm 54/1257 (4.3% ). The incidence of treatmentemergent major bleeding events was very low in both treatment groups (one subject each;
<0.1%). There were no fatal bleeding events in either arm after start of study drug. There
were 10 deaths in the study, 2 in the rivaroxaban arm and 8 in the enoxaparin arm, and the
incidence of treatment-emergent serious adverse events was slightly higher in the enoxaparin
group (10.7%) than in the rivaroxaban group (7.3%).
RECORD 3 Study: Regulation of Coagulation in Orthopedic Surgery to prevent DVT
and PE; a controlled, double-blind, randomized study of BAY 59-7939 in the prevention
of VTE in patients undergoing elective total knee replacement (Protocol 11356)
RECORD 3 was a prospective, randomized, double-blind, double-dummy, parallel-group,
active comparator controlled, multi-center and multi-national trial in patients undergoing
(b) (4)
elective TKR conducted between
. Subjects were enrolled at
147 active centers in 19 countries. The objective of the study was to assess the safety and
efficacy of rivaroxaban 10 mg once daily for the prevention of VTE in male and female
subjects aged 18 years or above undergoing elective TKA. Administration of rivaroxaban or
placebo started on the day of surgery (Day 1) 6 to 8 hours after wound closure, and continued
once daily until Day 12 + 2 (the day before venography). Enoxaparin 40 mg or matching

6

 placebo was administered once daily as a subcutaneous injection starting 12 hours prior to
surgery (Day 0). Subsequently, enoxaparin or placebo was administered on the day of surgery
at least 6 to 8 hours after wound closure and on subsequent evenings until the final evening
dose administered on the evening of Day 12 + 2. Subjects were evaluated at Day 0, 1, 7 (+ 2
days), and 13 (+ 2 days), with a follow-up visit at Day 42 (+ 5 days). On Day 0 prior to
surgery, a physical examination was performed, and medical history with demographics was
recorded. Blood was sampled for clinical chemistry, hematology, and coagulation parameters.
An ECG was performed. On Day 1, blood samples for hematology and clinical chemistry
were taken after surgery but before study medication, and a physical examination was
performed. On Day 7, physical examination and blood sampling for hematology, clinical
chemistry, and coagulation parameters were performed. On Day 13, physical examination and
blood sampling for hematology, clinical chemistry, and coagulation parameters were
performed. On Day 42, adverse events, signs and diagnosis of DVT/PE were recorded.
Physical examinations were performed, and a blood sample for clinical chemistry was taken.
The primary efficacy endpoint was defined as a composite endpoint of:
• Any DVT (proximal and/or distal)
•

Non-fatal PE

• Death from all causes
The analysis of the primary efficacy endpoint was solely based on the assessments made by the
Independent Central Adjudication Committee and VTE Adjudication Committees. The major
secondary endpoint was the incidence of the composite endpoint comprising proximal DVT,
non-fatal PE, and VTE-related death. Additional secondary efficacy endpoints were incidence
of DVT (total, proximal, distal), incidence of symptomatic VTE (DVT, PE), incidence of
symptomatic VTE during follow-up, “net clinical benefit” assessed by the composite endpoint
comprising major VTE and treatment-emergent major bleeding, incidence of the composite
endpoint that results from the primary endpoint by substituting VTE-related death for all death,
and incidence of the composite endpoint that results from major VTE by substituting all-cause
mortality for VTE-related death. The main safety endpoint was the incidence of treatmentemergent major bleeding observed no later than 2 days after last intake of study drug. Major
bleeding observed after this period was considered separately. Also included as safety
variables were treatment-emergent adverse events, serious adverse events, and deaths; adverse
events starting after treatment initiation up to 2 days after last study treatment, adjudicated
cardiovascular events, incidence of prolonged hospitalization, transfusion requirements,
amount of intraoperative blood loss, postoperative volume of drainage, and laboratory
parameters.
Brief Summary of Results
There were 2531 subjects randomized at 147 centers. Of these, 2459 subjects received study
medication, and 1702 were valid for the MITT analysis and 1631 were valid for the PP
analysis. In the PP analysis, 74/793 (9.3%) subjects in the rivaroxaban arm met the primary
efficacy endpoint and 152/838 (18.1%) of subjects in the enoxaparin arm met the primary
efficacy endpoint described by the sponsor as demonstrating noninferiority against enoxaparin,
based on a noninferiority margin of 4%. The results in the MITT population were similar, with
the primary efficacy outcome reached by 79/824 (9.6%) subjects in the rivaroxaban population

7

 and 166/878 (18.9 %) subjects in the enoxaparin population, described by the sponsor as
demonstrating superiority of rivaroxaban over enoxaparin in preventing VTE (95% CI: 12.40%, -5.89%). A total of 282 randomized subjects discontinued treatment prematurely (127
rivaroxaban subjects and 155 enoxaparin subjects). The most common reason for study
withdrawal was withdrawal of consent in both arms: 68/ 1254 (5.4% ) in the rivaroxaban arm
and 60/1277 (4.7%) in the enoxaparin arm. The incidence of treatment-emergent major
bleeding events was low in both treatment groups (0.6% in the rivaroxaban arm versus 0.5% in
the enoxaparin arm). There were no fatal bleeding events reported in either group. There were
6 deaths in the study, all in the enoxaparin arm. The incidence of treatment-emergent serious
adverse events was slightly lower in the enoxaparin group (7.4%) than in the rivaroxaban
group (8.9%).
RECORD 4 Study: Regulation of Coagulation in Orthopedic Surgery to prevent DVT
and PE; a controlled, double-blind, randomized study of BAY 59-7939 (rivaroxaban) in
the prevention of VTE in subjects undergoing elective total knee replacement (Protocol
11355)
RECORD 4 was a prospective, randomized, double-blind, double-dummy, parallel-group,
active comparator controlled, multi-center and multi-national trial in patients undergoing
(b) (4)
elective TKR conducted between
. Subjects were enrolled at 131
active centers in 12 countries. The objective of the study was to assess the safety and efficacy
of rivaroxaban 10 mg once daily for the prevention of VTE in male and female subjects aged
18 years or above undergoing elective TKA. Administration of rivaroxaban or placebo started
on the day of surgery (Day 1) 6 to 8 hours after wound closure, and continued once daily until
Day 12 + 2 (the day before venography). Enoxaparin 30 mg bid or matching placebo was
administered twice daily as a subcutaneous injection starting 12-24 hours after wound closure.
Thereafter, enoxaparin active or placebo was administered subcutaneously twice daily, once in
the morning and once in the evening (every 12 + 2 hours), until the final evening dose
administered on the evening of Day 12 + 2 (the day prior to venography). Subjects were
evaluated at Day 0, 1, 6 (+ 2 days), and 13 (+ 2 days), with a follow-up visit at Day 42 (+ 5
days). On Day 0 prior to surgery, a physical examination was performed, and medical history
with demographics was recorded. Blood was sampled for clinical chemistry, hematology, and
coagulation parameters. An ECG was performed. On Day 1, blood samples for hematology
and clinical chemistry were taken after surgery but before study medication, and a physical
examination was performed. On Day 6, physical examination and blood sampling for
hematology, clinical chemistry, and coagulation parameters were performed. On Day 13,
physical examination and blood sampling for hematology, clinical chemistry, and coagulation
parameters were performed. On Day 42, adverse events, signs and diagnosis of DVT/PE were
recorded. Physical examinations were performed, and a blood sample for clinical chemistry
was taken.
The primary efficacy endpoint was defined as a composite endpoint of:
• Any DVT (proximal and/or distal)
•

Non-fatal PE

•

Death from all causes

8

 The analysis of the primary efficacy endpoint was solely based on the assessments made by the
Independent Central Adjudication Committee and VTE Adjudication Committees. The major
secondary endpoint was the incidence of the composite endpoint comprising proximal DVT,
non-fatal PE, and VTE-related death. Additional secondary efficacy endpoints were incidence
of DVT (total, proximal, distal), incidence of symptomatic VTE (DVT, PE), incidence of
symptomatic VTE during follow-up, “net clinical benefit” assessed by the composite endpoint
comprising major VTE and treatment-emergent major bleeding, incidence of the composite
endpoint that results from the primary endpoint by substituting VTE-related death for all death,
and incidence of the composite endpoint that results from major VTE by substituting all-cause
mortality for VTE-related death. The main safety endpoint was the incidence of treatmentemergent major bleeding observed no later than 2 days after last intake of study drug. Major
bleeding observed after this period was considered separately. Also included as safety
variables were treatment-emergent adverse events, serious adverse events, and deaths; adverse
events starting after treatment initiation up to 2 days after last study treatment, adjudicated
cardiovascular events, incidence of prolonged hospitalization, transfusion requirements,
amount of intraoperative blood loss, postoperative volume of drainage, and laboratory
parameters. Other safety variables included the incidence of any treatment-emergent bleeding
observed no later than 2 days after last intake of study drug, the incidence of non-major
treatment–emergent bleeding observed no later than 2 days after last intake of study drug,
incidence of postoperative bleeding, and incidence of surgical site bleeding associated with > 2
g/dL fall in hemoglobin or leading to infusion of > 2 units of whole blood or packed cells.
Brief Summary of Results
There were 3148 subjects randomized at 131 centers. Of these, 3034 subjects received study
medication, and 1924 were valid for the MITT analysis and 1742 were valid for the PP
analysis. In the PP analysis, 58/864 (6.7%) subjects in the rivaroxaban arm met the primary
efficacy endpoint and 82/878 (9.3%) of subjects in the enoxaparin arm met the primary
efficacy endpoint described by the sponsor as demonstrating noninferiority against enoxaparin,
based on a noninferiority margin of 4%. The results in the MITT population were similar, with
the primary efficacy outcome reached by 67/965 (6.9%) subjects in the rivaroxaban population
and 97/959 (10.1%) subjects in the enoxaparin population, described by the sponsor as
demonstrating superiority of rivaroxaban over enoxaparin in preventing VTE (95% CI: 5.67%, -0.71%). A total of 310 randomized subjects discontinued treatment prematurely (159
rivaroxaban subjects and 151 enoxaparin subjects). The most common reason for study
withdrawal was adverse events in both arms: 62/ 1584 (3.9%) in the rivaroxaban arm and
56/1564 (3.6%) in the enoxaparin arm. The incidence of treatment-emergent major bleeding
events was low in both treatment groups (0.7% in the rivaroxaban arm versus 0.3% in the
enoxaparin arm). With regard to critical bleeding events, there was one retroperitoneal
bleeding event (rivaroxaban), one intracranial bleed (enoxaparin), and one
intraspinal/hemorrhagic puncture event (enoxaparin). There was one fatal bleeding event
reported in the rivaroxaban treatment group. Twelve subjects died during the study, 6 in the
rivaroxaban group and 6 in the enoxaparin group. The incidence of treatment-emergent serious
adverse events was similar between the two groups: 5% in the rivaroxaban group and 7% in the
enoxaparin group.

9

 Rationale for Site Selection
Rivaroxaban is a new molecular entity which is an oral anticoagulant with the proposed
indication of prophylaxis of VTE. The site selection is based on the review division’s analysis
of efficacy of rivaroxaban versus the comparator at individual sites. Sites which showed a
greater efficacy of rivaroxaban in relation to comparator which had relatively high enrollment
were chosen. Two sites for each of the pivotal studies were selected for inspection.

II. RESULTS (by Site):
Since the submission of the original Clinical Inspection Summary, the EIRs have been received
for Andrzej Gorecki, Tadeusz Gazdzik, Qingming Yang, Cesar Valverde, and Jacek
Kruczynski. Please see the Clinical Inspection Summary completed on March 16, 2009 for a
full summary of these inspections. The information available and conclusions reached for
these inspections is unchanged after review of the EIR. Pertinent new information is given
below regarding the inspections of Bingfang Zeng, R. Michael Murray, David Fox, Bayer
Pharmaceutical as the Sponsor/Monitor/CRO, and Johnson & Johnson as the applicant.

10

 Name of CI, IRB, or Sponsor
Location

Protocol # and # of
Subjects

Andrzej Gorecki
Szpital Kliniczny Dzieciatka
Jezus – Centrum Leczenia
Obrazen
Klinika Ortopedii i Traumatologii
Narzadu Ruchu
ul. Lindleya 4
02-005 Warszawa, POLAND
Tadeusz Gazdzik
Slaska Akademia Medyczna
Katedra I Oddzial
Kliniczny Ortopedii
Wojewodzki Szpital
Specjalistyczny Nr 5
im. Sw. Barbaby
Pl. Medykow 1
41-200 Sosnowiec, POLAND
Qingming Yang
Rui Jin Hospital, Shanghai
Second Medical Univeristy
Orthorpaedic Department
Shanghai Ryuijin Hospital
No. 197 Ruijin Second Road
Shanghai, CHINA 200025

Protocol # 11354, RECORD 1
Site # Poland 18006

Cesar Diaz Valverde
Hospital Edgardo Rebagliati
Martins
Av. Edgardo
Rebagliati Martins S/N
JESUS MARIALima
Lima, 11 PERU

Protocol # 11357, RECORD 2
Site # Peru 64005

Bingfang Zeng
Affiliated Sixth People’s Hospital
Orthorpaedic Department
No. 600 Yishan Road,
Xuhui District
Shanghai, CHINA 200233

Protocol # 11356, RECORD 3
Site # China 54014

Jacek Kruczynski
Szpital Uniwersytecki im.
Antoniego
Jurasze
Klinika Ortopedii i Traumatologii
Narzadu Ruchu
ul. M. Sklodowskiej-Curie 9
85-094, Bydgoszcz
POLAND
R. Michael Murray
Capstone Clinical Research
2018 Brookwood Medical Center

Protocol # 11356, RECORD 3
Site # Poland 18003

Inspection
Date
(b) (4)

Interim
Classification
NAI

Final Classification

NAI

Pending; preliminary NAI

OAI

Pending; preliminary OAI

VAI

Pending; preliminary VAI

OAI

Pending; preliminary VAI-r
requested

VAI

Pending; preliminary VAI

OAI

Pending; preliminary OAI

NAI

# of subjects (Total# 71):
Xarelto: 36
Enoxaparin: 35

Protocol # 11354, RECORD 1
Site # Poland 18012
# of subjects (Total#: 76):
Xarelto: 38
Enoxaparin: 38

Protocol # 11357, RECORD 2
Site # China 54005
# of subjects (Total# 34):
Xarelto: 17
Enoxaparin: 17

# of subjects (Total# 41):
Xarelto: 20
Enoxaparin: 21

# of subjects (Total# 26):
Xarelto: 13
Enoxaparin: 13

# of subjects (Total# 36):
Xarelto: 18
Enoxaparin: 18

Protocol # 11355, RECORD 4
Site # 14005

2

 Suite 314
Birmingham, AL 35209

# of subjects
(Total # 152)
Xarelto: 76

(b) (4)

Enoxaprin: 76
David Fox
Unlimited Research, LP
12709 Toepperwein Road
Suite 101
San Antonio, TX 78233

Bayer Pharmaceutical
340 Change Bridge Rd.
Pine Brook, NJ 07058

Protocol #11355, Record 4
Site #14022
# of subjects (Total # 64)
Xarelto: 32
Enoxaparin: 32
Protocol # 11354, RECORD 1
Protocol # 11357, RECORD 2
Protocol # 11356, RECORD 3
Protocol #11355, Record 4

Johnson & Johnson
920 U.S. Highway 202
Raritan, NJ 08869-0602

VAI

Pending; preliminary VAI

Pending

Pending

NAI

Pending

Key to Classifications
NAI = No deviation from regulations.
VAI = Deviation(s) from regulations.
OAI = Significant deviations from regulations. Data unreliable.
Pending = Preliminary classification based on information in 483 or preliminary communication with the field;
EIR has not been received from the field and complete review of EIR is pending.

1.

Bingfang Zeng
Affiliated Sixth People’s Hospital
Orthorpaedic Department
No. 600 Yishan Road,
Xuhui District
Shanghai, CHINA 200233
a. What was inspected: The inspection was conducted in accordance with
Compliance Program 7348.811. There were 26 subjects enrolled at the site.
There were 23 subjects who completed the study. The observations noted are
based on preliminary communications with the FDA field investigator, the
Form FDA 483, Dr. Zeng’s written response to the Form FDA 483, and the
EIR. There were no limitations to the inspection.
b. General observations/commentary: Several deviations from FDA regulations
were noted, and a Form FDA 483 was issued for these violations. The
inspection documented that the investigator did not adhere to the investigational
plan, in violation of 21 CFR 312.60 and did not promptly report to the sponsor
adverse effects that may reasonably be regarded as caused by or probably
3

 caused by, a investigational diug, in violation of 21 FR 312.64. A response
from Dr. Zeng to the Form FDA 483 observations dated March 12, 2009 was
received. Dr. Zeng adequately addressed the issue of prohibited concomitant
medications (see Protocol Violations, item 1 below). However, the remainder
of the letter provided explanations for the inspector?s observations rather than
contradicting the de?ciencies noted on the Form FDA 483.

Protocol Violations 21 FR 3 12.60 

1.

Two subjects were administered prohibited concomitant medications
while em'olled in the clinical trial. Subjects 54014-6001
6014 mm were treated with Salvia Miltiorrhiza (a platelet inhibitor) from
Day respectively.

m? and 54014-

Medical Officer?s Comment: In a response letter dated March 12, 2009, Dr. Zeng
responded that during the study, a sponsor medical expert stated that antiplatelet
drugs were allowable during the study, although anticoagulants were not. Section
4.5. 7 of the RECORD 3 protocol states that subjects on anticoagulants which cannot
be stopped should be excluded; no mention is made of subjects on antiplatelet agents.
Therefore this citation is not valid.

Subject 54014-6001 was treated with Aescuven Forte which was not listed
on the concomitant diug list (eC RF).

Adverse Event Reporting [21 CFR 312.64]

1.

Two subjects did not have SAEs reported within 24 hom?s of the
investigator?s awareness of the event.
i. Subject 54014-6007 was diagnosed with a DVT in the right
leg on June 27, 2006. This SAE was not reported to the
Sponsor until March 2, 2007 and the lmtil March 19,
2007.
ii. Subject 54014-6014 mm was diagnosed with a DVT in the
right calf on October 6, 2006. The SAE was not reported to
the Sponsor and the until October 11, 2006.

