OBESITY DRUG
OUTCOME MEASURES

A Product Of:
The George Washington University
School of Public Health and Health Services
Department of Health Policy
Washington

A Consensus
Report of
Considerations
Regarding
Pharmacologic
Intervention

 PROJECT TEAM

Department of Health Policy
School of Public Health and Health Services
The George Washington University
Christine Ferguson, J.D.
Stephanie David, J.D., M.P.H.
Lucas Divine
Scott Kahan, M.D., M.P.H.
Christine Gallagher, M.P.A.
Mark Gooding, M.A.
Perry Markell

RESOLVE
Abby Dilley, M.S.
Chrissie Juliano, M.P.P.

 Acknowledgements
This report is a consensus document reflecting the work of the participants listed below.
Participants collectively approved the full report, including the findings and considerations, as a fair
and complete articulation of their deliberations and conclusions over the dialogue process. The
participants attended as individuals, not formal representatives of their organizations. The federal
government observers participated in discussions but have not endorsed the report and the report
does not necessarily reflect the views of the Food and Drug Administration (FDA), Centers for
Disease Control and Prevention (CDC), National Institutes of Health (NIH), or Department of Health
and Human Services (HHS).
We wish to thank all project participants for their commitment to this effort. Over the past nine
months, these individuals have steadfastly worked to understand the viewpoints and expertise of
their fellow members in the pursuit of developing this report about obesity treatment. We
appreciate their work in attending the four roundtable meetings, working group calls, and
contributions to this final document.
This research was supported by unrestricted gifts from Eisai Co., Ltd.; Novo Nordisk Worldwide;
Obesity Action Coalition; Orexigen Therapeutics, Inc.; Takeda Pharmaceuticals, U.S.A., Inc.; and
Vivus, Inc.

Participants
First Name

Last

Affiliation

Louis

Aronne

Craig

Audet

Sarah

Clauss

M.D., FACC

Children’s  National  Medical  Center

Christine

Ferguson

J.D.

The George Washington University

Ken

Fujioka

M.D.

Scripps Health

Neil

Gesundheit

M.D.

Stanford University

Scott

Kahan

M.D., M.P.H.

The George Washington University;
Johns Hopkins University

Preston

Klassen

M.D., M.H.S.

Orexigen Therapeutics, Inc.

Ted

Kyle

RPh

ConscienHealth; The Obesity Society

Jeff

Levi

Ph.D.

Trust  For  America’s  Health

Nazrat

Mirza

M.D., ScD

Children’s  National  Medical  Center

Joe

Nadglowski

Patrick

O’Neil

Ph.D.

The Obesity Society

Domenica

Rubino

M.D.

Washington Center for Weight Management and
Research

Donna

Ryan

M.D.

Pennington Biomedical Research Center

Kate

Ryan

M.P.A.

National  Women’s  Health  Network

Susan

Wood

Ph.D.

The George Washington University

Thomas

Strack

M.D.

Takeda Pharmaceuticals U.S.A, Inc.

Diana

Zuckerman

Ph.D.

National Research Center for Women and Families

M.D.

Weill-Cornell Medical College
Arena Pharmaceuticals, Inc.

Obesity Action Coalition

 Federal Government Observers (FDA, NIH, CDC)
First Name

Last

Affiliation

Eric

Colman

M.D.

FDA, Center for Drug Evaluation and Research

Bill

Dietz

M.D., Ph.D.

CDC, Division of Nutrition, Physical Activity, and Obesity

John

Jenkins

M.D.

FDA, Center for Drug Evaluation and Research

Theresa

Mullin

Ph.D.

FDA, Center for Drug Evaluation and Research

Janet

Woodcock

M.D.

FDA, Center for Drug Evaluation and Research

Jack

Yanovski

M.D., Ph.D.

NIH, NICHD, Program in Developmental Endocrinology
and Genetics

Susan

Yanovski

M.D.

NIH, NIDDK, Division of Digestive Diseases and Nutrition

Glossary of Acronyms
Acronym

Description

BMI

Body-Mass-Index

CDC

The Centers for Disease Control and Prevention

EMDAC

Endocrinologic and Metabolic Drugs Advisory Committee

EOSS

Edmonton Obesity Staging System

ETASU

Elements to Assure Safe Use

FDA

The Food and Drug Administration

IDSA

Infectious Disease Society of America

IWQoL

Impact of Weight on Quality of Life

NIH

The National Institutes of Health

PDUFA

Prescription Drug User Fee Act

PRO

Patient Reported Outcome(s)

QoL

Quality of Life

REMS

Risk Evaluation and Mitigation Strategies

 Table of Contents

Introduction and Project Description ........................................................................................................... 1
Findings and Considerations ............................................................................................................................ 5
Conclusion............................................................................................................................................................. 14
Appendix ............................................................................................................................................................... 15

 Introduction and Project Description
Despite increasing resources aimed at improving diet and physical activity, obesity continues to be
one of the most significant public health challenges facing the United States. Based on body mass
index (BMI), an indirect   measure   of   one’s   body   fat calculated by weight and height, one in three
adults are classified with obesity and an additional one in three are overweight.†,1
The scientific evidence supports that obesity is a complex and multifactorial condition with
numerous underlying environmental and genetic contributors, as well as many health
consequences. Fat tissue acts as an active endocrine organ, producing numerous hormones and
other chemical messengers that communicate with the brain and other organs, and contribute to
the development or worsening of many illnesses.2 New evidence suggests that weight gain and
obesity lead to hormonal, metabolic, and neurochemical adaptations that may encourage the body
to sustain an elevated weight and make weight loss more difficult. 3 Chronic calorie overload may
alter key neurologic areas that regulate energy balance. When weight is lost, the body may
compensate by altering the central nervous system to lower metabolism and increase hormones
that stimulate appetite. Combined, these mechanisms may counter sustained weight loss and may
promote weight regain. 4,5 This research may begin to explain why lasting weight loss can be
elusive and why obesity defies behavioral treatment in many affected individuals. Knowledge of
obesity biology is not widespread and continues to evolve.
In addition to the physiological underpinnings, the causes of obesity have many other contributing
factors, making treatment of those with obesity even more challenging, and the need for a range of
appropriate approaches to treatment, that much more critical. Because the complexity of obesity
has not been well understood, safe and effective treatments have been limited.
While prevention of obesity is a primary goal, the focus of this dialogue was on treatment. This
focus is not to imply that prevention is not essential, but for those who are struggling with obesity
and suffer from additional health conditions, it is essential to advance their opportunities to access
a range of treatments that can assist with reducing their weight and improving their health.
Clinicians and patients have expressed an interest in more options for effective treatment.
Pharmacotherapy may be one such option. Some stakeholders question why development and
approval of pharmacological interventions for treating obesity have proven so difficult. Others
have concerns about health risks to individuals who may use the drugs in unsafe or medically
inappropriate ways or who use them appropriately, but experience potentially serious side effects
of drugs. For purposes of this report, we  define  “medically  inappropriate  use”  to  mean  drug  use  by  
those   for   whom   the   risks   of   use   outweigh   the   drug’s   benefits. Given the sheer number of
individuals affected by obesity and those who desire to lose weight, there is potential for a large
population to seek out obesity drugs once approved. Rare adverse events, which may not appear in
clinical trials, may manifest with wide usage of obesity drugs – as with any drug used by a
significant number of patients over a period longer than a clinical trial.