2. Multiple subjects did not have adverse events reported to the sponsor,

although the concomitant medications they received for these conditions
were recorded. These include Subject 54014- 6001 mm swelling and
decreased albumin levels; Subject 54014?6006 mm? swelling at the
incision site; Subject 54014-6009 mm phlegm/sputum production;
Subject 54014-6012 m? insomnia, Subject 54014?6013 
constipation and phlegm; and Subject 54014?6020 mm 
?dephlogisticate?, fever, and wormd swelling. The following subjects
had unreported adverse events which are potentially of greater
signi?cance: Subject 54014?6014 mm trophic nerve on two occasions
and blood vessel constriction; Subject 54014-6015 mm chest stress
and phlegm; Subject 54014-6018 fever and decrease in hemoglobin;
and Subject 54014?6023 mm? stomach pain.

Medical Officer?s Comment: Dr. Zeng?s response letter of May 12, 2009 states that

these adverse events were not reported either because they were considered to be?
normal for a subject post orthopedic surgery? or because they forgot. Although

some of these events may be a not unexpected consequence of surgery, they must
still be reported as an adverse event.

c. Assessment of data integrity: The deviations listed above were communicated
in the original CIS dated March 16, 2009. As before, DSI regards the efficacy
data as acceptable in support of the NDA. In addition, most safety data appears
to have been reported appropriately. Although there were two SAEs for which
reporting was delayed, they were eventually reported and should be contained in
the NDA data base. There was significant underreporting of non-serious
adverse events at this site. There were 10 patients with unreported adverse
events (listed above) of the 26 enrolled; at least 4 of these subjects had adverse
events that are potentially clinically significant. DSI recommends that the
review division take into consideration the underreporting of AEs in evaluation
of safety.
2..

R. Michael Murray
Capstone Clinical Research
2018 Brookwood Medical Center
Suite 314
Birmingham, AL 35209
a. What was inspected: The inspection was conducted in accordance with
Compliance Program 7348.811. There were 178 subjects who signed informed
consent at the site, and 153 were randomized. The EIR became available since
the original Clinical Inspection Summary was generated. The observations
noted are based on preliminary communications with the FDA field
investigator, the Form FDA 483, and Dr. Murray’s written response dated
March 31, 2009, and the EIR. There were no limitations to the inspection.
b. General observations/commentary: The inspection documented that the
investigator did not prepare and maintain adequate and accurate case histories
with respect to observations and data pertinent to the investigation, in violation
of 21 CFR 312.62(b), and did not adhere to the investigational plan, in violation
of 21 CFR 312.60. A response from Dr. Murray to the Form FDA 483
observations dated March 31, 2009 was received. The letter provided
explanations for some of the inspector’s observations; however, information to
contradict the deficiencies noted on the Form FDA 483 was not presented.
Recordkeeping Violations [21 CFR 312.62(b)]
1. Subject 5117 experienced an elevated lipase. Site email dated 7/2/07 from
Capstone Clinical Trials, Inc. President/CEO to the monitor reported that the
subject “was receiving rivaroxaban in the Bayer 11355 trial”. The
inspector’s review of the study records failed to reveal how the site became
aware of the Subject’s blinded treatment assignment. No documentation
was observed of sponsor or site emergency unblinding of this subject.
2. The site lacked documentation of IRB approval of the following:

5

 i. The performance of study screen visits at locations outside of routine
clinical settings and not listed on the Form FDA 1572. For example
screening visits including physical exams, ECGs, blood draws, etc.
were conducted in subjects’ homes and hotel rooms.
ii. The performance of post-enrollment study visits that included physical
exams and administration of the test article at sites not listed on the
Form FDA 1572 not under the PI’s supervision. Subjects were
sometimes moved to an inpatient rehabilitation facility together with
the test article where it was dispensed and administered by the rehab
center staff who had not received training on the protocol or GCP.
Study visits were also conducted at subject’s homes after the subjects
had been discharged from the hospital, including the article
administration, physical exams, and blood draws. These alternate sites
(b) (4)
included the site’s
, the
subject’s place of employment, and an outpatient physical therapy
center.
iii. Payment/reimbursement of subjects’ hotel stays, mileage, and
transportation costs like cab fares, despite the IRB-approved informed
consent which states “the maximum total possible payment is
$250.00”. The consent document does not mention additional
services/reimbursement.
3. The site lacked documentation that the Final Report/notice of study closure
was submitted to the IRB (or that the Board acknowledged receipt of the
final report/study closure). A copy of the site’s computer version of the
Final Report dated 4/24/08 that is unsigned/unofficial was provided during
the inspection; however, there is no documentation that this report was
submitted to the board.
4. The most recent status report submitted to the IRB was the Annual Review
Report dated 6/26/07 and signed by the PI states in Item #8 that the site is
currently enrolling patients in this study. In Item #9 it states that “this study
is closed to further enrollment”. In addition, the following statement was
included: “. . . as this study is no longer open to enrollment. No further
subjects will be consented.”. According to the site enrollment logs, subjects
were enrolled/randomized through 10/9/07.
5. The site Signature Sheet and Delegation of Duties Log is inaccurate in that
the Log does not reflect the performance of physical exams by the Physician
Assistants (who routinely conducted physical exams throughout the study).
At least one physical exam was performed by an RN/study coordinator per
source records. RNs are not licensed to conduct physical exams in the state
of Alabama.
Protocol Violations [21 CFR 312.60]
1. Subjects were randomized post-surgery rather than prior to surgery.
According to the protocol, randomization was to take place following
screening on Day 0 or prior to surgery on Day 1.

6

 c. Assessment of data integrity: Protocol and recordkeeping violations occurred at this
site, which were described in the original Clinical Inspection Summary. Review of the
EIR and Dr. Murray’s written response to the Form FDA 483 revealed that the postoperative randomization described above occurred in all subjects reviewed except one.
(b) (4)
This is in spite of the fact that
the CRO monitoring RECORD 4
sent an email to all sites reiterating the protocol requirement that subjects be
randomized prior to surgery. It was stated that investigator permission to randomize
was given after the patient stopped oozing at the surgical wound site. Although this
randomization error would occur in both arms, it has the potential to alter the
population studied at this site – i.e. the population included in the Xarelto product label
after approval may not reflect the population actually studied. DSI recommends that
the efficacy data from this site not be used in support of the NDA. The review division
should take into consideration the effect of post-surgical randomization in their safety
analysis, as this would impact absolute safety risk assessment, compared to relative
safety risk assessments.
3.

David Fox
Unlimited Research, LP
12709 Toepperwein Road
Suite 101
San Antonio, TX 78233
a. What was inspected: The inspection was conducted in accordance with Compliance
Program 7348.811. There were 72 subjects screened at the site, and 64 were enrolled.
There were 60 patients who completed the study. During the inspection, 23 subject
records were reviewed, and all 72 informed consent documents were reviewed. The
EIR became available since the original Clinical Inspection Summary was generated.
The observations noted are based on preliminary communications with the FDA field
investigator, the Form FDA 483, Dr. Fox’s written response, and the EIR. There were
no limitations to the inspection.
b. General observations/commentary: The inspection documented that the investigator
did not obtain informed consent in accordance with 21 CFR 50 from each human
subject prior to drug administration and that the investigator did not adhere to the
investigational plan, in violation of 21 CFR 312.60. A written response to the
observations contained in Form FDA 483 from Dr. Fox dated April 23, 2009 was
received. The letter provided explanations for some of the inspector’s observations;
however, information to contradict the deficiencies noted on the Form FDA 483 was
not presented.
Informed Consent Violations [21 CFR 50]
1. The CI failed to obtain informed consent from each human subject prior to drug
administration and conducting study related tests.
i. Subjects 5070 signed an informed consent document on September 13, 2007
that had expired on September 12, 2007, and did not sign the next approved

7

 version.
ii. Subject 5071 signed an informed consent document on September 19, 2007
that had expired on September 12, 2007. This subject then signed the next
approved version of the consent form on September 25, 2007.
2. The CI failed to have Subjects 5046, 5047, 5049, 5066, and 5068 sign a new
version of the informed consent document after the original signed informed
consent document is superseded.
Protocol Violations [21 CFR 312.62(b)]
1. According to the protocol, on Day 0 (the day prior to surgery), the subject
will be randomized if eligible for the study. All 23 subjects reviewed were
randomized on Day 1 instead of Day 0.
Medical Officer’s Comment: Dr. Fox’s written response dated April 27, 2009 states
that all subjects were randomized on Day 1, but prior to surgery.

2. According to the protocol, on Day 6 + 2, blood sampling for hematology,
clinical chemistry, and coagulation parameters was to be done for all
subjects. Subject 5003 and 5010 did not have their coagulation parameters
drawn in the correct timeframe.
3. The visit for Study Day 42 was conducted out of the visit window (Day 42 +
5) for the following subjects: Subject 5003 – 3 days out of window; Subject
5010 – 2 days out of window; Subject 5011 - 2 days out of window; Subject
5018 – 2 days out of window; Subject 5024 – 3 days out of window; Subject
5025 – 2 days out of window; Subject 5041 – 2 days out of window; and
Subject 5060 – 4 days out of window.
4. There were no Protocol Deviation Reports submitted to the IRB for any of
the violations described in Parts 1-3 above.
c. Assessment of data integrity: Several informed consent and recordkeeping violations
occurred at this site. The Form FDA 483 cited the violation of randomization of
subjects on Day 1 rather than Day 0. Randomization on Day 1 is permitted according
to protocol as long as randomization occurs prior to surgery. In his written response,
Dr. Fox states that all subjects were randomized postoperatively. Subject safety was not
affected. Although informed consent and protocol violations occurred at this site, it is
unlikely that these errors will impact the final outcome of the study. The data appear
acceptable in support of the NDA.
4. Sponsor/Monitor/CRO
Bayer Pharmaceutical
340 Change Bridge Rd.
Pine Brook, NJ 07058
a. What was inspected: The FDA investigator reviewed Bayer procedures and
records for protocols RECORD 1, 2, 3, and 4. The inspection began on
February 24, 2009 and was concluded on March 31, 2009. The EIR was not
available at the time this CIS Addendum was written. The observations noted
are based on preliminary communications with the FDA field investigator and
8

 Bayer’s written response dated April 13, 2009. A second inspection summary
addendum will be generated if conclusions change after receipt and review of
the final EIR.
b. General observations/commentary: Several deviations from FDA regulations
were noted, and a Form FDA 483 was issued for these violations. The
investigation documented that the sponsor failed to ensure proper monitoring
of the study, ensure that the study is conducted in accordance with the protocol
and/or investigational plan, and ensure that FDA and all investigators are
promptly informed of significant new adverse effects or risks. In Bayer’s
written response dated April 13, 2009, explanations for some of the inspector’s
observations were provided; however, no information to contradict the
deficiencies noted on the Form FDA 483 were presented.
1. Of the 42 Close Out Visit Reports for RECORD 4 reviewed, 18 were not
properly closed out as numerous unresolved “Pending Issues” were
reported at these sites during the closeout visit. There were no additional
(b) (4)
follow-up close out reports from
or from Bayer to verify that these
issues were resolved. These included Sites 14058, 14054, 14016, 14015,
14012, 14010, 14004, 14002, 26001, 18009, 18011, 18003, 18004, 18005,
18002, 32006, 26020, and 26019. Two additional sites enrolling in
RECORD 1 did not have appropriately completed “Close out Visit
Reports”: Sites 24011 and 24015.
Medical Officer’s Comment: In the sponsor’s response letter of April 13, 2009,
Bayer states that in “the majority of cases”, the pending items were resolved after the
close out visit, and that the respective documentation is available as part of the Trial
Master File. It is unclear why this information was not provided to the inspector at
the time of the inspection.

2. Of the 42 sites reviewed for Periodic Monitoring Visit Reports for
RECORD 3, 11 reports were not completed within an adequate timeframe
to ensure adequate monitoring. Additionally, there is no documentation to
indicate that these reports were reviewed in a timely manner for Sites
37003, 50010, 24010, 24003, 24002, 24004, 24005, 24006, 24008, 24010,
and 37102.
3. The sponsor failed to document site specific issues such as protocol
deviations/violations affecting the conduct of the clinical trial in the
Periodic Site Monitoring Visit Reports and to ensure that the clinical trial
was conducted in a accordance with the protocol for Site Numbers 14005
(RECORD 4), 14010 (RECORD 2), and 32006 (RECORD 4).
4. The sponsor failed to conduct monitoring visits at the frequency specified
in the monitoring plan for Site 14001 and Site 26007 for RECORD 4.
5. The sponsor failed to submit the following expedited reports as required by
(b) (6)
their monitoring plan: Case 200811335
in RECORD 4.
6. The Periodic Site Monitoring Visit Report Number 9 for Site 14001
(RECORD 4) was not maintained and could not be located.

9

 c. Assessment of data integrity: The data collected and maintained at the
sponsor’s site, as it pertains to the eight clinical sites audited in accordance
with the sponsor-monitor oriented BIMO compliance program CP 7348. 810
demonstrate that the sponsor failed to exercise adequate oversight over the
investigator sites enrolling in the four RECORD studies submitted in support
of the NDA. It is unclear at present what effect this deficiency will have on
data integrity.
5. Applicant
Johnson & Johnson
920 U.S. Highway 202
Raritan, NJ 08869-0602
a.What was inspected: The FDA inspection covered verification and definition
of extent of information transmission, totality of documentation, and
verification that all elements necessary to support the NDA were provided by
Bayer Pharmaceuticals to Johnson & Johnson. The sponsor inspection
occurred on March 24, 2009, and there were telephone conferences between
the FDA inspectors and Johnson & Johnson (J&J) representatives on 3/26,
3/28, and 3/30/09. The observations noted are based on preliminary
communications with the FDA field investigator and the EIR.
b. General observations/commentary: During the initial visit, J&J described a
collaborative oversight arrangement between Bayer and J&J regarding the
rivaroxaban clinical development program; this agreement was signed in
2005. During this time period, Bayer was performing all oversight functions,
and informing J&J of any major issues or concerns. J&J stated that they were
(b) (4)
aware of the issues regarding
Dr. Ricardo Esquivel, and
(b) (4)
. The routine global audits conducted by Bayer were
described and were to include a target of auditing at least 10% of active sites.
The inspectors reviewed the Standard Operating Procedures for Study
Auditing as well as Audit Tracker reports for studies RECORD 1, 2, 3, and 4.
The inspectors’ opinion at the conclusion of the inspection was that accurate
transmission of relevant information and collaborative communication
pertaining to the NDA between Bayer and J&J had occurred.
During the three subsequent teleconferences, the inspectors continued to query
J&J regarding the issue of how they assured themselves of the data integrity of
the studies submitted with the NDA. J&J continued to reiterate the
collaborative nature of the interaction between Bayer and J&J, and also noted
that Bayer was solely responsible for maintaining the IND for rivaroxaban and
preparing and submitting the NDA until July 18, 2008. Ownership of the IND
and NDA was assigned and transferred to J&J as of July 18, 2008. Based on
this information, J&J stated that Bayer, by contract, had overall responsibility
for all decisions made during the course of the trial, although J&J was
informed and provided insight. J&J stated that they actively reviewed the

10

 RECORD 1, 2, 3, and 4 studies prior to NDA submission, and did not identify
issues or questionable data that warranted concern for data integrity. J&J
wrote the NDA submission documents, including the clinical summary
(b) (4)
sections. J&J stated that they were informed of the findings at Dr.
(b) (4)
Esquivel in January, 2008; they were informed about Dr.
later during
review of the clinical study report.
No FDA Form 483 was issued.
Medical Officer’s Comment: Extensive discussion noccurred during the inspection
regarding the method by which J&J was able to assure themselves that the data
submitted in support of the Xarelto NDA were sound, despite the earlier findings at
three clinical sites of issues with data integrity. In addition, J&J was presented with
information regarding BIMO inspections conducted during the NDA review which
demonstrated protocol violations and deficiencies in adverse event reporting which were
not reported by the sponsor’s monitoring procedures. Although it is correct that Bayer
was responsible for data integrity during the conduct of the RECORD studies, it is also
correct that J&J is fully responsible for data integrity in the same studies now submitted
in support of the NDA. Although J&J reports that no signal was apparent during the
writing of the clinical sections of the NDA, the EIR includes no specific action takens by
J&J to independently audit sites which enrolled in the RECORD studies in order to
assure themselves that there were not more widely occurring problems similar to those
(b) (4)
found at the (b) (4) , Esquivel, and
sites.

c. Assessment of data integrity: It appears that there was accurate transmission
of relevant information and collaborative communication between Bayer and
J&J based on their inspectional findings. However, there is no evidence
presented that J&J undertook any specific activities between acquisition and
submission of the NDA in order to assure that there were no data integrity
issues with the pivotal RECORD studies, similar to those described earlier at
three clinical sites. In addition, there is no evidence that the adequacy of
study monitoring by Bayer was independently verified by J&J prior to NDA
submission.
IV. OVERALL ASSESSMENT OF FINDINGS AND RECOMMENDATIONS
In general, inspection of the sites of Drs. Gorecki, Gazdzik, and Kracznski revealed that they
adhered to the applicable regulations and good clinical practices governing the conduct of
clinical investigations. The inspection of documents supports that audited subjects exist, met
eligibility criteria, received assigned study medication, adhered to protocol, and signed
informed consent documents. The inspections documented minor regulatory violations at the
site of Dr. Kracznski regarding protocol violations and the site of Dr. Fox regarding both
informed consent and protocol violations. In general, the studies at these four sites appear to
have been conducted adequately, and the data generated by these sites may be used in support
of the indication.
The inspection of Dr. Valverde’s and Dr. Zeng’s site raise concern regarding underreporting of
adverse events. Although neither site appears to have failed to report serious adverse events,
the number of unreported adverse events is significant. The data from these sites appear
11

 acceptable for use in the NDA; however, the review division should take into consideration the
specific information provided above in analysis of safety.
The findings of the inspection of Dr. Yang’s site are of concern. The inspector describes an
instance of apparent falsification of a subject visit by a sub-investigator, which was reportedly
detected later by a second investigator. However, there was no investigation into the
circumstances of the falsification incident, and the sub-investigator was allowed to continue to
administer the study. In addition, the affidavit provided by the second subinvestigator at the
time of the inspection and the response letter from the PI give two different versions of this
event. Lastly, there is no evidence that this discrepancy was detected by the study monitor.
There were four instances of unreported anemia requiring transfusion and two unreported
instances of elevated liver function tests from this site. It is possible that the anemia requiring
transfusions was reported as the safety variable “Bleeding event”; however, these should also
have been recorded as adverse events. DSI recommends that data from this site be regarded as
unreliable.
Inspection of Dr. Murray’s site raised concern regarding improprieties in randomization. At
this site, most subjects were randomized after surgery, rather than on Day 0 or 1
preoperatively, as required by the protocol. Although this randomization error would occur in
both arms, it has the potential to alter the population studied at this site – i.e. the population
included in the Xarelto product label after approval may not reflect the population actually
studied. Dr. Murray’s site was the second largest enroller in RECORD 4. The highest enroller
(Dr. Ward) is also located in Birmingham, Alabama, and is part of the same SMO as Capstone
Clinical Research (Dr. Murray), although the names differ. Therefore, DSI is inspecting Dr.
Ward’s site, as well as a third site under this SMO umbrella in Tuscaloosa. The results of these
inspections, as well as an inspection of the site of the third highest enroller in RECORD 4 are
not available at the time of this Clinical Inspection Summary Addendum.
The data collected and maintained at the sponsor’s site, as it pertains to the eight
clinical sites audited in accordance with the sponsor-monitor oriented BIMO
compliance program CP 7348. 810 demonstrate that the sponsor failed to ensure proper
monitoring of the study, ensure that the study is conducted in accordance with the
protocol and/or investigational plan, and ensure that FDA and all investigators are
promptly informed of significant new adverse effects. It is concerning that no specific
procedures were implemented by J&J after acquisition of the rights to rivaroxaban to
ensure the integrity of the data submitted in support of the NDA. Based on the results
of the sponsor and applicant inspections as well as the results of the Clinical
Investigator inspections, DSI is concerned that the sponsor failed to exercise adequate
oversight over the investigator sites enrolling in the four RECORD studies submitted in
support of the NDA.
Follow-Up Actions: We recommend that the applicant provide further information regarding
Bayer’s QA audit program, describe in detail Bayer’s interactions with the oversight of
contract research organizations hired by Bayer to monitor the clinical sites, and perform
additional audits of clinical sites that enrolled subjects in the RECORD studies. These
measures are necessary to assure the integrity of the data submitted in support of NDA 22-406

12

 for the use of Xarelto in the indication of prophylaxis of deep vein thrombosis and pulmonary
embolism in patients undergoing hip or knee replacement surgery.

{See appended electronic signature page}
Susan D. Thompson, M.D.
Good Clinical Practice Branch II
Division of Scientific Investigations

CONCURRENCE:

{See appended electronic signature page}
Tejashri Purohit-Sheth, M.D.
Branch Chief, Good Clinical Practices 2
Division of Scientific Investigations

13

 --------------------------------------------------------------------------------------------------------------------This is a representation of an electronic record that was signed electronically and
this page is the manifestation of the electronic signature.
--------------------------------------------------------------------------------------------------------------------/s/
--------------------Susan Thompson
5/15/2009 02:01:09 PM
MEDICAL OFFICER

Tejashri Purohit-Sheth
5/25/2009 11:15:25 PM
MEDICAL OFFICER

 MEMORANDUM

DEPARTMENT OF HEALTH AND HUMAN SERVICES
PUBLIC HEALTH SERVICE
FOOD AND DRUG ADMINISTRATION
CENTER FOR DRUG EVALUATION AND RESEARCH
___________________________________________________________________________________________

CLINICAL INSPECTION SUMMARY
DATE:

March 16, 2009

TO:

Marcus Cato, Regulatory Project Manager
Min Lu, Medical Officer
Division of Medical Imaging and Hematology Products
Susan D. Thompson, M.D.
Good Clinical Practice Branch 2
Division of Scientific Investigations

FROM:

THROUGH:

Joseph Salewski
Deputy Division Director
Division of Scientific Investigations

SUBJECT:

Evaluation of Clinical Inspections.

NDA:

22-406

APPLICANT:

Johnson & Johnson

DRUG:

Xarelto (rivaroxaban)

NME:

Yes

THERAPEUTIC CLASSIFICATION:
INDICATIONS:

Standard Review

1. Prophylaxis of deep vein thrombosis and pulmonary embolism in
patients undergoing hip or knee replacement surgery

CONSULTATION REQUEST DATE: April 28, 2009
DIVISION ACTION GOAL DATE: May 28, 2009
PDUFA DATE: May 28, 2009
I. BACKGROUND:
Rivaroxaban is a highly selective direct factor Xa (FXa) inhibitor for oral administration.
Inhibition of FXa produces antithrombotic effects by decreasing the amplified generation of
thrombin, thus diminishing thrombin-mediated activation of both coagulation and platelets,

 without affecting existing thrombin levels. The sponsor states that the remaining thrombin
should be suf?cient to ensure primary hemostasis, resulting in a favorable ef?cacy to safety
(bleeding) margin for rivaroxaban. The sponsor submits this NDA to support the use of
rivaroxaban for the indication of prophylaxis of deep vein thrombosis (DVT) and puhnonary
embolism (PE) in patients undergoing hip or knee replacement sm?gery.

Patients lmdergoing major orthopedic Slu?gery, including total hip replacement (THR) and total
knee replacement (TKR) Slu?geries, are a group that is at a particularly high risk for venous
thromboembolism (VTE), which includes DVT and PE. Without prophylaxis, the incidence of
objectively confumed total DVT based on older studies is approximately 40 to 60% following
THR or TKR, with a 10-30% incidence of proximal DVT. The most appropriate strategy to
reduce the incidence of VTE is prophylaxis for all patients undergoing THR or TKR. urrent
therapeutic agents available for anticoagulant prophylaxis include low molecular weight
heparins fondaparinux, and adjusted-dose vitamin antagonists such as warfarin.
The duration of therapy is at least 10 days for both THR and for patients undergoing
THR, extended prophylaxis to up to 35 days after sru?gery is recommended. and
fondaparinux are administered subcutaneously, which may be associated with pain and
bruising as well as poor compliance. Warfarin is the only available oral anticoagulant for VTE
prophylaxis after major orthopedic sru?gery in the US. However, war?farin has a narrow
therapeutic window, exhibits variable dose response, has many dietary and medicinal
interactions, requires dose adjustment, and has a slow onset of action. Rivaroxaban offers an
alternative oral prophylactic therapy for VTE.

1ND 64,892 for rivaroxaban was submitted on May 29, 2002 for the treatment and secondary
prophylaxis of VTE by Bayer. All of the clinical trials submitted with the crurent NDA were
conducted by Bayer. Approximately one month prior to the submission of this NDA, Bayer
sold the rights of reference for use of the investigations to Johnson and Johnson. Johnson and
Johnson submitted NDA 22-406 as the applicant on July 28, 2008. Of note, both Bayer and
Johnson and Johnson submitted letters to the review division that the IND is now transferred to
Johnson and Johnson.

During the conduct of the clinical studies for this NDA, complaints were received regardin
two investigator?s em'olling subjects, one in RECORD 2 and one in RECORD 4. (m

 (4)

Brief synopses of the protocols which the review division requested to be inspected are given
below.

RECORD 1 Study: Regulation of Coagulation in Orthopedic Surgery to prevent DVT
and PE, controlled, double-blind, randomized study of BAY 59-7939 in the extended
prevention of VTE in patients undergoing elective total hip replacement (Protocol 1134)

RECORD 1 was a randomized, double-blind, double-drunmy, active comparator controlled,
multi-center and multi-national trial in patients ruidergoing elective THR conducted between
(m4) Subjects were em?olled at 218 centers in 27 cormtries. The
objective of the study was to assess the safety and ef?cacy of rivaroxaban 10 my once daily
compared with once daily subcutaneously administered enoxaparin 40 mg in extended
prevention of VTE in men and women aged 18 years or above rmdergoing elective THA.
Administration of BAY 59-7939 or placebo started on the day of surgery (Day 1) 6 to 8 hours
after wormd closm'e and thereafter once daily until Day 35 (the day before venography).
Enoxaparin 40 mg was administered once daily as a subcutaneous injection starting the
evening prior to sm?gery. Subsequently, enoxaparin or placebo was administered on the day of
sru?gery 6 to 8 horu?s after wound closure and thereafter once daily rmtil Day 35. Subjects were
evaluated days), 13 (i 2 days), and 36 (i 4 days) with a follow-up visit at
Day 65 days). On Day 0 prior to surgery, a physical examination was performed, and
medical history with demographics was recorded. Blood was sampled for clinical chemistry,
hematology, and coagulation parameters. An ECG was performed, and a mine pregnancy test
done for women of childbearing potential. On Day 1, blood samples for hematology and
clinical chemistry were taken after sru?gery but before study medication, and a physical
examination was performed. On Day 7, physical examination and blood sampling for
hematology and coagulation parameter were performed. On Day 13, physical examination and
blood sampling for hematology and clinical chemistry were performed. On Day 36, blood
samples for clinical chemistry, coagulation parameters, and hematology were taken, and
bilateral venography was performed. Adverse events will be recorded at each visit. On Day
65, adverse events, signs and diagnosis of VTE, and cardiovascular and bleeding events during
the 30 days after end of treatment will be recorded. Physical examinations were performed,
and a blood sample for clinical chemistry was taken.
The primary ef?cacy endpoint was a composite endpoint of:

•

Any DVT (proximal and/or distal)

•

Non-fatal PE

• Death from all causes
The analysis of the primary efficacy endpoint was solely based on the assessments made by the
Venography and VTE Adjudication Committee. Secondary efficacy endpoints were major
VTE, incidence of DVT, incidence of symptomatic VTE, incidence of symptomatic VTE
during follow-up, “net clinical benefit”, incidence of the composite endpoint that results from
the primary endpoint by substituting VTE-related death for all death, and incidence of the
composite endpoint that results from major VTE by substituting all-cause mortality for VTErelated death. The main safety endpoint was the incidence of treatment-emergent major
bleeding observed not later than 2 days after last intake of study drug. Major bleeding
occurring after this period was considered separately. Also included as safety variables were
treatment-emergent adverse events, serious adverse events, and deaths; adverse events starting
more than 2 days after stop of treatment, adjudicated cardiovascular events, incidence of
prolonged hospitalization, transfusion requirements, discontinuations due to adverse events,
and laboratory parameters.
Brief Summary of Results
There were 4541 subjects randomized at 218 centers. Of these, 4433 subjects received study
medication, and 3153 were valid for the modified intent to treat (MITT) analysis and 3029
were valid for the per-protocol (PP) analysis. In the PP analysis, 13/1537 (0.9%) subjects in
the rivaroxaban arm met the primary efficacy endpoint and 50/1492 (3.4%) of subjects in the
enoxaparin arm met the primary efficacy endpoint. These results demonstrated non-inferiority
against enoxaparin using a non-inferiority margin of 3.5%. The results in the MITT population
were similar, with the primary efficacy outcome reached by 18/1595 (1.1%) subjects in the
rivaroxaban population and 58/1558 (3.7%) subjects in the enoxaparin population. This
finding demonstrated statistical superiority (95% CI: -3.69%, -1.54%) of rivaroxaban over
enoxaparin in preventing VTE. A total of 520 randomized subjects discontinued treatment
prematurely (256 rivaroxaban subjects and 264 enoxaparin subjects). The most common
reason for study withdrawal was withdrawal of consent: 121/ 2010 (5.3% ) in the rivaroxaban
arm and 115/2011 (5.1% ) in the enoxaparin arm. The incidence of treatment-emergent major
bleeding events was 0.3% in the rivaroxaban arm and <0.1% in the enoxaparin arm. There
were no fatal bleeding events in either arm after start of study drug. There were 10 deaths in
the study, 5 in each arm, and the incidence of treatment-emergent serious adverse events was
similar between the 2 treatment groups (6.6% rivaroxaban, 8.1% enoxaparin).
RECORD 2 Study: Regulation of Coagulation in Orthopedic Surgery to prevent DVT
and PPE controlled, double-blind, randomized study of BAY- 59-7939 in the extended
prevention of VTE in patients undergoing elective total hip replacement (Protocol 11357)
RECORD 2 was a prospective, randomized, double-blind, double-dummy, active comparator
controlled, multi-center and multi-national trial in patients undergoing elective THR conducted
(b) (4)
between
. Subjects were enrolled at 123 active centers in 21
countries. The objective of the study was to compare the safety and efficacy of VTE
prophylaxis with rivaroxaban 10 my once daily administered for 5 weeks to enoxaparin 40 mg

4

 once daily administered for 10-14 days followed by placebo up to Day 35 in men and women
aged 18 years or above undergoing elective THR. Administration of rivaroxaban or placebo
started on the day of surgery (Day 1) at least 6 to 8 hours after wound closure and thereafter
once daily every 24 + 2 hours up to Day 35 + 4 (the day before venography). All subjects in
the rivaroxaban treatment group additionally received enoxaparin placebo subcutaneous
injections once daily in the evening, starting on Day 0 and ending on Day 12 + 2 (last dose).
Enoxaparin 40 mg was administered once daily as a subcutaneous injection starting the
evening prior to surgery (Day 0). Subsequently, enoxaparin or placebo was administered on
the day of surgery 6 to 8 hours after wound closure and thereafter once daily until Day 12 + 2.
Additionally, all subjects in the enoxaparin group received rivaroxaban placebo tablets. The
first rivaroxaban placebo tablet was taken on the day of surgery (Day 1), at least 6-8 hours after
wound closure, and subsequently once daily every 24 + 2 hours up to Day 35 + 4. Subjects
were evaluated at Day 0, 1, 7 (+ 2 days), 13 (+ 2 days), and 36 (+ 4 days) with a follow-up visit
at Day 65 (+ 5 days). On Day 0 prior to surgery, a physical examination was performed, and
medical history with demographics was recorded. Blood was sampled for clinical chemistry,
hematology, and coagulation parameters. An ECG was performed, and a urine pregnancy test
done for women of childbearing potential. On Day 1, blood samples for hematology and
clinical chemistry were taken after surgery but before study medication, and a physical
examination will be performed. On Day 7, physical examination and blood sampling for
hematology and coagulation parameter were performed. On Day 13, physical examination and
blood sampling for hematology and clinical chemistry were performed. On Day 36, blood
samples for clinical chemistry, coagulation parameters, and hematology will be taken, and
bilateral venography were performed. Adverse events will be recorded at each visit. On Day
65, adverse events, signs and diagnosis of VTE, and an assessment of cardiovascular and
bleeding events during the 30 days after end of treatment were recorded. Physical examination
will be performed, and a blood sample for clinical chemistry will be taken.
The primary efficacy endpoint was defined as a composite endpoint of:
• Any DVT (proximal and/or distal)
•

Non-fatal PE

• Death from all causes
The analysis of the primary efficacy endpoint was solely based on the assessments made by the
Independent Central Adjudication Committee and VTE Adjudication Committees. The major
secondary endpoint was the incidence of the composite endpoint comprising proximal DT,
non-fatal PE, and VTE-related death. Additional secondary efficacy endpoints were incidence
of symptomatic VTE, incidence of symptomatic DVT (total, proximal, distal), incidence of
symptomatic VTE during follow-up, incidence of PE, incidence of death, “net clinical benefit”,
incidence of the composite endpoint that results from the primary endpoint by substituting
VTE-related death for all death, and incidence of the composite endpoint that results from
major VTE by substituting all-cause mortality for VTE-related death. The main safety
endpoint was the incidence of treatment-emergent major bleeding observed not later than 2
days after last intake of study drug. Major bleeding occurring after this period was considered
separately. Also included as safety variables were treatment-emergent adverse events, serious
adverse events, and deaths; adverse events starting after treatment initiation up to 2 days after
last study treatment, adjudicated cardiovascular events, incidence of prolonged hospitalization,
transfusion requirements, discontinuations due to adverse events, and laboratory parameters.