According to the CDC, BMI is calculated by dividing weight in pounds (lbs.) by height in inches (in) squared and
multiplying by a conversion factor of 703; a BMI <18.5 indicates underweight, a BMI 18.5-24.9 indicates normal weight, a
BMI 25.0-29.9 indicates overweight, and a BMI>30 indicates obesity. For the purposes of this report we accept the current
parameters employed by the FDA in their Guidance to Industry as a baseline for obesity treatment – that is a BMI >30 or
BMI>27 accompanied by a weight-related comorbidity implies significant weight-related risk.
†

Obesity Drug Outcome Measures   1

 Perhaps reflective of a core issue is how these drugs are characterized: weight loss agents vs.
obesity treatment. Project participants recognized that a significant concern in making obesity
drugs widely available is the possibility of people without obesity using these drugs to lose weight,
whether for cosmetic or health-related purposes. The project participants concurred that drugs
used to specifically treat obesity should  be  considered  and  referenced  as  “obesity drugs.”
As   the   nation’s   lead   regulatory   public   health   agency,   the   U.S. Food and Drug Administration (the
FDA) plays a number of critical roles with regard to the obesity epidemic, including the review of
new pharmaceutical interventions and devices to combat obesity. Approval of new obesity drugs
has been limited due to concerns over drug safety and medically inappropriate use, and questions
about the benefits of obesity drugs, given the modest 5-10 percent weight loss demonstrated on
average with drug use in clinical studies.
Throughout the group discussions, project participants identified several challenges facing the FDA
when evaluating the risks and benefits of obesity drugs, which are clustered into three key areas:
 What health or quality of life benefits accrue, beyond weight loss, with drugs for obesity
treatment: how are they demonstrated, and does the importance of these benefits vary based
on the degree of  an  individual’s  obesity and associated risk factors, or the length of time the
weight loss is maintained;
 How to evaluate the unique risks associated with the sheer number of people who may seek to
use a new obesity drug: from those seeking to address the substantial limitations that obesity
places on their feeling, functioning, and survival, to those without obesity who wish to lose
weight for cosmetic or other reasons; and
 How to best ensure the safe and effective use of pharmaceutical interventions designed to help
those with obesity and most effectively prevent inappropriate use by those for whom the risks
of use outweigh the benefits.

The participants deliberated on these challenges and ultimately agreed on several issues described
in more detail further on in the report.

Project Description
In an effort to explore the pressing issues and challenges surrounding FDA approval and
appropriate use of drugs to treat obesity, The George Washington University School of Public
Health and Health Services Department   of   Health   Policy   convened   the   “Obesity   Drugs   Outcome  
Measures Dialogue Group,”   a group of diverse stakeholders who met to identify the key issues
surrounding the evaluation of pharmaceutical interventions for the treatment of obesity. These
stakeholders attempted to develop a consensus report reflecting those issues and identifying
possible solutions. The group met four times in person and participated in a series of working
groups and conference calls between November 2011 and July 2012. Members of the group
included clinicians specializing in adult and pediatric obesity; leaders from patient and consumer
groups; public health organizations and industry representatives; and researchers from academia
(see list on page two). Officials from the FDA, CDC, and NIH also observed and provided
background information to the group to help inform the process (government officials were not
asked to endorse or sign on to this final report). The dialogue process was facilitated by RESOLVE,
an independent, Washington, D.C.-based, non-profit organization with more than 30 years of
experience facilitating multi-party dialogues on complex, scientifically challenging issues.

Obesity Drug Outcome Measures   2

 Members of the “Obesity Drugs Outcome Measures Dialogue Group” represented interests of those
affected substantially by the obesity epidemic, the lack of effective obesity treatments, and the drug
approval policies of the FDA. Members were chosen for their experience with treating patients
with obesity; familiarity with the policies, science, and care surrounding treatment of patients with
obesity; familiarity with the policies around the general issue of obesity prevention and treatment;
familiarity  with  the  FDA’s  drug  review and approval process; and willingness to work together in a
collaborative, consensus-building process. To foster creative problem solving, members were
encouraged to voice their individual viewpoints and ideas. To broaden and strengthen the final
report, members were also expected to bring the views of their constituent groups, as well as
others with similar interests, to the dialogue process.
By fostering constructive dialogue among this diverse group of stakeholders interested in and
affected by the federal process to review and approve obesity drugs, the participants explored
many issues and diverse points of view and ultimately reached consensus on the report.