5

 Brief Summary of Results
There were 2509 subjects randomized at 123 centers. Of these, 2457 subjects received study
medication, and 1733 were valid for the MITT analysis and 1615 were valid for the PP
analysis. In the PP analysis, 11/812 (1.4%) subjects in the rivaroxaban arm and 66/803 (8.2%)
of subjects in the enoxaparin arm met the primary efficacy endpoint. The results in the MITT
population were similar, with the primary efficacy outcome reached by 17/864 (2.0%) subjects
in the rivaroxaban population and 81/869 (9.3%) subjects in the enoxaparin population. This
finding demonstrated statistical superiority (95% CI: -9.41%, -5.15%) of rivaroxaban over
enoxaparin in preventing VTE. A total of 300 randomized subjects discontinued treatment
prematurely (135 rivaroxaban subjects and 165 enoxaparin subjects). The most common
reason for study withdrawal was withdrawal of consent in the rivaroxaban arm 51/1252 (4.1%
) and adverse events in the enoxaparin arm 54/1257 (4.3% ). The incidence of treatmentemergent major bleeding events was very low in both treatment groups (one subject each;
<0.1%). There were no fatal bleeding events in either arm after start of study drug. There
were 10 deaths in the study, 2 in the rivaroxaban arm and 8 in the enoxaparin arm, and the
incidence of treatment-emergent serious adverse events was slightly higher in the enoxaparin
group (10.7%) than in the rivaroxaban group (7.3%).
RECORD 3 Study: Regulation of Coagulation in Orthopedic Surgery to prevent DVT
and PE; a controlled, double-blind, randomized study of BAY 59-7939 in the prevention
of VTE in patients undergoing elective total knee replacement (Protocol 11356)
RECORD 3 was a prospective, randomized, double-blind, double-dummy, parallel-group,
active comparator controlled, multi-center and multi-national trial in patients undergoing
(b) (4)
elective TKR conducted between
. Subjects were enrolled at
147 active centers in 19 countries. The objective of the study was to assess the safety and
efficacy of rivaroxaban 10 mg once daily for the prevention of VTE in male and female
subjects aged 18 years or above undergoing elective TKA. Administration of rivaroxaban or
placebo started on the day of surgery (Day 1) 6 to 8 hours after wound closure, and continued
once daily until Day 12 + 2 (the day before venography). Enoxaparin 40 mg or matching
placebo was administered once daily as a subcutaneous injection starting 12 hours prior to
surgery (Day 0). Subsequently, enoxaparin or placebo was administered on the day of surgery
at least 6 to 8 hours after wound closure and on subsequent evenings until the final evening
dose administered on the evening of Day 12 + 2. Subjects were evaluated at Day 0, 1, 7 (+ 2
days), and 13 (+ 2 days), with a follow-up visit at Day 42 (+ 5 days). On Day 0 prior to
surgery, a physical examination was performed, and medical history with demographics was
recorded. Blood was sampled for clinical chemistry, hematology, and coagulation parameters.
An ECG was performed. On Day 1, blood samples for hematology and clinical chemistry
were taken after surgery but before study medication, and a physical examination was
performed. On Day 7, physical examination and blood sampling for hematology, clinical
chemistry, and coagulation parameters were performed. On Day 13, physical examination and
blood sampling for hematology, clinical chemistry, and coagulation parameters were
performed. On Day 42, adverse events, signs and diagnosis of DVT/PE were recorded.
Physical examinations were performed, and a blood sample for clinical chemistry was taken.
The primary efficacy endpoint was defined as a composite endpoint of:

6

 •

Any DVT (proximal and/or distal)

•

Non-fatal PE

• Death from all causes
The analysis of the primary efficacy endpoint was solely based on the assessments made by the
Independent Central Adjudication Committee and VTE Adjudication Committees. The major
secondary endpoint was the incidence of the composite endpoint comprising proximal DVT,
non-fatal PE, and VTE-related death. Additional secondary efficacy endpoints were incidence
of DVT (total, proximal, distal), incidence of symptomatic VTE (DVT, PE), incidence of
symptomatic VTE during follow-up, “net clinical benefit” assessed by the composite endpoint
comprising major VTE and treatment-emergent major bleeding, incidence of the composite
endpoint that results from the primary endpoint by substituting VTE-related death for all death,
and incidence of the composite endpoint that results from major VTE by substituting all-cause
mortality for VTE-related death. The main safety endpoint was the incidence of treatmentemergent major bleeding observed no later than 2 days after last intake of study drug. Major
bleeding observed after this period was considered separately. Also included as safety
variables were treatment-emergent adverse events, serious adverse events, and deaths; adverse
events starting after treatment initiation up to 2 days after last study treatment, adjudicated
cardiovascular events, incidence of prolonged hospitalization, transfusion requirements,
amount of intraoperative blood loss, postoperative volume of drainage, and laboratory
parameters.
Brief Summary of Results
There were 2531 subjects randomized at 147 centers. Of these, 2459 subjects received study
medication, and 1702 were valid for the MITT analysis and 1631 were valid for the PP
analysis. In the PP analysis, 74/793 (9.3%) subjects in the rivaroxaban arm met the primary
efficacy endpoint and 152/838 (18.1%) of subjects in the enoxaparin arm met the primary
efficacy endpoint described by the sponsor as demonstrating noninferiority against enoxaparin,
based on a noninferiority margin of 4%. The results in the MITT population were similar, with
the primary efficacy outcome reached by 79/824 (9.6%) subjects in the rivaroxaban population
and 166/878 (18.9 %) subjects in the enoxaparin population, described by the sponsor as
demonstrating superiority of rivaroxaban over enoxaparin in preventing VTE (95% CI: 12.40%, -5.89%). A total of 282 randomized subjects discontinued treatment prematurely (127
rivaroxaban subjects and 155 enoxaparin subjects). The most common reason for study
withdrawal was withdrawal of consent in both arms: 68/ 1254 (5.4% ) in the rivaroxaban arm
and 60/1277 (4.7%) in the enoxaparin arm. The incidence of treatment-emergent major
bleeding events was low in both treatment groups (0.6% in the rivaroxaban arm versus 0.5% in
the enoxaparin arm). There were no fatal bleeding events reported in either group. There were
6 deaths in the study, all in the enoxaparin arm. The incidence of treatment-emergent serious
adverse events was slightly lower in the enoxaparin group (7.4%) than in the rivaroxaban
group (8.9%).
RECORD 4 Study: Regulation of Coagulation in Orthopedic Surgery to prevent DVT
and PE; a controlled, double-blind, randomized study of BAY 59-7939 (rivaroxaban) in
the prevention of VTE in subjects undergoing elective total knee replacement (Protocol
11355)

7

 RECORD 4 was a prospective, randomized, double-blind, double-dummy, parallel-group,
active comparator controlled, multi-center and multi-national trial in patients undergoing
(b) (4)
elective TKR conducted between
. Subjects were enrolled at 131
active centers in 12 countries. The objective of the study was to assess the safety and efficacy
of rivaroxaban 10 mg once daily for the prevention of VTE in male and female subjects aged
18 years or above undergoing elective TKA. Administration of rivaroxaban or placebo started
on the day of surgery (Day 1) 6 to 8 hours after wound closure, and continued once daily until
Day 12 + 2 (the day before venography). Enoxaparin 30 mg bid or matching placebo was
administered twice daily as a subcutaneous injection starting 12-24 hours after wound closure.
Thereafter, enoxaparin active or placebo was administered subcutaneously twice daily, once in
the morning and once in the evening (every 12 + 2 hours), until the final evening dose
administered on the evening of Day 12 + 2 (the day prior to venography). Subjects were
evaluated at Day 0, 1, 6 (+ 2 days), and 13 (+ 2 days), with a follow-up visit at Day 42 (+ 5
days). On Day 0 prior to surgery, a physical examination was performed, and medical history
with demographics was recorded. Blood was sampled for clinical chemistry, hematology, and
coagulation parameters. An ECG was performed. On Day 1, blood samples for hematology
and clinical chemistry were taken after surgery but before study medication, and a physical
examination was performed. On Day 6, physical examination and blood sampling for
hematology, clinical chemistry, and coagulation parameters were performed. On Day 13,
physical examination and blood sampling for hematology, clinical chemistry, and coagulation
parameters were performed. On Day 42, adverse events, signs and diagnosis of DVT/PE were
recorded. Physical examinations were performed, and a blood sample for clinical chemistry
was taken.
The primary efficacy endpoint was defined as a composite endpoint of:
• Any DVT (proximal and/or distal)
•

Non-fatal PE

• Death from all causes
The analysis of the primary efficacy endpoint was solely based on the assessments made by the
Independent Central Adjudication Committee and VTE Adjudication Committees. The major
secondary endpoint was the incidence of the composite endpoint comprising proximal DVT,
non-fatal PE, and VTE-related death. Additional secondary efficacy endpoints were incidence
of DVT (total, proximal, distal), incidence of symptomatic VTE (DVT, PE), incidence of
symptomatic VTE during follow-up, “net clinical benefit” assessed by the composite endpoint
comprising major VTE and treatment-emergent major bleeding, incidence of the composite
endpoint that results from the primary endpoint by substituting VTE-related death for all death,
and incidence of the composite endpoint that results from major VTE by substituting all-cause
mortality for VTE-related death. The main safety endpoint was the incidence of treatmentemergent major bleeding observed no later than 2 days after last intake of study drug. Major
bleeding observed after this period was considered separately. Also included as safety
variables were treatment-emergent adverse events, serious adverse events, and deaths; adverse
events starting after treatment initiation up to 2 days after last study treatment, adjudicated
cardiovascular events, incidence of prolonged hospitalization, transfusion requirements,
amount of intraoperative blood loss, postoperative volume of drainage, and laboratory
parameters. Other safety variables included the incidence of any treatment-emergent bleeding
observed no later than 2 days after last intake of study drug, the incidence of non-major

8

 treatment–emergent bleeding observed no later than 2 days after last intake of study drug,
incidence of postoperative bleeding, and incidence of surgical site bleeding associated with > 2
g/dL fall in hemoglobin or leading to infusion of > 2 units of whole blood or packed cells.
Brief Summary of Results
There were 3148 subjects randomized at 131 centers. Of these, 3034 subjects received study
medication, and 1924 were valid for the MITT analysis and 1742 were valid for the PP
analysis. In the PP analysis, 58/864 (6.7%) subjects in the rivaroxaban arm met the primary
efficacy endpoint and 82/878 (9.3%) of subjects in the enoxaparin arm met the primary
efficacy endpoint described by the sponsor as demonstrating noninferiority against enoxaparin,
based on a noninferiority margin of 4%. The results in the MITT population were similar, with
the primary efficacy outcome reached by 67/965 (6.9%) subjects in the rivaroxaban population
and 97/959 (10.1%) subjects in the enoxaparin population, described by the sponsor as
demonstrating superiority of rivaroxaban over enoxaparin in preventing VTE (95% CI: 5.67%, -0.71%). A total of 310 randomized subjects discontinued treatment prematurely (159
rivaroxaban subjects and 151 enoxaparin subjects). The most common reason for study
withdrawal was adverse events in both arms: 62/ 1584 (3.9%) in the rivaroxaban arm and
56/1564 (3.6%) in the enoxaparin arm. The incidence of treatment-emergent major bleeding
events was low in both treatment groups (0.7% in the rivaroxaban arm versus 0.3% in the
enoxaparin arm). With regard to critical bleeding events, there was one retroperitoneal
bleeding event (rivaroxaban), one intracranial bleed (enoxaparin), and one
intraspinal/hemorrhagic puncture event (enoxaparin). There was one fatal bleeding event
reported in the rivaroxaban treatment group. Twelve subjects died during the study, 6 in the
rivaroxaban group and 6 in the enoxaparin group. The incidence of treatment-emergent serious
adverse events was similar between the two groups: 5% in the rivaroxaban group and 7% in the
enoxaparin group.
Rationale for Site Selection
Rivaroxaban is a new molecular entity which is an oral anticoagulant with the proposed
indication of prophylaxis of VTE. The site selection is based on the review division’s analysis
of efficacy of rivaroxaban versus the comparator at individual sites. Sites which showed a
greater efficacy of rivaroxaban in relation to comparator which had relatively high enrollment
were chosen. Two sites for each of the pivotal studies were selected for inspection.

9

 II. RESULTS (by Site):
Name of CI, IRB, or Sponsor
Location

Protocol # and # of
Subjects

Andrzej Gorecki
Szpital Kliniczny Dzieciatka
Jezus – Centrum Leczenia
Obrazen
Klinika Ortopedii i Traumatologii
Narzadu Ruchu
ul. Lindleya 4
02-005 Warszawa, POLAND
Tadeusz Gazdzik
Slaska Akademia Medyczna
Katedra I Oddzial
Kliniczny Ortopedii
Wojewodzki Szpital
Specjalistyczny Nr 5
im. Sw. Barbaby
Pl. Medykow 1
41-200 Sosnowiec, POLAND
Qingming Yang
Rui Jin Hospital, Shanghai
Second Medical Univeristy
Orthorpaedic Department
Shanghai Ryuijin Hospital
No. 197 Ruijin Second Road
Shanghai, CHINA 200025

Protocol # 11354, RECORD 1
Site # Poland 18006

Cesar Diaz Valverde
Hospital Edgardo Rebagliati
Martins
Av. Edgardo
Rebagliati Martins S/N
JESUS MARIALima
Lima, 11 PERU

Protocol # 11357, RECORD 2
Site # Peru 64005

Bingfang Zeng
Affiliated Sixth People’s Hospital
Orthorpaedic Department
No. 600 Yishan Road,
Xuhui District
Shanghai, CHINA 200233

Protocol # 11356, RECORD 3
Site # China 54014

Jacek Kruczynski
Szpital Uniwersytecki im.
Antoniego
Jurasze
Klinika Ortopedii i Traumatologii
Narzadu Ruchu
ul. M. Sklodowskiej-Curie 9
85-094, Bydgoszcz
POLAND

Protocol # 11356, RECORD 3
Site # Poland 18003

Inspection
Date
Pending

Interim
Classification
NAI

Final Classification

Pending

NAI

Pending

OAI

Pending

VAI

Pending

OAI

Pending

VAI

Pending

Pending

# of subjects (Total# 71):
Xarelto: 36
Enoxaparin: 35

Protocol # 11354, RECORD 1
Site # Poland 18012
# of subjects (Total#: 76):
Xarelto: 38
Enoxaparin: 38

Protocol # 11357, RECORD 2
Site # China 54005

(b) (4)

# of subjects (Total# 34):
Xarelto: 17
Enoxaparin: 17

# of subjects (Total# 41):
Xarelto: 20
Enoxaparin: 21

# of subjects (Total# 26):
Xarelto: 13
Enoxaparin: 13

# of subjects (Total# 36):
Xarelto: 18
Enoxaparin: 18

 R. Michael Murray
Capstone Clinical Research
2018 Brookwood Medical Center
Suite 314
Birmingham, AL 35209

(b) (4)

Pending

Pending

Pending

Pending

Pending

Pending

Pending

Pending

Pending

Pending

Protocol # 11355, RECORD 4
Site # 14005
# of subjects
(Total # 152)
Xarelto: 76

Enoxaprin: 76
David Fox
Unlimited Research, LP
12709 Toepperwein Road
Suite 101
San Antonio, TX 78233

Bayer Pharmaceutical
340 Change Bridge Rd.
Pine Brook, NJ 07058
Johnson & Johnson
920 U.S. Highway 202
Raritan, NJ 08869-0602

Protocol #11355, Record 4
Site #14022
# of subjects (Total # 64)
Xarelto: 32
Enoxaparin: 32
Protocol # 11354, RECORD 1
Protocol # 11357, RECORD 2
Protocol # 11356, RECORD 3
Protocol #11355, Record 4

Key to Classifications
NAI = No deviation from regulations.
VAI = Deviation(s) from regulations.
OAI = Significant deviations from regulations. Data unreliable.
Pending = Preliminary classification based on information in 483 or preliminary communication with the field;
EIR has not been received from the field and complete review of EIR is pending.

1.

Andrzej Gorecki
Szpital Kliniczny Dzieciatka Jezus – Centrum Leczenia
Obrazen
Klinika Ortopedii i Traumatologii
Narzadu Ruchu
ul. Lindleya 4
02-005 Warszawa, POLAND
a. What was inspected: The inspection was conducted in accordance with
Compliance Program 7348.811. There was no screening log maintained at the
site; all subjects listed in the Subject ID log were randomized. There were 71
subjects enrolled and 69 subjects completed the study; 1 subject discontinued
due to withdrawal of consent and one subject discontinued due to a protocol
violation (concomitant oral anticoagulant). The informed consent of all subjects
were reviewed, and the medical file and venography films were verified for all
subjects. The files of 20 subjects were reviewed/translated, with a review focus
on adverse events. The EIR was not available at the time this CIS was written.
The observations noted are based on preliminary communications with the FDA
field investigator. An inspection summary addendum will be generated if
conclusions change upon receipt and review of the final EIR. There were no

2

 limitations to the inspection.
b. General observations/commentary: No issues were noted with the Informed
Consent Documents, record review, study drug accountability, or general
conduct of the study. The primary efficacy endpoint was verifiable. No Form
FDA 483 was issued to the investigator. The inspector notes that there was
some underreporting of non-serious adverse events. The Sponsor was aware of
this underreporting and allowed the investigator to report non-serious adverse
events that were unexpected for the patient and/or atypical for the procedure. In
addition, the dispensing log was completed in a retrospective manner; however,
the actual administration log book was completed at administration.
c. Assessment of data integrity: The data from Dr. Gorecki’s site appear acceptable for
use in support of the NDA.
2.

Tadeusz Gazdzik
Slaska Akademia Medyczna
Katedra I Oddzial
Kliniczny Ortopedii
Wojewodzki Szpital
Specjalistyczny Nr 5
im. Sw. Barbaby
Pl. Medykow 1
41-200 Sosnowiec, POLAND
a. What was inspected: The inspection was conducted in accordance with
Compliance Program 7348.811. There was no screening log maintained at the
site; all subjects listed in the Subject ID log were randomized. There were 76
subjects enrolled and 69 subjects completed the study; 4 subjects were
discontinued due to withdrawal of consent, one subject was discontinued
because surgery was not done, one subject discontinued due to a history of
liver disease, and one discontinued due to a SAE (myocardial infarction). The
informed consent documents of all subjects were reviewed, and the medical
file and venography films were verified for all subjects. The files of 36
subjects were reviewed in part; 12 subject files had all progress notes
translated, with a review focus on adverse events. The EIR was not available
at the time this CIS was written. The observations noted are based on
preliminary communications with the FDA field investigator. An inspection
summary addendum will be generated if conclusions change upon receipt and
review of the final EIR. There were no limitations to the inspection.
b. General observations/commentary: No issues were noted with the Informed
Consent Documents, record review, study drug accountability, adverse event
reporting, or general conduct of the study. The primary efficacy endpoint was
verifiable. No Form FDA 483 was issued to the investigator.

3

 c. Assessment of data integrity: The data from Dr. Gazdzik’s site appear acceptable for
use in support of the NDA.
3.