Obesity Background
Obesity is a chronic condition that can affect physical and mental health, as well as quality of life, in
numerous ways.6,7,8,9 Obesity is associated with significantly increased risk of more than 20 chronic
diseases and health conditions, including: type 2 diabetes, hypertension, high cholesterol, stroke,
heart disease, and cancers.10,11 Individuals with obesity are also at greater risk for physical
symptoms (e.g., joint pain, urinary incontinence), functional limitations (e.g., impaired mobility),
and psychosocial problems (e.g., body image disorders, bullying).12,13,14,15,16,17,18
Substantial reductions in physical activity and increases in dietary intake have contributed to the
increased prevalence of obesity over the past several decades.19,20 In recent years, public health
programs have sought to address the alarming trend in overweight and obesity through prevention
efforts, including improving environmental and other factors that increase the likelihood of weight
gain. However, for some individuals already struggling with obesity, these important public health
initiatives are not sufficient for the weight loss necessary to improve their health. Even as
approximately 50-70 percent of adults with obesity are actively pursuing weight loss,21,22 clinicians
and patients express a need for additional interventions.
Currently, persons with obesity who are trying to lose weight have few clinical treatment options,
available. Studies have shown that even modest, sustained weight loss of five-ten percent of body
weight can result in marked health improvements in some concurrent health-related conditions
with, generally, greater weight losses conferring greater benefits.23,24,25,26,27,28,2930 For some
individuals, lifestyle intervention can lead to sustained weight loss and health benefits.31 Many of
these treatments are provided in intensive programs by trained professionals, are not widely
accessible to most Americans, and do not address the biological factors that tend to promote weight
regain. Similarly, bariatric surgery offers an effective, medically appropriate intervention for some,
but not all, patients with severe obesity.
Because behavioral modification and surgery may not address the treatment needs of all patients
with obesity, particularly those who have health risks and other health conditions that would
benefit from weight loss, clinicians and patients repeatedly express the need for additional
treatment options to use in conjunction with lifestyle interventions. Pharmacotherapy is one such
option. While no treatment options are  “silver bullets,”  pharmacotherapy may serve as a valuable

Obesity Drug Outcome Measures   3

 adjunct to behavior modification to achieve weight loss, facilitate healthier lifestyle habits, and
potentially help mitigate biological responses that promote weight regain.
Obesity medications are intended to be used in conjunction with lifestyle changes. They produce
weight loss by biologic means to promote and reinforce behavior changes. However, as with any
medication, such medications often have effects beyond the promotion of weight loss. Sometimes
medications have additional positive health effects; for example, orlistat has an independent effect
on cholesterol lowering that goes beyond that achieved with weight loss.32 Conversely, side effects
of medications can produce negative health effects; in the 1990s, fenfluramine, which was used
in an unapproved combination with phentermine, called “fen-phen,” was found to cause
valvular heart disease in some individuals. More recently, Meridia (sibutramine) was withdrawn
from the market in 2010 due to increases in cardiovascular disease in some patients. The side
effect profile and serious harm of these weight loss medications has led to significant concern and
caution among FDA evaluators and advisors over the approval of new obesity drugs. Indeed, before
the approval of Belviq (lorcaserin) in June 2012 and Qsymia (phentermine/topiramate) in July
2012, the FDA had not approved a new obesity drug in more than a decade.
Since 2007, the FDA has followed its draft 2007 Guidance for Industry on Developing Products for
Weight Management ‡ and considered the recommendations of experts that sit on its
Endrocrinologic and Metabolic Drugs Advisory Committee (EMDAC). Under the current Guidance
for Weight Management Products, the FDA evaluates drugs intended for the clinical treatment of
obesity based primarily on percentage of weight lost and changes in cardiometabolic factors such
as blood pressure and lipid levels (see Appendix for additional measures). However, the Guidance
does not explicitly include consideration of more symptomatic impairments in patient feeling and
functioning such as joint pain, mobility, urinary incontinence, or depression and anxiety, even
though the FDA considers such symptomatic improvements in its approval evaluations for some
other types of drugs. As a result, companies do not tend to provide data on how a proposed obesity
drug affects these types of health conditions and without such data the FDA is unable to consider
drug-specific improvements in these additional feeling and functioning domains when making
approval decisions.
The FDA is not just concerned with efficacy and tolerability of drugs; the overall impact on health
status must be considered in judging the benefits of an obesity medication, not just the medication's
impact on weight alone. The FDA has indicated its intent to move toward models of patient
centeredness, where patient input and preferences are valued as part of the decision making
processes. Under a reauthorized Prescription Drug User Fee Act (PDUFA), the FDA is likely to take
a wider, more encompassing look at how drugs developed to treat obesity affect how individuals
with obesity feel and function. The FDA is also more likely to include patient-centered outcomes in
its risk-benefit framework for evaluating these drugs.

While the current guidance describes these products as drugs intended for weight-management, pharmaceutical
interventions should instead be recognized as clinical treatments for obesity.
‡

Obesity Drug Outcome Measures   4

 Findings and Considerations
The  rest  of  the  report  is  structured  as  a  series  of  “Findings”  and  “Considerations” grouped into six
general categories:
1. Understanding Obesity
2. Characterizing the Population
3. The Need for Additional Treatments for Obesity
4. Limiting or Mitigating the Risk of Medically Inappropriate or Unsafe Use of
Obesity Drugs
5. Limitations in the Current FDA Approval Process, and Altering the Risk-Benefit
Framework for Evaluation of Obesity Drugs
6. Special Considerations regarding Pediatric Patients with Obesity
The  “Findings”  are  fundamental  points  that  emerged  during  the  Dialogue Group’s  discussions and
should be viewed as informing and essential to the deliberations that resulted in eleven
“Considerations.”

1. Understanding Obesity

FINDING

Although all factors underlying the increasing rates of obesity are not yet
fully understood, scientific evidence suggests that obesity is a complex
and multifactorial condition that develops from interplay among
biological, genetic, environmental, behavioral, social, cultural, economic
and policy factors. New evidence demonstrates that weight gain and
obesity lead to hormonal, metabolic, and neurochemical adaptations that
may make weight loss more difficult. Obesity has a range of physiological,
structural, and functional changes that culminate in health consequences,
which can be severe and threaten quantity and quality of life years.

CONSIDERATION

Pharmacological interventions under investigation for the clinical treatment
of obesity should be approached as obesity treatments rather than weight
loss agents.

Obesity Drug Outcome Measures   5

 2. Characterizing the Population

FINDING

The population of individuals with obesity is not homogenous; rather,
obesity varies in severity, onset and expression of symptoms, and
comorbid conditions. Nonetheless, current characterization of obesity is
based primarily on size, as determined by the BMI scale. Some individuals
affected by obesity have associated health effects or limitations, while
others may have no immediate health consequences or impairments to
their daily feeling or functioning. On a spectrum scale, individuals with
obesity may fall into at least one of the following three categories based
on feeling, functioning and health:
Obese  and  “Well:” Individuals who carry excess weight but who do not
have any comorbidities or risk factors for comorbid conditions and who
do not experience any impairments in their daily feeling or functioning.
Obese with Risk Factors: Individuals who carry excess weight who do
not yet have any comorbidities, but who have measurable risk factors for
comorbid conditions and/or impairments to their daily feeling or
functioning.
Obese  and  “Sick:” Individuals who carry excess weight and who have
one or more obesity-attributable comorbidities and impairments to their
daily feeling or functioning.

CONSIDERATION

More sophisticated criteria should be employed to characterize individuals at
different levels of health, feeling, and functioning impairment, to determine
appropriate patient-centered benefits and risks analysis.

COMMENT   On  a  population  level,  BMI  ≥  30  correlates  well  with  increased total fat mass and with
increased risk for mortality and morbidity, particularly at the extremes of weight. On an individual
level, however, BMI is a limited clinical tool. One recently published alternative to BMI, the
Edmonton Obesity Staging System (EOSS), takes into account a number of variables beyond BMI
alone, such as the presence of symptoms, risk factors, chronic disease diagnoses, and end stage
organ disease, and may improve the identification of health risks associated with excess weight.33
Using a framework such as that provided in the finding above or the EOSS (refer to Appendix Figure
1 for an example of the EOSS staging tool), regulators could determine how the risks may balance
the benefits of a particular obesity drug within the different categories based on feeling,
functioning, and health impairments of patients across the obesity spectrum.

Obesity Drug Outcome Measures   6

 3. The Need for Additional Treatments for Obesity

FINDING

A treatment gap exists for those patients who do not respond sufficiently
to behavioral and lifestyle interventions and who are not viable
candidates for, or do not wish to undergo, bariatric surgery. Such patients
need additional options for treatment. Used appropriately, effective
prescription drugs could potentially help fill that gap.

CONSIDERATION

When the FDA determines that the benefits of taking a particular drug
outweigh its risks in treating obesity, that drug should be available for
clinical use in patients where such use is safe and medically appropriate.
Although obesity drugs may not be safe or suitable options for all individuals
wishing to use them, it is important that safe and effective drugs be made
available as treatment options for individuals with obesity that require an
alternative or additional weight loss intervention to diet, exercise, or surgery.

COMMENT   There is a clear need for safe and effective treatment modalities for obesity.
Traditional approaches to lifestyle intervention – exercise, diet and behavioral modification – and
other policy measures attempting an environmental impact alone are unlikely to curtail the burden
of type 2 diabetes and other obesity-associated chronic diseases. Currently available treatment
options may produce modest weight loss for some individuals. However, most weight loss
interventions experience high dropout rates and weight maintenance is challenging. A significant
proportion of those seeking clinical treatment do not respond adequately to traditional diet,
exercise, and/or behavioral modification. Furthermore, as described above, emerging evidence
suggests that strong physiological pathways may defend against weight loss and promote weight
regain.34

Obesity Drug Outcome Measures   7

 4. Limiting or Mitigating the Risk of Medically Inappropriate or Unsafe Use of
Obesity Drugs

FINDING

Recognizing the potential for medically inappropriate or unsafe use and
serious side effects, obesity drugs should be available only to those
patients who meet clinical criteria for use and for whom the benefits of
drug therapy for treating obesity exceed the risks of potential side-effects
of a particular drug.

CONSIDERATION

Given the concern over medically inappropriate or unsafe use of obesity drugs
by those for whom the risks outweigh the benefits, the FDA could potentially
employ a mechanism, such as Risk Evaluation and Mitigation Strategies
(REMS) or an alternative, that will allow drug approval, distribution, and use
solely for those for whom the drug is indicated.

COMMENT   While the FDA can approve drugs for specific populations deemed in medical need, the
agency is also charged with protecting the public’s health and has few mechanisms to restrict
medically inappropriate use. In the case of drugs that affect weight, the FDA is legitimately
concerned with potential serious side effects and/or medically inappropriate use by both indicated
and non-indicated populations. The inability of the FDA to limit medically inappropriate use has
created a system where, despite the potential of some drugs to benefit sub-populations, the FDA
may reject the drug on the basis of broader population health concerns, and therefore prevent
those who could benefit from having access to the drug.
The FDA should explore ways, either through existing or novel mechanisms, to limit off-label
prescribing and medically inappropriate use of drugs, while still making available under
appropriate conditions drugs that benefit indicated populations.
The REMS program is the FDA’s   current   mechanism   for   limiting risks associated with the use of
certain drugs. REMS was instituted in 2007 to give patients access to drugs with significant risks
that would otherwise not have been approvable.35 REMS have been used to prevent medically
inappropriate use through a provision known as Elements to Assure Safe Use (ETASU), which can
be used to restrict distribution and/or require provider training. As of July 2011, there were
approximately 72 approved REMS, 29 of which included ETASU provisions.36 However, REMS
were not intended to address off-label prescribing and as a result may not be an adequate
mechanism to address this issue - one which is not unique to obesity drugs. Limiting off-label use is
particularly challenging for drugs where patients for whom the risks outweigh the benefits might
frequently seek access to the drug and where providers often prescribe off-label.
One possible alternative to REMS, which was discussed and might warrant further exploration, but
which requires further data to determine if it would be effective, was a variant of the Special
Populations Limited Medical Use drug class proposed by the Infectious Disease Society of America
(IDSA).37 Under  this  framework,  a  drug  would  be  indicated  as  “not  to  be  prescribed off-label.”
In addition to managing patient risks through mechanisms such as those described above, it may
also be helpful for the FDA to employ mechanisms that will help patients manage their expectations
regarding obesity drug use. A possible tool for influencing prescriber and patient attitudes toward
appropriate medical use of drugs lies in the label. Physicians should help patients understand that
currently approved and pending obesity drugs might result, on average, in five-ten percent of

Obesity Drug Outcome Measures   8

 weight loss over the course of several months; that the weight loss will plateau; and that continued
treatment with the drug does not guarantee sustained weight loss. Such weight loss is not likely to
produce dramatic results in physical appearance, but could result in significant improvements in
health for those affected with obesity. Obesity drug labels should clearly specify that these are
drugs with potentially serious adverse effects that are intended only for the clinical treatment of
chronic obesity.

Obesity Drug Outcome Measures   9

 5. Limitations in the Current FDA Approval Process, and Altering the Risk-Benefit
Framework for Evaluation of Obesity Drugs

FINDING

Under the current FDA approval process, the risks and benefits of drugs
are considered against the entire population for whom the drug is
indicated and by whom it could be used. In the case of obesity, that
includes those with obesity who experience no other health consequences
or  impediments  to  daily  living  (obese  and  “well”),  and  those  who  
experience associated comorbid conditions and whose obesity
significantly  impacts  daily  feeling  and  functioning  (obese  and  “sick”).