Qingming Yang
Rui Jin Hospital, Shanghai Second Medical University
Orthorpaedic Department
Shanghai Ryuijin Hospital
No. 197 Ruijin Second Road
Shanghai, CHINA 200025
a. What was inspected: The inspection was conducted in accordance with
Compliance Program 7348.811. There were 34 subjects screened at the site,
and all 34 were enrolled. There were 23 subjects who completed the study.
The EIR was not available at the time this CIS was written. The observations
noted are based on preliminary communications with the FDA field
investigator and the Form FDA 483. In addition, a letter responding to the
Form FDA 483 dated March 3, 2009 from Dr. Yang was reviewed as well as
(b) (6)
an affidavit generated during the inspection by a subinvestigator,
An inspection summary addendum will be generated if conclusions
change upon receipt and review of the final EIR. There were no limitations to
the inspection.
b. General observations/commentary: Several deviations from FDA regulations
were noted, and a Form FDA 483 was issued for these violations. The
inspection documented that the investigator did not adhere to the
investigational plan, in violation of 21 CFR 312.60, failed to report to the
sponsor adverse events, in violation of 21 CFR 312.64, did not prepare and
maintain adequate and accurate case histories with respect to observations and
data pertinent to the investigation, in violation of 21 CFR 312.62(b), failed to
include contact information for subject questions in the Informed Consent
Document (ICD), in violation of 21 CFR 50, and failed to include in the ICD
the possibility that the FDA may inspect the study records.
Protocol Violations [21 CFR 312.60]
1. The Principal Investigator (PI) did not ensure that all associates and
colleagues assisting in the investigation were meeting the commitments
(b) (6)
of the study protocol and regulations. Sub-Investigator
was
discovered to have recorded a Visit on Day 65 for Subject 54005-7005
(b) (6)
(b) (6)
However, Sub-Investigator
contacted the subject and
confirmed that the patient visit never took place; according to the
inspector, the visit was struck out in the record. However, there was no
further investigation into this incident, nor into whether the same issue
may emerge in other subject records. An affidavit was taken from the
Sub-Investigator regarding this incident; the PI also addressed this
incident in a letter responding to all the findings listed in the Form FDA
4

 483. However, the versions of this incident in the affidavit and the letter
are not the same.
Adverse Event Reporting [21 CFR 312.64]
(b) (6)
(b) (6)
1. There were two subjects (54005-7021
and 54005-7006
) who
experienced a > 2 g/dL drop in hemoglobin requiring transfusion of 400
mL of Red Blood Cells (RBCs) and 200 mL of Fresh Frozen Plasma
(b) (6)
(FFP). Two additional subjects (54005-7005
and 54005-7017
(b) (6)
) had a > 2 g/dL drop in hemoglobin and received transfusion of
RBCs and FFPs. None of these were reported as adverse events. In his
response letter the PI states that blood loss and transfusion is normal for
a subject post orthopedic surgery and therefore was not considered an
adverse event. However, the definition of adverse events contained in
the protocol does not exclude such conditions.
Medical Officer Comment: It is possible that these adverse
events were reported as “Bleeding Events”, a safety variable in
this study. However, such reporting does not obviate the
requirement to report them as adverse events, as the protocol
does not exclude postoperative conditions.
(b) (6)
(b) (6)
2. There were two subjects (54005-7020
and 54005-7012
)
with elevations of AST and/or ALT of 1.5 to > 3 times the upper limit
of normal on several occasions which were not reported as Adverse
Events.
3. Subject 54005-7021 experienced nausea which was not reported as an
adverse event.
4. Subject 54005-7006 experienced constipation for 3 days which was not
reported as an adverse event.
5. Subject 54005-7005 had a decreased albumin on two occasions (Day 3
and Day 7) for which albumin infusions on Day 5 and Day 6 were
administered.
Recordkeeping Violations [21 CFR 312.62(b)]
1. There is no source data maintained by the Clinical Investigator (CI) of
the actual investigational drug administration times for all subjects.
The CI assumes that the study nurse administers IV and oral doses
according to the Long-Term orders in the medical records. The PI’s
response indicates that this procedure is standard Chinese medical
practice, and that nurses maintain their own temporary notes regarding
drug administration which are later discarded.
2. The CI did not maintain a complete copy of the informed consent forms
for all subjects; only the last two pages were retained in the subject
(b) (6)
(b) (6)
record for Subjects 54005-7021
, 54005-7029
54005-7030
(b) (6)
(b) (6)
(b) (6)
(b) (6)
54005-7032
, 54005-7033, and 54005-7034
3. Source documents for Day 36 and 65 were not always completed and
signed by the Sub-investigator completing the forms, and they were not
reviewed by the PI. These source documents included In-Patient Study

5

 Drug Administration, Adverse Event Reports, Blood Transfusion,
Drug Administration After-Discharge, and end of treatment records for
(b) (6)
(b) (6)
(b) (6)
Subjects 54005-7004
54005-7005
, 54005-7012
(b) (6)
(b) (6)
54005-7020
, and 54005-7021
.
Informed Consent Violations [21 CFR 50]
1. The version of the ICD signed by all 33 subjects lacked the contact
information of the CI and the IRB/EC. This version of the IC was
approved by the IRB/Ethics Committee.
2. The ICD signed by all 33 subjects enrolled in the clinical trial did not
include the statement that the U.S. FDA may inspect the study records.
c. Assessment of data integrity: There were protocol, adverse event reporting,
recordkeeping, and informed consent violations reported from this site. Of most
concern is the apparent falsification of data by a subinvestigator for a patient visit.
However, of even more significance is that there was no investigation into this incident
by the PI or his representative, and the Sub-investigator who entered the erroneous data
continued to perform study-related procedures. Lastly, the lack of consistency between
the Sub-Investigator’s affidavit and the PI’s letter raises concern regarding the veracity
of the information provided. In addition, there appears to be significant underreporting
of adverse events from this site, including anemia/bleeding requiring transfusion and
liver function abnormalities. DSI recommends that the data from subjects enrolled in
RECORD 2 at Dr. Yang’s site not be considered acceptable for use in support of the
NDA. In addition, any data obtained from subjects enrolled in RECORD 3 at this site
should also be regarded as unreliable. Although data from RECORD 3 at Dr. Yang’s
site was not audited, the Sub-investigator in question may have participated in study
activities, and the lack of oversight appears to be significant at this clinical trial site.
4.

Cesar Diaz Valverde
Hospital Edgardo Rebagliati Martins
Av. Edgardo
Rebagliati Martins S/N
JESUS MARIALima
Lima, 11 PERU
a. What was inspected: The inspection was conducted in accordance with
Compliance Program 7348.811. There were 41 subjects enrolled at the site; a
screening log was not maintained. There were 39 subjects who completed the
study; 1 subject withdrew due to a SAE and 1 subject withdrew consent. The
EIR was not available at the time this CIS was written. The observations
noted are based on preliminary communications with the FDA field
investigator and the Form FDA 483. An inspection summary addendum will
be generated if conclusions change upon receipt and review of the final EIR.
There were no limitations to the inspection.

6

 b. General observations/commentary: Several deviations from FDA
regulations were noted, and a Form FDA 483 was issued for these violations.
The inspection documented that the investigator did not adhere to the
investigational plan, in violation of 21 CFR 312.60 and did not prepare and
maintain adequate and accurate case histories with respect to observations and
data pertinent to the investigation, in violation of 21 CFR 312.62(b).
Protocol Violations [21 CFR 312.60]
1. The following adverse events were not reported as required by the
protocol: Subject 7001 – abdominal distention, nausea, and vomiting;
Subject 7002 – constipation and nausea; Subject 7004 – sore throat;
Subject 2006 – short of breath; Subject 7012 – headache and gastric
discomfort; Subject 7026 – headache; blurred vision, vertigo, and
vomiting; Subject 7036 – gluteal dermatitis and cough; Subject 7038 –
liquid stools; rash and itching; headaches on 3 occasions; Subject 7039 –
nausea and 2 episodes of chest pain; and Subject 7041 - gastric
discomfort.
2. The following concomitant medications were not documented: Subject
7001 – Glycerin suppository; Subject 7002 – Glycerin suppository; and
Subject 7008 – Timolol eye drops.
3. Subject 7009 did not have a 12 lead ECG printout in the medical or
source records, although the CRF indicates that one was done.
4. The protocol requires that venography studies (performed for DVT
diagnosis) be done in the respective hospital radiology unit. The subjects
at this site did not have the bilateral venography performed at the
respective hospital radiology unit, and there is no documentation for the
CI fully explaining this deviation.
5. There was no source documentation for the receipt of the Coagulation
(b) (4)
blood samples by the
for Subject 7024 on Day 0.
6. The source hospital medical record for Subject 7013 was not available for
the inspector’s review and was reported to be lost from the central
archive.
Recordkeeping Violations [21 CFR 312.62(b)]
1. The source hospital medical record for Subject 7013 was not available for
the inspector’s review and was reported to be lost from the central archive.
2. Subject 7009 did not have a 12 lead ECG printout in the medical or source
records, although the CRF indicates that one was done.
3. There was no source documentation for the receipt of the Coagulation
(b) (4)
blood samples by the
for Subject 7024 on Day 0.
c. Assessment of data integrity: Although protocol and recordkeeping violations
occurred at this site, it is unlikely that these errors will impact the final outcome of the
study. However, significant underreporting of adverse events at this site raises the
question of whether the rights, safety, and welfare of any of the randomized subjects

7

 was compromised due to these inaccuracies. The data appear acceptable for use in
support of the NDA.
5.

Bingfang Zeng
Affiliated Sixth People’s Hospital
Orthorpaedic Department
No. 600 Yishan Road,
Xuhui District
Shanghai, CHINA 200233
a. What was inspected: The inspection was conducted in accordance with
Compliance Program 7348.811. There were 26 subjects enrolled at the site.
There were 23 subjects who completed the study. The EIR was not available at
the time this CIS was written. The observations noted are based on preliminary
communications with the FDA field investigator and the Form FDA 483. An
inspection summary addendum will be generated if conclusions change upon
receipt and review of the final EIR. There were no limitations to the inspection.
b. General observations/commentary: Several deviations from FDA regulations
were noted, and a Form FDA 483 was issued for these violations. The
inspection documented that the investigator did not adhere to the investigational
plan, in violation of 21 CFR 312.60 and did not promptly report to the sponsor
adverse effects that may reasonably be regarded as caused by or probably
caused by, a investigational drug, in violation of 21 CFR 312.64.
Protocol Violations [21 CFR 312.60]
1. Two subjects were administered prohibited concomitant medications
(b) (6)
while enrolled in the clinical trial. Subjects 54014-6001
and 54014(b) (6)
6014
were treated with Salvia Miltiorrhiza (a platelet inhibitor) from
Day 7 to Day 13 and on Day 2, respectively.
2. Subject 54014-6001 was treated with Aescuven Forte which was not listed
on the concomitant drug list (eCRF) .
Adverse Event Reporting [21 CFR 312.64]
1. Two subjects did not have SAEs reported within 24 hours of the
investigator’s awareness of the event.
i. Subject 54014-6007 was diagnosed with a DVT in the right
leg on June 27, 2006. This SAE was not reported to the
Sponsor until March 2, 2007 and the IRB/EC until March 19,
2007.
(b) (6)
ii. Subject 54014-6014
was diagnosed with a DVT in the
right calf on October 6, 2006. The SAE was not reported to
the Sponsor and the IRB/EC until October 11, 2006.
2. Multiple subjects did not have adverse events reported to the sponsor,
although the concomitant medications they received for these conditions
(b) (6)
were recorded. These include Subject 54014- 6001
– swelling and
8

 decreased albumin levels; Subject 54014-6006 Om swelling at the
incision site; Subject 54014-6009 mm phlegm/sputum production;
Subject 54014-6012 m? insomnia; Subject 54014-6013 
constipation and phlegm; Subject 54014-6014 mm? trophic nerve on
two occasions and blood vessel constriction; Subject 54014-6015 mm
chest stress and phlegm; Subject 54014-6018 fever and decrease in
hemoglobin; Subject 54014-602C mm ?dephlogisticate?, fever, and
wormd swelling; Subject 54014-6023 mm stomach pain.

. Assessment of data integrity: Although protocol and adverse event reporting
violations occurred at this site, it is unlikely that these eirors will impact the ?nal
outcome of the study. However, signi?cant lmderreponing of adverse events at this
site raises the question of whether the rights, safety, and welfare of any of the
randomized subjects was compromised due to these inaccuracies. The data appear
acceptable for use in support of the NDA.

acek 

Szpital Uniwersytecki im.
Antoniego

Jurasze

Klinika Ortopedii i Traumatologii
Narzadu Ruchu

11]. M. Sklodowskiej-Curie 9
85-094, Bydgoszcz

POLAND

. What was inspected: The inspection was conducted in accordance with
Compliance Program 7348.811. There were 36 subjects em?olled at the site;
there was no screening log at the site. There were 34 subjects who completed
the study; 2 subjects did not have surgery. The informed consent documents of
all subjects were reviewed, and the medical ?le and venography ?hns were
veri?ed for all subjects. The progress notes in the ?les of 13 subjects were
translated and reviewed. The EIR was not available at the time this CIS was
written. The observations noted are based on preliminary with
the FDA ?eld investigator and the Form FDA 483. An inspection summary
addendum will be generated if conclusions change upon receipt and review of
the ?nal EIR. There were no limitations to the inspection.

. General observations/commentary: Several deviations from FDA regulations
were noted, and a F01m FDA 483 was issued for these violations. The

inspection documented that the investigator did not adhere to the investigational
plan, in violation of 21 CFR 312.60.

Protocol Violations [21 CFR 312.60]
1. Subjects were randomized prior to required screening activities. Subjects
6006, 6010, 6011, 6012, 6014, 6019, 6020, and 6025 were randomized prior
to obtaining subjects’ ECG’s and/or blood sampling for hematology, clinical
chemistry, coagulation parameters, and serology retention sample.
2. ECG interpretation by Internal Medicine/Cardiology was not
implemented/recorded in source documentation until approximately June,
2006. ECGs performed prior to this time were retrospectively reviewed and
documented for source/CRF entry.
3. Investigational drug disposition records were not adequate with respect to
dates, quantity and use by subjects in source subject drug administration
records (temperature charts) were completed by subinvestigators not
administering or witnessing the administration of the study drugs. The
records do not document the identity and signature of
administering/dispensing person.
Medical Officer’s Comment: The inspector notes in an accompanying
email that the actual administration log book at the site was completed
at administration. Therefore, although this citation represents a
protocol violation, it does not affect data integrity.
c. Assessment of data integrity: Although protocol violations occurred at this site, it is
unlikely that these errors will impact the final outcome of the study. The data appear
acceptable for use in support of the NDA.
7.

R. Michael Murray
Capstone Clinical Research
2018 Brookwood Medical Center
Suite 314
Birmingham, AL 35209
a. What was inspected: The inspection was conducted in accordance with
Compliance Program 7348.811. There were 178 subjects who signed informed
consent at the site, and 153 were randomized. The EIR was not available at the
time this CIS was written. The observations noted are based on preliminary
communications with the FDA field investigator and the Form FDA 483. An
inspection summary addendum will be generated if conclusions change upon
receipt and review of the final EIR. There were no limitations to the inspection.
b. General observations/commentary: The inspection documented that the
investigator did not prepare and maintain adequate and accurate case histories
with respect to observations and data pertinent to the investigation, in violation
of 21 CFR 312.62(b), and did not adhere to the investigational plan, in violation
of 21 CFR 312.60.

10

 Recordkeeping Violations [21 CFR 312.62(b)]
1. Subject 5117 experienced an elevated lipase. Site email dated 7/2/07 from
Capstone Clinical Trials, Inc. President/CEO to the monitor reported that the
subject “was receiving rivaroxaban in the Bayer 11355 trial”. The
inspector’s review of the study records failed to reveal how the site became
awar of the Subject’s blinded treatment assignment. No documentation was
observed of sponsor or site emergency unblinding of this subject.
2. The site lacked documentation of IRB approval of the following:
i. The performance of study screen visits at locations outside of routine
clinical settings and not listed on the Form FDA 1572. For example
screening visits including physical exams, ECGs, blood draws, etc.
were conducted in subjects’ homes and hotel rooms.
ii. The performance of post-enrollment study visits that included physical
exams and administration of the test article at sites not listed on the
Form FDA 1572 not under the PI’s supervision. Subjects were
sometimes moved to an inpatient rehabilitation facility together with
the test article where it was dispensed and administered by the rehab
center staff who had not received training on the protocol or GCP.
Study visits were also conducted at subject’s homes after the subjects
had been discharged from the hospital, including the article
administration, physical exams, and blood draws. These alternate sites
(b) (4)
included the site’s sister company,
, the
subject’s place of employment, and an outpatient physical therapy
center.
iii. Payment/reimbursement of subjects’ hotel stays, mileage, and
transportation costs like cab fares, despite the IRB-approved informed
consent which states “the maximum total possible payment is
$250.00”. The consent document does not mention additional
services/reimbursement.
3. The site lacked documentation that the Final Report/notice of study closure
was submitted to the IRB (or that the Board acknowledged receipt of the
final report/study closure). A copy of the site’s computer version of the
Final Report dated 4/24/08 that is unsigned/unofficial was provided during
the inspection; however, there is no documentation that this report was
submitted to the board.
4. The most recent status report submitted to the IRB was the Annual Review
Report dated 6/26/07 and signed by the PI states in Item #8 that the site is
currently enrolling patients in this study. In Item #9 it states that “this study
is closed to further enrollment”. In addition, the following statement was
included: “. . . as this study is no longer open to enrollment. No further
subjects will be consented.”. According to the site enrollment logs, subjects
were enrolled/randomized through 10/9/07.
5. The site Signature Sheet and Delegation of Duties Log is inaccurate in that
the Log does not reflect the performance of physical exams by the Physician
Assistants (who routinely conducted physical exams throughout the study).
At least one physical exam was performed by an RN/study coordinator per

11

 source records. RNs are not licensed to conduct physical exams in the state
of Alabama.
Protocol Violations [21 CFR 312.60]
1. Subjects were randomized post-surgery rather than prior to surgery.
According to the protocol, randomization was to take place following
screening on Day 0 or prior to surgery on Day 1.
c. Assessment of data integrity: Although protocol and recordkeeping violations
occurred at this site, it is unlikely that these errors will impact the final outcome of the
study. The data appear acceptable for use in support of the NDA.
8.

David Fox
Unlimited Research, LP
12709 Toepperwein Road
Suite 101
San Antonio, TX 78233
a. What was inspected: The inspection was conducted in accordance with Compliance
Program 7348.811. There were 72 subjects screened at the site, and 64 were enrolled.
There were 60 patients who completed the study. During the inspection, 23 subject
records were reviewed, and all 72 informed consent documents were reviewed. The
EIR was not available at the time this CIS was written. The observations noted are
based on preliminary communications with the FDA field investigator and the Form
FDA 483. An inspection summary addendum will be generated if conclusions change
upon receipt and review of the final EIR. There were no limitations to the inspection.
b. General observations/commentary: The inspection documented that the investigator
did not obtain informed consent in accordance with 21 CFR 50 from each human
subject prior to drug administration and that the investigator did not adhere to the
investigational plan, in violation of 21 CFR 312.60.
Informed Consent Violations [21 CFR 50]
1. The CI failed to obtain informed consent from each human subject prior to drug
administration and conducting study related tests.
i. Subjects 5070 signed an informed consent document on September 13, 2007
that had expired on September 12, 2007, and did not sign the next approved
version.
ii. Subject 5071 signed an informed consent document on September 19, 2007
that had expired on September 12, 2007. This subject then signed the next
approved version of the consent form on September 25, 2007.
2. The CI failed to have Subjects 5046, 5047, 5049, 5066, and 5068 sign a new
version of the informed consent document after the original signed informed
consent document is superceded.

12

 Protocol Violations [21 CFR 312.62(b)]
1. According to the protocol, on Day 0 (the day prior to surgery), the subject
will be randomized if eligible for the study. All 23 subjects reviewed were
randomized on Day 1 instead of Day 0.
2. According to the protocol, on Day 6 + 2, blood sampling for hematology,
clinical chemistry, and coagulation parameters was to be done for all
subjects. Subject 5003 and 5010 did not have their coagulation parameters
drawn in the correct timeframe.
3. The visit for Study Day 42 was conducted out of the visit window (Day 42 +
5) for the following subjects: Subject 5003 – 3 days out of window; Subject
5010 – 2 days out of window; Subject 5011 - 2 days out of window; Subject
5018 – 2 days out of window; Subject 5024 – 3 days out of window; Subject
5025 – 2 days out of window; Subject 5041 – 2 days out of window; and
Subject 5060 – 4 days out of window.
4. There were no Protocol Deviation Reports submitted to the IRB for any of
the violations described in Parts 1-3 above.
c. Assessment of data integrity: Although informed consent and recordkeeping
violations occurred at this site, it is unlikely that these errors will impact the final
outcome of the study. The data appear acceptable for use in support of the NDA.
9. Sponsor/Monitor/CRO
Bayer Pharmaceutical
340 Change Bridge Rd.
Pine Brook, NJ 07058
a. What was inspected: This inspection is ongoing; no information regarding the
results of the inspection has been received.
9. Applicant
Johnson & Johnson
920 U.S. Highway 202
Raritan, NJ 08869-0602
a. What was inspected: This inspection has not yet been conducted.
IV. OVERALL ASSESSMENT OF FINDINGS AND RECOMMENDATIONS
In general, inspection of the Drs. Gorecki, Gazdzik, Kracznski, Murray, and Fox sites revealed
that they adhered to the applicable regulations and good clinical practices governing the
conduct of clinical investigations. The inspection of documents supports that audited subjects
exist, met eligibility criteria, received assigned study medication, adhered to protocol, and
signed informed consent documents. The inspections documented minor regulatory violations
at the sites of Drs. Gorecki, Gazkzik, Kracznski, Murray, and Fox regarding protocol,
recordkeeping, and informed consent violations. In general, the studies at these sites appear to
have been conducted adequately, and the data generated by these sites may be used in support

13

 of the indication. The results of the inspection of the sponsor Bayer Pharmaceuticals are not
yet available, and the inspection of the applicant Johnson & Johnson has not yet taken place.
The inspection of Dr. Valverde’s and Dr. Zeng’s site raise concern regarding underreporting of
adverse events. Although neither site appears to have failed to report serious adverse events,
the number of unreported adverse events is significant. The data from these sites appear
acceptable for use in the NDA.
Of greatest concern are the findings of the inspection of Dr. Yang’s site. The inspector
describes an instance of apparent falsification of a subject visit by a sub-investigator, which
was reportedly detected later by a second investigator. However, there was no investigation
into the circumstances of the falsification incident, and the Sub-Investigator was allowed to
continue to administer the study. In addition, the affidavit provided by the second
subinvestigator at the time of the inspection and the response letter from the PI give two
different versions of this event. Lastly, there is no evidence that this discrepancy was detected
by the study monitor. There were four instances of unreported anemia requiring transfusion
and two unreported instances of elevated liver function tests from this site. It is possible that
the anemia requiring transfusions was reported as the safety variable “Bleeding event”;
however, these should also have been recorded as adverse events. DSI recommends that data
from this site be regarded as unreliable.
At the present time, we cannot comment on the adequacy of clinical trial monitoring by the
(b) (4)
sponsor and the CRO
When the sponsor inspection is completed and the
results transmitted to DSI, we will generate an inspection summary addendum.
Follow-Up Actions: All observations above are based on preliminary communications with
the FDA Field investigators and the Form FDA 483. An inspection summary addendum will
be generated if conclusions change upon receipt and review of the final EIR. For the ongoing
and pending inspections, an inspection summary addendum will be generated after the
inspections have been completed and the results have been evaluated by DSI.

{See appended electronic signature page}
Susan D. Thompson, M.D.
Good Clinical Practice Branch II
Division of Scientific Investigations

14

 CONCURRENCE:

{See appended electronic signature page}
Joseph Salewski
Deputy Division Director
Division of Scientific Investigations

15

 --------------------------------------------------------------------------------------------------------------------This is a representation of an electronic record that was signed electronically and
this page is the manifestation of the electronic signature.
--------------------------------------------------------------------------------------------------------------------/s/
--------------------Susan Thompson
3/16/2009 03:11:52 PM
MEDICAL OFFICER

Joseph Salewski
3/17/2009 01:37:09 PM
CSO

  REGULATORY FILING REVIEW
(Including Memo of Filing Meeting)

 

 

Application Information
NDA 22-406 NDA Supplement Efficacy Supplement Type SE-
BLA SIN 

 

 

 

Proprietary Name: XareltoTM
Established/Proper Name: Rivaroxaban
Dosage Form: Tablets

10mg

 

Applicant: Johnson and Johnson
Agent for Applicant (if applicable): 

 

Date of Application: July 22. 2008
Date of Receipt: July 28. 2008
Date clock started after UN: 

 

PDUFA Goal Date: May 28. 2009 Action Goal Date (if different):

 

Filing Date: September 26. 2008
Date of Filing Meeting: September 2. 2008

 

 

Chemical Classi?cation: (1.2.3 etc.) (original NDAs only) Factor Xa Inhibitor

 

Proposed Indication(s): Prophylaxis of deep vein thrombosis and puhnonary embolism in patients
luldergoing hip replacement sm'gery and knee replacement surgery.

 

 

 

Type of Original NDA: 505(b)(1)
AND (if applicable) 505(b)(2)
Type of NDA Supplement: 505(b)(1)
El 505(b)(2)
Refer to Appendix A for further information.
Review Classi?cation: Standard
Priority

If the application includes a complete response to pediatric WR,
review classification is Prioritv.

Tropical disease Priority

. . . . I, wv . I 
If a tropical disease Priority ret 1e oucher as submitted, res rev CV1 cw voucher submmed

classification defaults to Prioritv.

 

 

Resubmission a?er withdrawal? El
Resubmission after refuse to ?le? 

 

 

 

 

Part 3 Combination Product? Drug/Biologic
El Drug/Device
Biologic/Device
Fast Track PMC response
Rolling Review PMR response:
Orphan Designation [505(0)]
PREA deferred pediatric studies [21 CFR
switch. Full CFR 
El switch. Partial El Accelerated approval confmnatory studies (21
Direct-to-OTC CFR 314.510/21 CFR 601.41)
Animal rule postmarketing studies to verify
Otllefi clinical bene?t and safety (21 CFR 314.610/21 CFR

 

Version 6/9/08 1

 

 

601.42)

 

Collaborative Review Division (if OTC product):

 

List referenced IND Number(s): 64,892

 

 

PDUFA and Action Goal dates correct in tracking system? IE YES
NO

If not, ask the document room staff to correct them immediately.

These are the dates used for calculating inspection dates.

Are the proprietary. established/proper. and applicant names IE YES

correct in tracking system?

If not, ask the document room staff to make the corrections. Also,
ask the document room staff to add the established name to the
supporting if not already entered into tracking system.

 

Are all classi?cation codes/?ags g. orphan. OTC ding.
pediatric data) entered into tracking system?

If not, ask the document room staff to make the appropriate
entries.

 

Application Integrity Policy

 

 

 

 

Is the application affected by the Application hltegrity Policy YES
Check the AIP list at: NO

If yes. explain:
If yes. has been noti?ed of the submission? YES
NO

Comments:

User Fees
Form 3397 (User Fee Cover Sheet) submitted IZ YES

DNO

 

User Fee Status

Comments:

 

Paid

El Exempt (orphan. govenmient)
Waived small business.
public health)

Not required

 

Note: 505 applications are no longer exempt from user fees pursuant to the passage of It is
expected that all 505 applications, whether 505(b)(1) 0r 5 will require user fees unless
othelwise waived or exempted business waiver, orphan exemption).

 

 

Exclusivity

 

Version 6/9/08

 

 

Does another product have orphan exclusivity for the same
indication? Check the Electronic Orange Book at:


If yes, is the product considered to be the same product
according to the orphan drug de?nition of sameness [21 CFR



If yes, consult the Director, Division of Regulatory Policy II,
Of?ce of Regulatory Policy (HFD-00 7)

Comments:

ea

5

Ell]



 

Has the applicant requested 5-year or 3-year Waxman-Hatch
exclusivity? efficacy supplements only)

Note: An applicant can receive exclusivity without requesting it;
therefore, requesting exclusivity is not required.

Comments:

YES
years requested: 5



 

If the proposed product is a single enantiomer of a racemic
drug previously approved for a different therapeutic use
(NDAs only):

Did the applicant elect to have the single enantiomer
(contained as an active ingredient) not be considered the
same active ingredient as that contained in an already
approved racemic drug, and/or request exclusivity
pursuant to section 505(u) of the Act (per Section
1113)?

If yes, contact Mary Ann Holovac, Director of Drug Information,


Not applicable

EYES
IZI NO

 

505(b)(2) Ef?cacy Supplements only)

 

 

1. Is the application for a duplicate of a listed drug and
eligible for approval under section 5050) as an 

2. Is the application for a duplicate of a listed drug Whose
only difference is that the extent to which the active
ingredient(s) is absorbed or otherwise made available to
the site of action less than that of the reference listed
drug (see 21 CFR 

3. IS the application for a duplicate of a listed drug whose
only difference is that the rate at which the proposed
product?s active ingredient(s) is absorbed or made
available to the site of action is unintentionally less than
that of the listed drug (see 21 CFR 

 

IE Not applicable

EYES



EYES

IjNo

 

Version 6/9/08

 

 

 

Note: If you answered yes to any of the above questions, the
application may be refused for ?ling under 21 CFR 

 

 

4. Is there tuiexpired exclusivity on the active moiety 
5-year, 3-year. orphan or pediatric exclusivity)? Check
the Electronic Orange Book at:


If yes, please list below:

 

 

Application No. Drug Name

Exclusivity Code

Exclusivity Expiration

 

 

 

 

 

 

 

 

If there is unexpired, 5-year exclusivity remaining on the active moiety for the proposed drug
product, a 505 application cannot be submitted until the period of etclusivity expires
(unless the applicant provides paragraph I patent certi?cation; then an application can be
submitted four years after the date of approval. Pediatric exclusivitv will extend both of the
time??ames in this provision by 6 months. 21 CFR 108(b)(2). Unexpired, 3-yearerclusivitv will
only block the approval, not the submission of a 505 application.

 

Format and Content

 

Do not check mixed submission if the only electronic component
is the content of labeling (COL).

All paper (except for COL)
All electronic
El Mixed (paper/electronic)

 

 

CTD

Commentsi Mixed 
If mixed (paper/electronic) submission. which parts of the
application are submitted in electronic format?
If electronic submission:
paper forms and certi?cations signed (non-CTD) or YES

electronic forms and certi?cations signed (scanned or digital
signatureXCTD)?

Forms include: 356/), patent information (3542a), ?nancial
disclosure (3454/3455), user fee cover sheet (35420), and clinical
trials (3674); erti?cations include: debarment certi?cation,
patent ?eld copy certification, and pediatric
certi?cation.

Comments:

 

 

If electronic submission, does it follow the guidance?
7rei'. pdf)

If not, explain waiver granted):

 

 

Version 6/9/08

 

 

 

Form 35611: Is a signed form 35611 included?

If foreign applicant, both the applicant am! the US. agent must
sign the form.

Are all establislnnents and their registration numbers listed
on the form?

Comments:

 

Index: Does the submission contain an accurate
comprehensive index?

Comments:

 

Is the submission complete as required tuider 21 CFR 314.50
e?icacy supplements) or under 21 FR 601.2
e?icaev supplements) including:

legible
English (or translated into English)

pagination
navigable hyperlinks (electronic submissions only)

If no, explain:

 

Controlled substance/Product with abuse potential:

Abuse Liability Assessment. including a proposal for
scheduling. submitted?

Consult sent to the Controlled Substance Staff?
Comments:

Not Applicable

EYES


DYES


 

ef?cacy supplements only:

Companion application received if a shared or divided
111anufact1uing arrangement?

If yes. BLA 

EIEI

 

Patent Information ef?cacy supplements only)

 

Patent inf01mation submitted on form FDA 3542a?

Comments:

IZIYEs
NO

 

Debarment Certi?cation

 

Correctly worded Debarment Certi?cation with authorized
signature?

 

 

It foreign applicant, both the applicant and the US. Agent must

YES
NO

IZI


 

Version 6/9/08

 

 

sign the certification.

Note: Debarment Certi?cation should use wording in Act
section 306(k)(l) i. ?[Name of applicant] herebv certi?es that it
did not and will not use in any capacity the seivices of any person
deban'ed under section 306 of the Federal Food, Drug, and
Cosmetic Act in connection with this application. Applicant may
not use wording such as, ?To the best of my 

Comments:

 

Field Copy Certi?cation ef?cacy supplements only)

 

Field Copy Certi?cation: that it is a true copy of the CMC
teclmical section (applies to paper submissions only)



Not Applicable (electronic

submission or no CMC technical

 

 

 

 

 

section)
YES
NO
If maroon ?eld copy jackets from foreign applicants are received,
return them to CDR for delivery to the appropriate ?eld o?ice.
Financial Disclosure
Financial Disclosure forms included with authorized YES
signature? NO
orms 3454 and/or 3455 must be included and must be signed by
the APPLICANT, not an Agent.
Note: Financial disclosure is required for bioeqim?alence studies
that are the basis for approval.
Comments:
Pediatrics
PREA
Note: NDAs/BLAs/e?icacv supplements for new active ingredients,
new indications, new dosage forms, new dosing regimens, or new
routes of administration trigger PREA. All waiver defen?al
requests, pediatric plans, and pedianic assessment studies must be
reviewed by prior to approval of the application/Simplement.
Are the required pediatric assessment studies or a ?ll] waiver gigsApphcable
of pediatric studies includedrequest for full waiver of pedlatnc studies OR a 0
request for partial waiver/deferral and a pediatric plan
included?
0 If no, request in 74-day letter. 8 YES
NO

0 If yes. does the application contain the
certi?cation(s) required lmder 21 CFR 

CFR 

Comments:

 

 

Version 6/9/08

 

 

 

BPCA DA ef?cacy supplements only):

Is this submission a complete response to a pediatric Written
Request?

If yes, contact PMHS (pediatric exclusivity determination by the
Pediatric Exclusivitv Board is needed).

Comments:

 

Prescription Labeling

 

Check all types of labeling submitted.

Comments:

Not applicable

ckage Insert (PI)

tient Package Insert (PPI)
Instructions for Use
MedGuide

Carton labels

Immediate container labels
Diluent

Other (specify)

Pa
Pa



 

Is electronic Content of Labeling submitted in SPL format?

If no, request in 74-day letter.

YES
NO



 

 

Comments:

Package insert (PI) submitted in PLR formatwaiver or deferral requested before the YES

application was received or in the submission? NO

If before. what is the status of the request?

If no, request in 74-day letter.

Comments: Preliminary comments regarding the PLR

format will be conveyed in the 74 day letter.

All labeling (PI. PPI. MedGuide. carton and YES

container labels) consulted to El NO

Comments: The consult will be sent to DDMAC later in the
review when the labeling review is closer to being
completed.

 

MedGuide or PPI (plus PD consulted to (send
WORD version available)

 

 

 

 

NO
Comments:
REMS consulted to IE Not Applicable
YES
Comments: NO
Carton and immediate container labels. PI. PPI. and El Not Applicable
proprietary name (if any) sent to IE YES

 

Version 6/9/08

 

 

 

Comments:

 



 

Version 6/9/08

 

 

OTC Labeling

 

IX Not Applicable

 

 

Check all types of labeling submitted. Outer carton label
Immediate container label
Blister card
Blister backing label
Consmner Information Lea?et
(C IL)
Comments: Physician sample
El Consmner sample
Other (specify)
Is electronic content of labeling submitted? YES
NO
If no, request in 74-day letter.
Comments:
Are am10tated speci?cations submitted for all stock keeping YES
imits NO

If no, request in 74-day letter.

 

 

 

 

 

 

 

Comments:

If representative labeling is submitted. are all represented YES

SKUs defmed? NO

If no, request in 74-day letter.

Comments:

Proprietary name. all labeling/packaging. and current YES

approved Rx PI (if switch) sent to NO

Comments:

Meeting Minutes/SPA Agreements

End-of Phase 2 meeting(s)? IE YES

Ifyes, distribute minutes before filing meeting. Date(s): July 5. 2005: November
18. 2005: August 23. 2006

Comments: El N0

Pre-NDA/Pre-BLA/Pre-Supplement meeting(s)? YES

If yes, distribute minutes before ?ling meeting. Date(s): December 13. 2007:
anuaiy 29. 2008

Comments: El N0

Any Special Protocol Assessment (SPA) agreements? YES

If yes, distribute letter and/or relevant minutes before ?ling Date(s): 4/ 1 8/061 (2) 4/ 25/06:

meeting. 4/28/06
NO

Comments:

 

 

Version 6/9/08 9

 

ATTACHMENT

MEMO OF FILING MEETING

DATE: September 2, 2008

22?406
NAMES: Xarelto?
APPLICANT: olmson and olmson

BACKGROUND: XareltoTM (Rivaroxaban) tablets is a new molecular entity. It is a direct factor
Xa inhibitor. The product is being reviewed for prophylaxis of deep vein thrombosis (DVT) and
puhnonary embolism (PE) in orthopedic surgery patients (short-term use). It is also being studied
for acute coronary (AC S) and Atrial Fibrillation indications in the Division of
Cardiovascular and Renal Products (longer-term use). The product was approved in the European
Union 011 July 24. 2008. Bayer Healter are. Inc. plans to launch the product in the European
Union in October 2008.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

REVIEW TEAM:

Discipline/Organization Names Present at
filing
meeting?
(Y or N)

Regulatory Project Management RPM: Diane Leaman Yes
L: Florence Moore No
Cross-Discipline Team Leader (CDTL)
Clinical Reviewer: Dr. Min Lu Yes
TL: Dr. Kathy Robie-Suh Yes
Social Scientist Review (for OTC Reviewer: 
products)
TL:
Labeling Review (for OTC products) Reviewer: 
TL:
OSE Reviewer: Tim Lape No
TL: Todd Bridges No
Clinical Microbiology (for antimicrobial Reviewer: 

 

 

 

 

Version 6/9/08 10

 

 

products)

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

TL:

Clinical Pharmacology Reviewer: Joseph Grillo. Yes
Cluistoffer Tomoe. Yes
and Yaning Wang. No

TL: Dr. Young-Moon Choi Yes

Biostatistics Reviewer: Qing X11. Yes

Satish Misra. No
TL: Jyoti Zalkikar. Yes

Nonclinical Reviewer: Yash Chopra. MD.. Yes

(Phannacology/Toxicology)

TL: Adebayo Laniyonu. No

Statistics. carcinogenicity Reviewer: 

TL:
Product Quality (CMC) Reviewer: Josephine ee. Yes
TL: Eldon Leutzinger. Yes
Facility (for supplements) Reviewer: 
TL:
Microbiology. sterility Reviewer: 
e?icaqv supplements)
TL:
Bioresearch Monitoring (D81) (4) Reviewer: Susan Thompson. MD. Yes
Data

from site with Dr. is not usable TL:

(RECORD 4)

Other reviewers Charles Cooper. MD Yes

George Rochester. No
Mark Levenson. Yes

 

OTHER ATTENDEES: Rafel (Dwaine) Rieves. Division Director

 

 

505(b)(2) ?ling issues?