CONSIDERATION

Individuals with obesity are not all alike; in evaluating the benefits and risks
of obesity-related treatments, patients at different points on the obesity
spectrum should be viewed separately. Higher risk of adverse effects of drugs
may be acceptable for individuals with more severe obesity and
comorbidities. The FDA could consider evaluating the risks and benefits of
obesity drugs across several different patient profiles and could tailor
approval decisions, combined with risk mitigation strategies described above,
to allow access to the drug for those patients with obesity for whom the
benefits of the drug outweigh its risks.

COMMENT   To better account for the varying patient risk profiles across the obesity spectrum, the
FDA could use a more patient-centered approach in evaluating the risks and benefits of an obesity
drug. Although the health, feeling, and functioning of individuals with obesity vary across the
spectrum, for illustrative purposes, those with obesity can be considered to fall broadly within the
three  different  groups  described  above:    those  with  obesity  who  are  “well,”  those  who  are  well  but  
with risk factors for other comorbid  conditions,  and  those  with  obesity  who  are  “sick,”  meaning  that  
they experience impediments to daily feeling and functioning and have one or more comorbid
health conditions.
Across these three broad groups, the level of risk a patient may be willing to accept with an obesity
drug will likely vary with how severely their obesity impacts their overall health, daily feeling and
functioning, and quality of life. For each group, there might also exist differing available treatment
options that could be considered when evaluating the unmet medical need of each group. While
lifestyle interventions aimed at dieting and exercise may be successful for some individuals with
obesity, for others, the addition of drug therapy could fill a treatment gap and assist with weight
loss where other strategies are not working or are not possible due to health or physical limitations,
or lack of accessibility.
Applying these concepts to the FDA drug approval process, the FDA may find that certain drugs
should be approved for some populations with obesity but not others. For example, the FDA may
determine  that  for  those  who  are  obese  and  “sick,”  the  benefits  of  taking  a  particular  drug  outweigh  
its  risks,  whereas  this  may  not  be  true  for  those  who  are  obese  and  “well." By using this framework,
the FDA could potentially make drugs with possible serious adverse side effects available to those
with significant medical need while limiting or restricting use among other patients, without having
to deny approval for the drug across the entire population. To do so, the FDA would need to
consider different risk mitigation strategies to ensure that only those for whom it determines the
drug to be medically appropriate have access to the drug.

Obesity Drug Outcome Measures   10

 FINDING

While tools exist for measuring the impact of obesity on Quality of Life
(QoL) and other Patient Reported Outcomes (PROs), the FDA does not
currently accept any QoL or PRO tool for evaluating obesity drug approval
applications because the existing tools do not meet FDA regulatory
standards.

CONSIDERATION

To effectively address patient perspectives in making obesity drug approval
decisions, tools to measure QoL or PROs that are acceptable to the FDA for
regulatory measures need to be developed and utilized in the immediate
future.

COMMENT   While the Impact of Weight on Quality of Life (IWQoL) scale is a widely used scientific
measure for changes in quality of life among persons with obesity, the IWQoL, as it is currently
constructed, has not been approved by the FDA for regulatory purposes. Other known measures of
QoL that assess more global influences  do  not  capture  the  nuances  of  obesity’s  impact    on  patient  
experiences such as mobility. A tool that can effectively capture patient perspectives on feeling and
functioning is essential.

FINDING

Current FDA Guidance is based primarily on weight loss and
changes in cardiometabolic parameters. Relatively less attention is
given to alleviation of other health consequences associated with
obesity. In the evaluation of the benefits and risks of these drugs,
alleviation of symptoms of obesity, such as joint pain and urinary
incontinence, and functional limitations, such as decreased mobility,
have not been sufficiently emphasized as critical areas affected by
obesity, which, in and of themselves, might warrant approval. The
FDA’s  omission  of  these  types of endpoints in the Guidance, coupled
with lack of data formally submitted by sponsors and validated QoL
instruments, has resulted in limited consideration of these other
types of health consequences. Inclusion of these secondary
endpoints in the Guidance could provide incentives for
pharmaceutical research and development to fully explore
improvements in these domains, and improved obesity treatment
options.

CONSIDERATION

The FDA should consider patient improvements in feeling and function
associated with weight loss as part of the risk-benefit calculus in its
evaluation of drugs for the treatment of obesity where data are provided
demonstrating benefit in a drug-specific clinical trial.

CONSIDERATION

The FDA should update its Guidance to Industry to include
improvements in feeling and functioning domains, for which validated
means of measuring such improvements exist, as appropriate and
optional secondary endpoints.

Obesity Drug Outcome Measures   11

 COMMENT   Because obesity can manifest in a wide variety of ways, treatment may result in many
health benefits, reductions in symptoms, and improvements in QoL. While some of the
consequences of obesity are treatable, others are not. For example, hormone levels that regulate
hunger may not adjust to new body weights even a full year after weight loss, whereas mobility or
sleep apnea may be significantly improved within this timeframe.5
The FDA regularly approves drugs, often with serious adverse effects, as long as they are able to
demonstrate improvement in one or more domains of feeling and functioning, and it is determined
that the benefits outweigh the risks.
Appendix   Table   1   (“Consequences   of   Obesity”)   identifies   a   number   of      potential   consequences of
obesity, including commonly considered cardiovascular outcomes, as well as less often considered
impairments in feeling and functioning that may be associated with, or impacted by, excess weight,
and may (relatively quickly) improve with obesity treatment.    The  table  differentiates  “long-term”  
outcomes,   which   the   current   Guidance   primarily   captures,   from   “intermediate”   and  
“immediate/symptomatic”   outcomes,   which   the   current   Guidance   does   not   sufficiently   capture.    
Drug sponsors could use this list to choose potential secondary endpoints for drug-specific clinical
trials,   and   the   FDA   could   then   consider   data   showing   the   drug’s   impact   on   these   endpoints   in   its  
evaluation of the drug.
Specific feeling and functioning areas that can be measured with validated tools, such as mobility,
osteoarthritis, polycystic ovary syndrome (PCOS), or urinary incontinence, should be listed as
examples of optional secondary endpoints in the Guidance to Industry. Drug sponsors would not be
required to study or show improvement in these areas for approval, but by demonstrating
improvement in one or more of these factors, the FDA could consider these additional
improvements as benefits when weighing benefits against the risks of the drug. The Guidance
should also indicate that the FDA will consider demonstrations of improvement in other feeling and
functioning areas not listed when accompanied by drug-specific, validated measures. Many of the
measures of improvement in physical, psychosocial, and behavioral health could be included if
there were validated QoL tools.