If yes, list issues: Minor PLR formatting issues
All the chemistry information was submitted iuider

DMFS.

Not Applicable
YES



 

 

Version 6/9/08

11

 

 

Per reviewers, are all parts in English or English
translation?

YES
NO

If no, explain:

Electronic Submission comments

Not Applicable

List comments: format acceptable
CLINICAL

Not Applicable
FILE
REFUSE TO FILE

Comments:

Review issues for 74-day letter

•

YES
NO

Clinical study site(s) inspections(s) needed?
If no, explain:

•

Advisory Committee Meeting needed?

Comments:
If no, for an original NME or BLA application, include the
reason. For example:
o this drug/biologic is not the first in its class
o the clinical study design was acceptable
o the application did not raise significant safety
or efficacy issues
o the application did not raise significant public
health questions on the role of the
drug/biologic in the diagnosis, cure,
mitigation, treatment or prevention of a
disease

•

If the application is affected by the AIP, has the
division made a recommendation regarding whether
or not an exception to the AIP should be granted to
permit review based on medical necessity or public
health significance?

YES
Date if known: March 19, 2009
NO
To be determined
Reason:

Not Applicable
YES
NO

Comments:
CLINICAL MICROBIOLOGY

Version 6/9/08

Not Applicable
FILE
REFUSE TO FILE

12

 Comments:

Review issues for 74-day letter

CLINICAL PHARMACOLOGY

Not Applicable
FILE
REFUSE TO FILE

Comments:
• Clinical pharmacology study site(s) inspections(s)
needed?

Review issues for 74-day letter

BIOSTATISTICS

Not Applicable
FILE
REFUSE TO FILE

Comments:
NONCLINICAL
(PHARMACOLOGY/TOXICOLOGY)

YES
NO

Review issues for 74-day letter
Not Applicable
FILE
REFUSE TO FILE
Review issues for 74-day letter

Comments:
PRODUCT QUALITY (CMC)

Not Applicable
FILE
REFUSE TO FILE

Comments: All chemistry is under DMFs

Review issues for 74-day letter

•

Categorical exclusion for environmental assessment
(EA) requested?

Not Applicable
YES
NO

If no, was a complete EA submitted?

YES
NO

If EA submitted, consulted to EA officer (OPS)?

YES
NO

Comments: done by CMC reviewer
•

Establishment(s) ready for inspection?

Not Applicable
YES
NO

ƒ

Establishment Evaluation Request (EER/TBP-EER)
submitted to DMPQ?

Not Applicable
YES
NO

Version 6/9/08

13

  

 

 

Comments:
0 Sterile product? YES
NO
If yes. was Microbiology Team consulted for YES
validation of sterilization? NO
supplements only)
FACILITY (BLAs only) Not Applicable
FILE
REFUSE TO FILE
Comments; Review issues for 74-day letter

 

 

REGULATORY PROJECT MANAGEMENT

 

Signatory Authority: Dr. Richard Pazdur

GRMP Timeline Milestones: Filing letter 10/10/08
December 2. 2008

Primary and Secondary Reviews due April 28. 2009
Advisory Meeting TBD

Action Package and letter to Division Director May 7. 2009
Action Package and letter to Of?ce Director May 14. 2009

Comments:

 

REGULATORY 

 

The application is unsuitable for ?ling. Explain why:

 

The application. 011 its face. appears to be suitable for ?ling.

No review issues have been identi?ed for the 74-day letter.

Review issues have been identi?ed for the 74-day letter. List (optional):
Standard Review

Priority Review

 

 

ACTIONS ITEMS

 

Ensure that the review and chemical classi?cation codes. as well as any other pertinent
classi?cation codes orphan. OTC) are correctly entered into tracking system.

 

 

If RTF action. notify everybody who already received a consult request. OSE PM.. and
Product Quality PM. Cancel 

 

 

Version 6/9/08 14

 

If filed and the application is under AIP, prepare a letter either granting (for signature by
Center Director) or denying (for signature by ODE Director) an exception for review.
If BLA or priority review NDA, send 60-day letter.
Send review issues/no review issues by day 74
Other

Version 6/9/08

15

 Appendix A (NDA and NDA Supplements only)
NOTE: The term "original application" or "original NDA" as used in this appendix
denotes the NDA submitted. It does not refer to the reference drug product or "reference
listed drug."
An original application is likely to be a 505(b)(2) application if:
(1) it relies on published literature to meet any of the approval requirements, and the
applicant does not have a written right of reference to the underlying data. If
published literature is cited in the NDA but is not necessary for approval, the
inclusion of such literature will not, in itself, make the application a 505(b)(2)
application,
(2) it relies for approval on the Agency's previous findings of safety and efficacy for
a listed drug product and the applicant does not own or have right to reference the
data supporting that approval, or
(3) it relies on what is "generally known" or "scientifically accepted" about a class of
products to support the safety or effectiveness of the particular drug for which the
applicant is seeking approval. (Note, however, that this does not mean any
reference to general information or knowledge (e.g., about disease etiology,
support for particular endpoints, methods of analysis) causes the application to be
a 505(b)(2) application.)
Types of products for which 505(b)(2) applications are likely to be submitted include:
fixed-dose combination drug products (e.g., heart drug and diuretic (hydrochlorothiazide)
combinations); OTC monograph deviations (see 21 CFR 330.11); new dosage forms; new
indications; and, new salts.
An efficacy supplement can be either a (b)(1) or a (b)(2) regardless of whether the
original NDA was a (b)(1) or a (b)(2).
An efficacy supplement is a 505(b)(1) supplement if the supplement contains all of the
information needed to support the approval of the change proposed in the supplement.
For example, if the supplemental application is for a new indication, the supplement is a
505(b)(1) if:
(1) The applicant has conducted its own studies to support the new indication (or
otherwise owns or has right of reference to the data/studies),
(2) No additional information beyond what is included in the supplement or was
embodied in the finding of safety and effectiveness for the original application or
previously approved supplements is needed to support the change. For example,
this would likely be the case with respect to safety considerations if the dose(s)
was/were the same as (or lower than) the original application, and.
(3) All other “criteria” are met (e.g., the applicant owns or has right of reference to
the data relied upon for approval of the supplement, the application does not rely

Version 6/9/08

16

 for approval on published literature based on data to which the applicant does not
have a right of reference).
An efficacy supplement is a 505(b)(2) supplement if:
(1) Approval of the change proposed in the supplemental application would require
data beyond that needed to support our previous finding of safety and efficacy in
the approval of the original application (or earlier supplement), and the applicant
has not conducted all of its own studies for approval of the change, or obtained a
right to reference studies it does not own. For example, if the change were for a
new indication AND a higher dose, we would likely require clinical efficacy data
and preclinical safety data to approve the higher dose. If the applicant provided
the effectiveness data, but had to rely on a different listed drug, or a new aspect of
a previously cited listed drug, to support the safety of the new dose, the
supplement would be a 505(b)(2),
(2) The applicant relies for approval of the supplement on published literature that is
based on data that the applicant does not own or have a right to reference. If
published literature is cited in the supplement but is not necessary for approval,
the inclusion of such literature will not, in itself, make the supplement a 505(b)(2)
supplement, or
(3) The applicant is relying upon any data they do not own or to which they do not
have right of reference.
If you have questions about whether an application is a 505(b)(1) or 505(b)(2)
application, consult with your OND ADRA or OND IO.

Version 6/9/08

17

 --------------------------------------------------------------------------------------------------------------------This is a representation of an electronic record that was signed electronically and
this page is the manifestation of the electronic signature.
--------------------------------------------------------------------------------------------------------------------/s/
--------------------Diane V Leaman
10/3/2008 12:23:58 PM
CSO

  

 

DSI CONSULT: Request for Clinical Inspections

 

Date: September 25, 2008
To: Tejashri S. Plu?ohit-Sheth, Branch Chief, Good Clinical Practices Branch I
(GC P1), HFD-47

Primary Reviewer: Susan Thompson
Of?ce of ompliance/C PBII
Division of Scienti?c Investigations, HFD-45

Through: Dr. Min Lu, Medical Of?cer, Division of Medical Imaging and Hematology
Products 1 60
Dr. Kathy Robie-Suh, Medical Teamleaer and Dr. Rafel (Dwaine) Rieves,
Division Director/ HFD- 60

From: Diane Leaman, Regulatory Health Project 

Subject: Request for Clinical Site Inspections

1. General Information

Application#: NDA 22-406

Sponsor/ Sponsor contact information (to include phone/email):
Drug: Trade Name (rivaroxaban)

NME: Yes

Standard or Priority: Standard

Study Population 18 years of age: No

Pediatric exclusivity: No

PDUFA: May 28, 2009
Action Goal Date: May 28, 2009
Inspection Summary Goal Date: April 28, 2009

II. Bac round Information

Include a brief introduction about the application and include the following:

0 New application: Yes.

0 Proposed indication: Prophylaxis of DVT and PE in patients undergoing hip or knee

replacement surgeries.
0 Brief information

DSI Updated 12/2007

 

Page 2-Request for Clinical Inspections
o on drug: Rivaroxaban is a highly selective direct factor Xa (FXa) inhibitor that can
be orally administered.
o Disease: Venous thromboembolism (VTE), which includes deep vein thrombosis
(DVT) and pulmonary embolism (PE), is a serious condition that is a common cause
of mortality and morbidity.
o pivotal studies (to include brief summary of protocols, pertinent endpoints, and
concerns with application)
1. RECORD 1 Study: randomized, double-blind, double-dummy, active
comparator controlled, multi-center and multi-national trial in patients
undergoing elective total hip replacement. A total of 4541 subjects were
randomized at 218 centers.
2. RECORD 2 Study: randomized, double-blind, double-dummy, active
comparator controlled, multi-center and multi-national trial in patients
undergoing elective total hip replacement. A total of 2509 subjects were
randomized at 123 centers.
3. RECORD 3 Study: randomized, double-blind, double-dummy, parallel-group,
active comparator controlled, multicenter, and multinational trial in patients
undergoing elective total knee replacement. A total of 2531 subjects were
randomized at 147 centers.
4. RECORD 4 Study: randomized, double-blind, double-dummy, parallel-group,
active comparator controlled, multicenter, and multinational trial in patients
undergoing elective total knee replacement. A total of 3148 subjects were
randomized.
The primary efficacy endpoint for all 4 studies was a composite endpoint of:
• Any deep vein thrombosis (DVT) (proximal and/or distal).
• Non-fatal pulmonary embolism (PE).
• Death from all causes.
III. Protocol/Site Identification
Study Include the Protocol Title/# for all protocols to be audited. Complete the following table.
Study Protocol Titles:
RECORD 1 Study: REgulation of Coagulation in ORthopedic Surgery to prevent DVT and PE,
controlled, double-blind, randomized stiudy of BAY 59-7939 in the extended prevention of VTE in
patients undergoing elective total hip replacement (Protocol 11354).
RECORD 2 Study: REgulation of Coagulation in ORthopedic Surgery to prevent DVT and PE,
controlled, double-blind, randomized stiudy of BAY 59-7939 in the extended prevention of VTE in
patients undergoing elective total hip replacement (Protocol 11357).
RECORD 3 Study: REgulation of Coagulation in ORthopedic Surgery to prevent DVT and PE; a
controlled, double-blind, randomized study of BAY 59-7939 in the prevention of VTE in patients
undergoing elective total knee replacement (Protocol 11356).

 Page 3-Request for Clinical Inspections
RECORD 4 Study: REgulation of Coagulation in ORthopedic Surgery to prevent DVT and PE; a
controlled, double-blind, randomized study of BAY 59-7939 (rivaroxban) in the prevention of VTE
in subjects undergoing elective total knee replacement (Protocol 11355).

Site # (Name,Address,
Phone number, email,
fax#)
Poland 18006
Andrzej GÓRECKI
Szpital Kliniczny Dzieciatka Jezus
-Centrum Leczenia
ObrazenKlinika
Ortopedii i Traumatologii Narzadu
Ruchu
I Wydzial Lekarski
ul. Lindleya 4
02-005 Warszawa
Poland 18012
Tadeusz GAŹDZIK
Wojewodzki Szpital
Specjalistyczny nr 5 Katedra i
Oddzial Kliniczny
Ortopedii SlAM
pl. Medyków 1
41-200 Sosnowiec
China 54005
Qingming YANG
Rui Jin Hospital, Shanghai Second
Medical University
Orthorpaedic
Department, Shanghai Ruijin
Hospital
No.197 Ruijin Second Road,
Shanghai, China 200025
Peru 64005

Cesar DIAZ VALVERDE
Hospital Edgardo Rebagliati
Jr. Domingo Cueto s/n
LIMA 11 Lima
China 54014

Protocol
#

11354
RECORD 1

Xarelto: 36
Enoxaparin: 35

Xarelto: 38
Enoxaparin: 38
11354
RECORD 1

11357
RECORD 2

11357
RECORD 2

Indication

Prophylaxis of DVT and
PE in patients
undergoing hip
replacement surgery

Prophylaxis of DVT and
PE in patients
undergoing hip
replacement surgery

Xarelto: 17
Enoxaparin: 17

Prophylaxis of DVT and
PE in patients
undergoing hip
replacement surgery

Xarelto: 20
Enoxaparin: 21

Prophylaxis of DVT and
PE in patients
undergoing hip
replacement surgery

Xarelto: 13
Enoxaparin: 13

Bingfang ZENG
Shanghai No.6 Hospital
Orthorpaedic Department
No.600 Yishan Road, Xuhui
District,
Shanghai, China 200233
Shanghai, 200233
CHINA

Number of Subjects

11356
RECORD 3

Prophylaxis of DVT and
PE in patients
undergoing knee
replacement surgery

 Page 4-Request for Clinical Inspections
Site # (Name,Address,
Phone number, email,
fax#)
Poland 18003
Jacek KRUCZYŃSKI
Szpital Uniwersytecki im.
Antoniego
Jurasza
Klinika Ortopedii i Traumatologii
Narzadu Ruchu
ul. M. Sklodowskiej-Curie 9
Bydgoszcz, 85-094
POLAND
United States 14005
R. Michael MURRAY
Capstone Clinical Trials, Inc.
2018 Brookwood Medical Center
Drive Suite 314
Birmingham, AL 35209
UNITED STATES
United States 14022
David FOX
Unlimited Research, LP
12709 Toepperwein Road
Suite 101
San Antonio, TX 78233
UNITED STATES

Protocol
#

Number of Subjects

Indication

Xarelto: 18
Enoxaparin: 18

Prophylaxis of DVT and
PE in patients
undergoing knee
replacement surgery

11355
RECORD 4

Xarelto: 76
Enoxaparin: 76

Prophylaxis of DVT and
PE in patients
undergoing knee
replacement surgery

11355
RECORD 4

Xarelto: 32
Enoxaparin: 32

Prophylaxis of DVT and
PE in patients
undergoing knee
replacement surgery

11356
RECORD 3

IV. Site Selection/Rationale
Summarize the reason for requesting DSI consult and then complete the checklist that follows your
rationale for site selection. Medical Officers may choose to consider the following in providing
their summary for site selection.
Rivaroxaban is a new molecular entity and an oral anticoagulant for prophylaxis of VTE. The
site selection is based on the efficacy. These sites showed a greater efficacy of Rivaroxaban as
compared active comparator than other sites.
Scientific misconduct at more than one site has been reported in the clinical studies.
Things to consider in decision to submit request for DSI Audit
ƒ Evaluate site specific efficacy. Note the sites with the greatest efficacy compared to active or
placebo comparator. Are these sites driving the results?
ƒ Determine the sites with the largest number of subjects. Is the efficacy being driven by these
sites?
ƒ Evaluate the financial disclosures. Do sites with investigators holding financial interest in the
sponsor’s company show superior efficacy compared to other sites?
ƒ Are there concerns that the data may be fraudulent or inconsistent?
ƒ Efficacy looks too good to be true, based on knowledge of drug based on previous
clinical studies and/or mechanism of action

 Page 5-Request for Clinical Inspections
ƒ
ƒ
ƒ
ƒ

ƒ Expected commonly reported AEs are not reported in the NDA
Evaluate the protocol violations. Are there a significant number of protocol violations reported
at one or more particular sites? Are the types of protocol violations suspicious for clinical trial
misconduct?
Is this a new molecular entity?
Is the data gathered solely from foreign sites?
Were the NDA studies conducted under an IND?

Rationale for DSI Audits
ƒ A specific safety concern at a particular site based on review of AEs, SAEs, deaths, or
discontinuations
ƒ A specific efficacy concern based on review of site specific efficacy data
ƒ Specific concern for scientific misconduct at one or more particular sites based on review of
financial disclosures, protocol violations, study discontinuations, safety and efficacy results
Domestic Inspections:
Reasons for inspections (please check all that apply):

x
x

Enrollment of large numbers of study subjects
High treatment responders (specify):
Significant primary efficacy results pertinent to decision-making
There is a serious issue to resolve, e.g., suspicion of fraud, scientific misconduct,
significant human subject protection violations or adverse event profiles.
Other (specify):

International Inspections:
Reasons for inspections (please check all that apply):
There are insufficient domestic data
Only foreign data are submitted to support an application
x Domestic and foreign data show conflicting results pertinent to decision-making
x There is a serious issue to resolve, e.g., suspicion of fraud, scientific misconduct, or
significant human subject protection violations.
Other (specify) (Examples include: Enrollment of large numbers of study subjects and
site specific protocol violations. This would be the first approval of this new drug and most of the
limited experience with this drug has been at foreign sites, it would be desirable to include one
foreign site in the DSI inspections to verify the quality of conduct of the study).
Five or More Inspection Sites (delete this if it does not apply):
We have requested these sites for inspection (international and/or domestic) because of the
following reasons: state reason(s) and prioritize sites.
Note: International inspection requests or requests for five or more inspections require
sign-off by the OND Division Director and forwarding through the Director, DSI.

 Page 6-Request for Clinical Inspections
Scientific misconduct at more than one site has been reported in the clinical studies.
The listed sites under each study have been prioritized in order based on the efficacy results.

V. Tables of Specific Data to be Verified (if applicable)
If you have specific data that needs to be verified, please provide a table for data verification, if
applicable.
Should you require any additional information, please contact Diane Leaman at Ph: 301-796-1424
or Dr. Min Lu, Medical Officer at Ph: 301-796-1406.
Concurrence: (as needed)
____________________ Medical Team Leader
____________________ Medical Reviewer
Rafel (Dwaine) Rieves, M.D., Director, Division of Medical Imaging and Hematology
Products (for foreign inspection requests only)

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--------------------Diane V Leaman
10/27/2008 05:27:16 PM
Rafel Rieves
10/27/2008 05:30:57 PM

 Interdisciplinary Review Team for QT Studies Consultation:
Thorough QT Study Review
NDA

22, 406

Brand Name

Xarelto™

Generic Name

Rivaroxaban (BAY 59-7939)

Sponsor

Johnson & Johnson

Indication

Prophylaxes of Deep Vein Thrombosis and
Pulmonary Embolism in Patients undergoing Hip &
Knee Replacement Surgery

Dosage Form

Tablets

Drug Class

Direct Factor Xa (FXa) Inhibitor

Therapeutic Dosing Regimen

10 mg once daily

Duration of Therapeutic Use

Acute

Maximum Tolerated Dose

50 mg

Submission Number and Date

N000, 28 July 2008

Review Division

DMIHP / HFD 160

1

SUMMARY

1.1 OVERALL SUMMARY OF FINDINGS
No significant QT prolongation effect of BAY 59-7939 (15 mg and 45 mg) was detected
in this TQT study. The largest upper bounds of the 2-sided 90% CI for the mean
difference between BAY 59-7939 (15 mg and 45 mg) and placebo were below 10 ms, the
threshold for regulatory concern as described in ICH E14 guidance. The largest lower
bound of the two-sided 90% CI for the ∆∆QTcF for moxifloxacin was greater than 5 ms,
and the moxifloxacin profile over time is adequately demonstrated in Figure 4, indicating
that the assay sensitivity of the study was established.
In this randomized, double-blinded, four-way crossover study with 27 male and 27
female subjects single oral doses of 15 and 45 mg BAY 59-7939, placebo, and 400 mg of
moxifloxacin. The overall summary of findings is presented in Table 1.

31 Pages of this “Interdisciplinary Review Team for QT Studies Consultation:
Thorough QT Study Review” have been withheld as a duplicate copy of the
review included on page 243 of the Clinical Pharmacology/Biopharmaceutics 1
Review with the electronic signature dated of 4/6/09 of this redacted Approval
Package.

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--------------------Joanne Zhang
3/4/2009 10:08:48 AM
BIOMETRICS

Lihan K Yan
3/4/2009 10:12:14 AM
BIOMETRICS

Christine Garnett
3/4/2009 02:49:04 PM
BIOPHARMACEUTICS

Kevin Krudys
3/4/2009 03:34:16 PM
BIOPHARMACEUTICS

Monica Fiszman
3/5/2009 08:50:22 AM
PHARMACOLOGIST

Norman Stockbridge
3/5/2009 11:36:41 AM
MEDICAL OFFICER

 Food and Drug Administration
Center for Drug Evaluation and Research
Division of Drug Marketing, Advertising, and Communications
MEMORANDUM
**Pre-Decisional Agency Information**
Date:

December 19, 2008

To:

Diane Leaman – Senior Regulatory Project Manager
Division of Medical Imaging and Hematology Products (DMIHP)

From:

Michelle Safarik, PA-C – Regulatory Review Officer
Division of Drug Marketing, Advertising, and Communications (DDMAC)

Subject:

DDMAC labeling comments for Xarelto (rivaroxaban) film coated oral tablets
NDA 22-406

DDMAC has reviewed the proposed product labeling (PI) and proposed carton and
container labeling for Xarelto (rivaroxaban) film coated oral tablets (Xarelto) submitted for
consult on December 16, 2008. We offer the following comments.
Highlights
Boxed Warning
1. For consistency with the Boxed Warning section of the Lovenox PI, we recommend
(b) (4)
replacing
with “Rivaroxaban.” As proposed, this statement
minimizes the risks of Xarelto.
Dosage and Administration
1. The Highlights section of the proposed PI should summarize the most important
information about Xarelto. As proposed, this section omits important material facts
regarding the dosage and administration of Xarelto. Therefore, we recommend
including when dosing should be initiated and the duration of use for each type of
orthopedic surgery.
Warnings and Precautions
1. According to the Guidance for Industry: Labeling for Human Prescription Drug and
Biological Products – Implementing the New Content and Format Requirements,
the Warnings and Precautions section in Highlights should include
“[r]ecommendations for patient monitoring to ensure safe use of the drug, and

 Page 2
measures that can be taken to prevent or mitigate harm.” We recommend
including such important information (e.g., “An epidural catheter should not be
removed earlier than 18 hours after the last administration of XARELTO. The next
XARELTO dose is not to be administered earlier than 6 hours after the removal of
the catheter. If traumatic puncture occurs, the administration of XARELTO is to be
delayed for 24 hours. . . .Any unexplained fall in hemoglobin or blood pressure
should lead to a search for a bleeding site”).
Full Prescribing Information
Warnings and Precautions
(b) (4)

1. The phrase,
is promotional in tone
and minimizes the risks of Xarelto therapy. Therefore, we recommend deleting.
Adverse Reactions
1. The following statements are redundant and unnecessary, and we recommend
deleting:
(b) (4)

Commonly-Observed Adverse Drug Reactions in Double-Blind Controlled Clinical Studies
(b) (4)

1.

This phrase minimizes the risks of bleeding with Xarelto, and contradicts the
incidences of major, non-major clinically relevant, and any bleeding events
reported with Xarelto. Therefore, we recommend deleting this misleading phrase.
(b) (4)

2.

This claim is promotional in tone and minimizes the risks of Xarelto therapy.
Therefore, we recommend deleting.

 Page 3
Other Adverse Drug Reactions Observed During the Premarketing Evaluation of
XARELTO
(b) (4)

It does not appear that LFTs >3x ULN have any clinical implication with Xarelto
dosing (i.e., it does not preclude a patient starting or discontinuing Xarelto).
Therefore, do these findings have clinical significance to Xarelto dosing? If not, we
recommend deletion. If so, is this superiority claim supported by substantial
evidence? If not, we recommend deleting.
Discontinuations Due to Adverse Drug Reactions
(b) (4)

Are the differences in the discontinuation rates between Xarelto and enoxaparin
statistically significant? If not, we recommend deleting. Is the lower frequency of
DVT/PE in the Xarelto group truly the primary reason for these lower
discontinuation rates? Are there other reasons that should be presented in the
proposed PI?
Use in Specific Populations
Pregnancy
(b) (4)

 Page 4
(b) (4)

Therefore, we recommend

revising the Pregnancy Category to either C or X.
Geriatric Use
(b) (4)

The above phrase is promotional in tone and minimizes the risks of Xarelto
therapy. Therefore, we recommend deleting.
Clinical Pharmacology
Mechanism of Action
(b) (4)

1. Is Xarelto indeed a
direct Factor Xa inhibitor? If not, we
recommend deletion of this phrase.
Pharmacokinetics – Absorption and Bioavailability
(b) (4)

1. “The absolute bioavailability of rivaroxaban is
(80% to 100%) for the 10 mg
(b) (4)
dose. Rivaroxaban is
absorbed with maximum concentrations (Cmax)
appearing 2 to 4 hours after tablet intake.” (emphasis added)
(b) (4)

are promotional in tone. We recommend deleting as context
(“80% to 100%” and “2 to 4 hours,” respectively) is provided.
Pharmacokinetics – Special Populations – Body Weight
(b) (4)

1. “[e]xtremes in body weight (>50 kg or >120 kg) had
influence (less
than 25%) on rivaroxaban plasma concentrations.” (emphasis added)
(b) (4)

is promotional in tone. We recommend deleting as context (“less than
25%”) is provided.
Pharmacokinetics – Special Populations – Hepatic Impairment
1. “Cirrhotic subjects with mild hepatic impairment (classified as Child-Pugh A)
(b) (4)
exhibited
(1.2-fold increase in
rivaroxaban AUC on average). . . .” (emphasis added)
(b) (4)

The phrase
is promotional
in tone. We recommend deleting as context (“1.2-fold increase in rivaroxaban
AUC on average”) is provided.

 Page 5
Clinsical Studies
(b) (4)

1. We note that this section contains several discussions of
of major VTE and pooled analyses of the four RECORD studies and of
symptomatic events in double-blind and active-controlled treatment periods. Are
(b) (4)
these
considered substantial
evidence to be included in labeling? If not, we recommend deleting.
Patient Counseling Information
1. We recommend instructing prescribers to ask patients if they have renal
and/or hepatic impairment for consistency with the Dosage and
Administration and Use in Specific Populations sections of the proposed
PI.
Carton and Container Labeling
We have reviewed the proposed carton and container labeling and have no
comments at this time.

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--------------------Michelle Safarik
12/19/2008 12:33:47 PM
DDMAC REVIEWER

 MEMORANDUM

DEPARTMENT OF HEALTH AND HUMAN SERVICES
PUBLIC HEALTH SERVICE
FOOD AND DRUG ADMINISTRATION
CENTER FOR DRUG EVALUATION AND RESEARCH

DATE:

December 17, 2008

TO:

File

FROM:

Diane Leaman

SUBJECT:

NDA 22-406, Xarelto (Rivaroxaban) Tablets
Information Request from the Division of Scientific
Investigations to go to Johnson & Johnson regarding the
clinical site inspections.

In response to a request for information from Dr. Susan Thompson, DSI, GCPBII,
Diane Leaman, SRPM sent the following e-mail to Andrea Kollath, Director, regulatory Affairs,
Johnson & Johnson Pharmaceutical Research & Development, L.L.C. on December 16, 2008:

“Andrea,
Please send us the following information:

"We are requesting the compilation of data listings for use as background material in upcoming clinical
investigator inspections for NDA 22-406 Xarelto. The data listings should include the following
parameters:
• Protocol and protocol amendments
• Blank CRF
• Blank ICF
• Primary efficacy endpoint
• Secondary efficacy endpoint
• Concomitant medications
• Adverse events
• Withdrawals
• Deaths
• Serious adverse events
• Protocol violations/deviations
• Randomization list for the site
• Laboratory values (biochemistry, hematology, coagulation parameters, etc.)
The data listings should be formatted separately for each of the following eight investigators:
Investigator
Andrzej Gorecki
Tadeusz Gazkzik
Qingming Yang
Cesar Diaz Valverde

Protocol
RECORD 1
RECORD 1
RECORD 2
RECORD 2

Center/Site Number
Poland 18006
Poland 18012
China 54005
Peru 64005

 Bingfang Zeng
Jacek Kruczynski
R. Michael Murray
David Fox

RECORD 3
RECORD 3
RECORD 4
RECORD 4

China 54014
Poland 18003
U.S. 14005
U.S. 14022

For each parameter listed in the bullets above, the file should contain a listing of each patient enrolled by
that investigator with the pertinent data - e.g., "Primary efficacy endpoint" should contain a listing of
Patient 1, 2, 3, 4, etc. with the appropriate outcome of the primary efficacy endpoint. If possible, we
would like the data listings transmitted electronically by January 7, 2009."
Diane”
Diane Leaman, SRPM
Division of Medical Imaging and Hematology Products
Office of Oncology Drug Products
Center for Drug Evaluation and Research

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--------------------Diane V Leaman
12/17/2008 08:47:24 AM
CSO

 Division of Medical Imaging and Hematology Products
(DMIHP)
REGULATORY PROJECT MANAGER LABELING REVIEW
Application Number: NDA 22-406
Name of Drug: Xarelto™ (rivaroxabaqn) Tablets
Sponsor: Johnson and Johnson
Materials Reviewed: Package Insert (PI)
Submission Date:
Receipt Date:

July 28, 2008
July 28, 2008

Background and Summary
Background
Xarelto™ was submitted July 28, 2008 (received July 28, 2008) for the indication: as an
anticoagulant direct Factor Xa inhibitor for the prophylaxis of deep vein thrombosis (DVT) and
pulmonary embolism (PE) in patients undergoing hip replacement surgery or knee replacement
surgery.

Review
PACKAGE INSERT
The PI for Xarelto (rivaroxaban) tablets submitted in the original submission dated July 28, 2008
(received July 28, 2008) follows the PLR format with the following exceptions:
I. HIGHLIGHTS OF PRESCRIBING INFORMATION section
A. In the Drug names, dosage form, route of administration and controlled substance symbol
(b) (4)
section, the sponsor called XARELTO™
Reviewer Comment: The line should read “Xarelto™ (rivaroxaban) tablets.” The
(b) (4)
chemistry reviewer should comment on the term
B. The sponsor included a Boxed Warning with the following information:,
(b) (4)

  

NDA 22-406 Page 2
RPM LABELING REVIEW

 

Reviewer Comment: The black box warning for Arixtra, an anti Xa
pentasaccharide has the following black box warning:

 

HEMATOMAS
See full prescribing information for complete boxed warning.
0 Patients receiving low molecular weight heparins, heparinoids, or fondaparinux sodium who undergo
spinal puncture or neuraxial anesthesia are at risk of epidural or spinal hematoma which can result in long-
term or permanent paralysis. (5.6)
0 Risk is increased by use of indwelling epidural catheters, by concomitant use of drugs a?'ecting hemostasis,
by traumatic or repeated epidural or spinal puncture. (5.6)
0 Monitor for signs and of neurologic impairment. (5.6)
0 Consider risk/benefit before neuraxial intervention in anticoagulated patients or those to be anticoagulated
for thromboprophylaxis. 

 

Lovenox (enoxaparin sodium) Injection has the following Black Box Warning:

HEMATOMA
See full prescribing information for complete boxed warning.
0 Enoxaparin use in patients undergoing spinal/epidural anesthesia or spinal puncture increases the risk of
spinal or epidural hematoma, which may cause long?term or permanent paralysis (5.1)

0 Risk is increased by:

0 Indwelling epidural catheters for analgesia (5.1)

0 Drugs affecting hemostasis nonsteroidal anti-in?ammatory drugs, platelet inhibitors,

anticoagulants] (5.1, 7)
Traumatic or repeated spinal or epidural puncture 

The black box warning should list ?Xarelto?W in the
?rst bullet. The medical of?cer should comment on ac ox arnmg.
C. CONTRAINDICATIONS section

1- The ?rst bullet reads?

Reviewer Comment: This bullet should be shortened to read ?Active major
bleeding.?

2. The second bullet reads

Reviewer Comment: This bullet should be shortened to read ?Hepatic disease
with coagulopathy.?

  
   

 

NDA 22-406
RPM LABELING REVIEW

Page 3

(b) (4)

3.

Reviewer Comment: This bullet should be shortened to read “Pregnancy or
Breast-feeding (4).”
D. ADVERSE REACTIONS section
(b) (4)

Reviewer Comment: This item should be revised to read “6.2 Postmarketing.”
E. USE IN SPECIFIC POPULATIONS section
(b) (4)

Reviewer Comment: These bullets should be deleted.
2. The Renal Impairment subsection
(b) (4)

Reviewer Comment: The subsection should be revised to not have sub-bullets
and to shorten the bullets. It could read for example,
“Severe Renal Impairment: Use with caution; use with concomitant medications
(e.g., strong CYP3A4 inhibitors); may increase rivaroxaban plasma
concentrations
Kidney failure: Do not use
Hepatic impairment: association with coagulopathy may lead to bleeding (8.7).”
The review team should comment on the wording in this subsection.
F. See 17 PATIENT COUNSELING INFORMATION.
(b) (4)

Reviewer Comment: This phrase should not be included in the labeling.

3

 NDA 22-406 Page 4
RPM LABELING REVIEW

FULL PRESCRIBING INFORMATION section
A. Throughout the labeling the sponsor refers to the tradename with all capital letters.

Reviewer Comment: The tradename should be in Title format ?Xarelto? and
should not include the trademark notation after the ?rst usage in the
INDICATIONS AND USAGE section.

B. 6.2 Postmarketing Experience subsection

The onsor titled section 6.2

Reviewer Comment: The subsection should be entitled ?6.2 Postmarketing
Experience?. The contents may need to be revised as the information in the
subsection may need to be placed in another section and this subsection may need to
be deleted until data after approval of the drug product has been collected.

C. DRUG INTERACTIONS

The sponsor entitled the fourth subsection 

Reviewer Comment: The title should be revised to clarify more clearly the speci?c
items in this subsection.

D. USE IN SPECIFIC POPULATIONS section
1- 
Reviewer Comment: The Sionsor should provide an explanation?

CONCLUSIONS

1. The comments listed (above) should be sent to the sponsor in an information request letter.

2. The entire labeling should be reviewed by the review team, including the clinical (especially
Item 1.3.), chemistry and manufacturing (especially Item I.A.), pharmacology/toxicology,
statistical, and clinical pharmacology reviewers for further comments on labeling content.

NDA 22-406
RPM LABELING REVIEW

Page 5

3. A consult will be sent to the SEALD team for review.

_____________________________
Diane Leaman, B.S.
Safety Regulatory Project Manager
Division of Medical Imaging and
Hematology Products
Office of Oncology Drug Products
Center for Drug Evaluation and Research

________________________________
Florence Moore
Acting Project Management Team Leader
Division of Medical Imaging and
Hematology Products
Office of Oncology Drug Products
Center for Drug Evaluation and Research
Cc:
Archival NDA 22-406
Drafted by: dm/8/25/08
Initialized:
Final: August 26, 2008
Filename:N22406RPMRev.doc
RPM LABELING REVIEW

5

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--------------------Diane V Leaman
8/27/2008 12:58:45 PM
CSO

Florence Moore
8/27/2008 06:12:11 PM
CSO