Obesity Drug Outcome Measures   12

 6. Special Considerations Regarding Pediatric Patients with Obesity
While all previous findings and considerations above apply generally to pediatric and adolescent
populations, these populations also have a unique set of considerations, as detailed below.

FINDING

Obesity is also prevalent and can be severe across the pediatric and
adolescent population. Children and adolescents with obesity are more
likely to develop severe obesity as adults. Current treatment options for
the pediatric population with obesity are behavior modification
interventions, a single prescription weight loss medication (adolescents
only), and bariatric surgery. Clinicians are increasingly relying on surgical
interventions in extremely obese adolescents. Clinicians need more safe
and effective options to treat their pediatric patients with obesity,
including additional FDA-approved drug therapies, particularly for
children with severe obesity.

CONSIDERATION

Unique ethical and practical issues come into play when studying any drug in
children. However, when these issues can be resolved appropriately, children
and adolescents should be included in clinical trials for obesity drugs once
safety concerns have been addressed.

FINDING

Important questions remain regarding what risk factors, in addition to
obesity itself, warrant pharmacological intervention in pediatric patients.
While >five percent weight loss is associated with a number of improved
health metrics in adults, there is limited research that indicates the
amount of weight loss required to improve risk factors and comorbidities
in children and adolescents.

CONSIDERATION

Pediatric patients with severe obesity could be considered candidates for
drug therapy after the failure of more conservative therapies.38

CONSIDERATION

The government and/or research community should prioritize development
of a registry of children and adolescents who have been treated with obesity
drugs for an extended period of time to assess long-term outcomes and side
effects.

COMMENT   Treatment for children and adolescents with obesity should aim to reduce the patient
to a healthy weight (below 85th percentile for age and gender) free of health-related complications
associated with obesity. However, additional research is needed to determine how much weight
loss leads to better health outcomes in children, in terms of feeling, functioning, and surviving.
Furthermore, validated age-appropriate measures are needed to assess changes in feeling and
functioning. Additional concerns exist around long-term drug therapy in children and adolescents
as they develop, and whether the drugs will have consequences that may not be apparent for years.
A national registry of children with severe obesity would be a useful tool for documenting the
natural history risks of severe obesity against which benefits could be compared.

Obesity Drug Outcome Measures   13

 Conclusion
Scientific knowledge gained in the last two decades has identified some of the biologic mechanisms
underlying obesity, as well as the environmental changes that predispose individuals to weight gain
and make weight loss efforts so challenging. These research findings provide additional
information with which to consider new treatment options for obesity, including pharmacotherapy.
The current FDA framework does not adequately categorize which types of patients with obesity
could achieve benefits in feeling, function, and health risk. Nor does it adequately capture the many
potential benefits of weight loss (short-term symptomatic, longer-term comorbidities, or effects on
QoL) that may be improved through modest weight loss, aided by pharmacologic treatment.
A more comprehensive patient-centered approach in making risk-benefit determinations could
help the FDA ensure that safe and effective obesity drugs are available to both adult and pediatric
patient groups for whom the benefits of improved physical and mental health and QoL outweigh
the risks associated with a particular drug.
While the considerations included in this report address a wide range of systemic problems
confronting obesity drug understanding, development, approval, and appropriate usage, five critical
points emerge which redefine how drugs developed to treat obesity should be viewed, developed,
approved, and used:
1. Drugs under investigation for the clinical treatment of obesity should be reviewed as
obesity treatments rather than weight loss agents.
2. Current clinical treatment options for obesity are limited, and obesity drugs may
provide an additional intervention for helping individuals who do not respond, or
inadequately respond, to other treatment interventions.
3. The benefit-risk evaluation of treatment with obesity drugs should extend beyond
numerical weight loss to improvement in feeling and functioning. Drug development
and review should more adequately capture and consider how obesity drugs affect
how individuals feel and function on a daily basis.
4. Obesity is not a homogenous condition. The evaluation of the benefits and risks of
pharmacologic intervention should reflect the different considerations within
different categories based on feeling, functioning, and health impairments of obesity.
5. Use of obesity treatments should be limited to those for whom they are medically
appropriate. Obesity drugs, like all drugs, come with side effects and risks. This
requires responsible use and promotion and may require limiting access to obesity
drugs to those individuals most likely to benefit due to their significant weight-related
impairment in health, feeling, and functioning.

Obesity Drug Outcome Measures   14

 Appendix
FDA Guidance for Industry — Developing Products for Weight Management:39
Efficacy Endpoints
a. Primary efficacy endpoint
The efficacy of a weight-management product should be assessed by analyses of both mean
and categorical changes in body weight.
 Mean: The difference in mean percent loss of baseline body weight in the activeproduct versus placebo-treated group
 Categorical: The proportion of subjects who lose at least five percent of
baseline body weight in the active-product versus placebo-treated group
a. Secondary efficacy endpoints
b. Secondary efficacy endpoint
Secondary efficacy endpoints should include, but are not limited to, changes in the following
metabolic parameters:
 Blood pressure and pulse
 Lipoprotein lipids
 Fasting glucose and insulin
 HbA1c (in type 2 diabetics)
 Waist circumference
In clinical practice, waist circumference is used as an indirect measure of visceral fat
content. When waist circumference increases, it is associated with elevated risk for
metabolic abnormalities such as dyslipidemia and diabetes. Because the evaluation of
investigational weight-management products routinely includes assessment of changes in
patients’ metabolic profiles, and in some cases may involve measurement of visceral fat
content by CT or MRI, waist circumference should not serve as a surrogate for visceral fat
content when measured in a clinical trial investigating the efficacy of a product for weight
loss. Rather, it can be a means to confirm that reductions in waist circumference following
treatment with a weight-management product are associated with expected improvements
in metabolic parameters.
It is likely that a large portion of the subjects will be taking concomitant medications to
treat weight-related comorbidities such as hypertension, type 2 diabetes, and dyslipidemia.
Since weight loss is expected to improve these comorbidities, an important secondary
efficacy endpoint should be the proportion of subjects treated with the weight-management
product compared with placebo who have a meaningful dose-reduction or complete
withdrawal of their concomitant medication. Algorithms that direct dose reduction or
withdrawal of concomitant medications based on changes in levels of blood pressure, lipids,
or glycaemia should be included in the study protocols.

Obesity Drug Outcome Measures   15

 Measures of quality of life from validated instruments can also be appropriate secondary
endpoints
c. Efficacy benchmarks
In general, a product can be considered effective for weight-management if after one year of
treatment either of the following occurs:
 The difference in mean weight loss between the active-product and placebotreated groups is at least five percent and the difference is statistically
significant
 The proportion of subjects who lose greater than or equal to five percent of
baseline body weight in the active-product group is at least 35 percent, is
approximately double the proportion in the placebo-treated group, and the
difference between groups is statistically significant
Improvements in blood pressure, lipids, glycaemia, or other areas commensurate with the
degree of weight lost are expected in patients treated with an effective weight-management
product. Therefore, changes in common weight-related comorbidities should be factored
into the efficacy assessment of investigational weight-management products.

Obesity Drug Outcome Measures   16

 
EOSS: EDMONTON OBESITY STAGING SYSTEM - Staging Tool

STAGE 0

0 NO sign of obesity-related risk factors
0 N0 physical 

0 NO 

- NO functional limitations

Case Example:

Physically active female with a BMI of 32 kg/m?, no risk
factors, no physical no self-esteem issues, and no
functional limitations.

6110554 5;an Obesity

EOSS Score

WHO Obesity Class?cation

 

STAG 1

0 Patient has obesity-related SUBCLINICAI. risk factors

(borderline hypertension, impaired fasting glucose, elevated liver enzymes, etc.)
- OR -
- MILD physical - patient currently not

requiring medical treatment for comorbidities

on moderate exertion, occasional aches/pains, fatigue. etc.) - OR -
- MILD obesity-related 

and/or mild impairment of well-being
(quality of life not impacted)

Case Example:

38 year old female with a BMI of 59.2 kg/m?, borderline
hypertension, mild lower back pain, and knee pain. Patient
does not require any medical intervention.

Class ill, Stage 1 Obesity

 

 

 

 

STAGE 2

Patient has ESTABLISHED obesity-related
comorbidities requiring medical intervention
(HTN, Type 2 Diabetes, sleep apnea, PCOS, osteoarthritis, re?ux disease) - OR -
0 MODERATE obesity-related 
(depression, eating disorders, anxiety disarder) - 0R -

- MODERATE functional limitations in daily activities
(quality of life Is beginning to be Impacted)

Case Example:

32 year old male with a BMI of 36 kg/m2 who has primary
hypertension and obstructive sleep apnea.

Class II, Stage 2 Obesity

 

 

 

Il-  32 AL

 

0 Patient has signi?cant obesity-related end-organ
damage (myocardial infarction, heart failure, diabetic complications,
Incapacliating osteoarthritis) - OR -

SIGNIFICANT obesity-related 
(major depression, sulcideldeation) - 0R -

- SIGNIFICANT functional limitations

(eg: unable to work or complete routine activities, reduced mobility)

- SIGNIFICANT impairment of well-being
(quality of life is signi?antly impacted)

Case Example:

49 year old female with a BMI of 67 kg/rn2 diagnosed with
sleep apnea, CV disease, GERD, and suffered from stroke.
Patient's mobility is signi?cantly limited due to osteoarthritis
and gout.

Class Ill, Stage 3 Obesity

 

 



Iii? 

TY OF

 

wuo or WEIGHT STATUS (BMI kg/m? 

 

Obese Class 30 - 34.9
Obese Class II  35 - 39.9
Obese Class .. >40

 

Stage 0/ Stage 1 Obesity

Patient does not meet clinical criteria
I I for admission at this time.
Please refer to primary care

for further preventative treatment options.

 

- SEVERE (potential and stage) from obesity-related
comorbidities - OR -

- SEVERELY disabling - OR -

- SEVERE functional limitations

Case Example:

45 year old female with a BMI of 54 kg/m1 who is in a wheel
chair because of disabling arthritis, severe hyperpnea, and
anxiety disorder.

 

 

Class ill, Stage 4 Obesity

 

Shanna AM Kushner RF, IntJ Obes 2009

Figure 1

EOSS Staging System Staging Tool

Table 1: Consequences of Obesity and Measures of Improvement Impacted by Weight Loss §
“Long-Term”  Outcomes
1.

Obesity-associated mortality

a.

Obesity-associated mortality

2.

Obesity-associated health
conditions

a.

Diabetes: Measures include diabetes rates (fasting blood sugar, 2-hour postprandial blood sugar, hemoglobin A1c) or diabetes mortality rates

b.

Cardiovascular disease: Measures include cardiac events, myocardial
infarction, stroke, and cardiovascular mortality

c.

Cancer: Measures include obesity-related cancer incidence, recurrence, and
mortality rates

d.

Kidney disease: Measures include chronic kidney disease incidence and kidney
dysfunction

e.

Fertility: Measures include fertility rates in patients with PCOS

“Intermediate  Outcomes”/Risk  Reduction
3.

Measures of intermediate
endpoints for obesity
associated health problems

a.

Diabetes: Measures include changes in diabetes risk biomarkers (such as
fasting blood sugar or fasting insulin)

b.

Cardiovascular disease: Measures include blood pressure, total cholesterol,
LDL cholesterol, HDL cholesterol, triglycerides, pulse, cardiorespiratory fitness,
C-reactive protein, pro-inflammatory cytokines, and pro-thrombotic factors

c.

Non-alcoholic fatty liver disease: Measures include changes in liver enzymes,
MRI fibrosis scores, or liver biopsy histology in patients with non-alcoholic
fatty liver disease

d.

Polycystic ovarian syndrome: Measures include changes in ovulatory function
and/or insulin sensitivity

e.

Chronic kidney disease: Measures include changes in kidney function

f.

Cardiorespiratory fitness: Measures include changes in VO2 Max and time to
fatigue

“Immediate  Outcomes”/Symptoms  (On  Following  Page)

Note that these are common consequences of obesity, which are potential benefits of obesity treatment. However, it is not suggested
that these need to be independently studied for approval of obesity treatments.
§

Obesity Drug Outcome Measures   18

 “Immediate  Outcomes”/Symptoms  (Cont’d  From  Previous  Page)
4.

5.

6.

Measures of obesityassociated symptoms/QoL

Measures of improvement in
physical function

Measures of improvement in
psychosocial and behavioral
functioning

a.

Medication use: Measures include changes in medication use for diabetes,
cardiovascular disease, hypertension, PCOS, osteoarthritis, acid reflux, etc.

b.

Sleep apnea: Measures include changes in symptoms of sleep apnea or clinical
measures of sleep apnea (such as the apnea-hypopnea index) or reduction in
continuous positive airway pressure(CPAP) use

c.

Urinary stress incontinence: Measures include changes in symptoms of urinary
stress incontinence

d.

Polycystic ovarian syndrome: Measures include changes in ovulatory function,
insulin sensitivity, and/or fertility in patients with PCOS

e.

Osteoarthritis: Measures include changes in symptoms of joint pain in patients
with osteoarthritis

f.

Acid reflux: Measures include changes in symptoms

g.

Hypogonadism: Measures include changes in symptoms or testosterone levels

a.

Mobility: Measures include changes in symptoms or improvement in 6-minute
walk test

b.

Functional limitation: Measures include changes in symptoms

a.

Overall and categorical quality of life: Measures include changes in symptoms

b.

Symptoms/level of depression: Measures include changes in symptoms,
improvement in objective measures of depression

c.

General self-esteem: Measures include changes in symptoms (e.g. Rosenberg
Self-Esteem Questionnaire)

d.

Body image (especially evaluative component measures): (e.g. Rosenberg SelfEsteem Questionnaire) changes in symptoms (e.g., Body esteem scale)

Obesity Drug Outcome Measures   19

 BMI in Children and Adolescents40
BMI in children is usually measured using a BMI-for-age scale, which allows pediatricians to
account for age-related growth. After BMI is calculated for children and adolescents, the BMI number
is plotted on BMI-for-age growth charts to obtain a percentile ranking. The percentile indicates the
relative position of the child's BMI number among children of the same sex and age. The growth charts
show the weight status categories used with children and teens (underweight, healthy weight, overweight,
and obese).
BMI-for-age weight status categories and the corresponding percentiles are shown in the following table.
Weight Status Category
Underweight
Healthy weight
Overweight
Obese**

Percentile Range
Less than the 5th percentile
5th percentile to less than the 85th percentile
85th to less than the 95th percentile
Equal to or greater than the 95th percentile

Children with a BMI significantly in excess of the 95th percentile are considered to have severe obesity, though as yet
there is not a consensus definition of how to define severe obesity. Some clinical definitions of severe obesity in children
used for research purposes thus far include, for example, BMI greater than 98th percentile, and BMI greater than 120% of
the 95th percentile of weight-for-height.**
**

Obesity Drug Outcome Measures   20

 2 to 20 years: Boys NAME
Body mass index-for-age percentiles RECORD 

 

Date ht Stature Comments

35
34

33

32

31

30

11:15:33kg/m2 AGE (YEARS) kg/910111213 141516171819 20

Published May 30, 2000 (modi?ed 10/16/00). 
SOURCE: Developed by the National Center for Health Statistics in collaboration with 
the National Center for Chronic Disease Prevention and Health Promotion (2000). ,4
SAFER - 

Obesity Drug Outcome Measures 21

 

2 to 20 years: Girls NAME
Body mass index-for-age percentiles RECORD 

 

Date ht Stature Comments

kg/m2 AGE (YEARS) kg/SOURCE: Developed by the National Center for Health Statistics in collaboration with

[In 

the National Center for Chronic Disease Prevention and Health Promotion (2000). IA

urn]! - HIAL'rl-uln- 

Published May 30, 2000 (modified 10/16/00).

 

Obesity Drug Outcome Measures 22

 

References
Flegal KM, Carroll MD, Kit BK, Ogden CL. (2012) Prevalence of obesity and trends in the distribution of body mass index
among US adults, 1999-2010. JAMA: The Journal of the American Medical Association. Online ahead-of-print. Available at:
http://jama.ama-assn.org/content/early/2012/01/11/jama.2012.39.full.
1

Aronne LJ, Nelinson DS, Lillo JL. Obesity as a disease state: a new paradigm for diagnosis and treatment Clin
Cornerstone. 2009;9(4):9-25; discussion 26-9.
2

Thaler JP, et al. Obesity is associated with hypothalamic injury in rodents and humans. J Clin Invest. 2012;122(1):153–
162.
3

4

Thaler. 2012.

5

Sumithran P, et al. Long-Term Persistence of Hormonal Adaptations to Weight Loss. N Engl J Med 2011;365:1597-604.

6

Bray GA. Medical consequences of obesity. J Clin Endocrinol Metab. 2004;89(6):2583-2589.

Thompson D, Edelsberg J, Colditz GA, Bird AP,Oster G. LIfetime health and economic consequences of obesity. Archives of
Internal Medicine. 1999;159(18):2177-2183.
7

Fontaine KR, Redden DT, Wang C, Westfall AO,Allison DB. Years of life lost due to obesity. JAMA: The Journal of the
American Medical Association. 2003;289(2; approximately 23 to 25 for whites and 23 to 30 for blacks. For any given
degree of overweight, younger adults generally had greater YLL than did older adults. The maximum YLL for white men
aged 20 to 30 years with a severe level):187-193.
8

Garner RE, Feeny DH, Thompson A, et al. Bodyweight, gender, and quality of life: A population-based longitudinal study.
Qual Life Res. 2012;21(5):813-825.
9

10Khaodhiar

L, McCowen KC, Blackburn GL. Obesity and its comorbid conditions. Clin Cornerstone. 1999;2(3):17-31.

Guh DP, Zhang W, Bansback N, Amarsi Z, Birmingham CL, Anis AH. The incidence of co-morbidities related to obesity
and overweight: A systematic review and meta-analysis. BMC Public Health. 2009;9:88.
11

Wing RR, West DS, Grady D, et al. Effect of weight loss on urinary incontinence in overweight and obese women: Results
at 12 and 18 months. J Urol. 2010;184(3):1005-1010.
12

Phelan S, Kanaya AM, Subak LL, et al. Prevalence and risk factors for urinary incontinence in overweight and obese
diabetic women: Action for health in diabetes (look ahead) study. Diabetes Care. 2009;32(8):1391-1397.
13

Subak LL, Whitcomb E, Shen H, Saxton J, Vittinghoff E, Brown JS. Weight loss: A novel and effective treatment for
urinary incontinence. J Urol. 2005;174(1):190-195.
14

Blagojevic M, Jinks C, Jeffery A, Jordan KP. Risk factors for onset of osteoarthritis of the knee in older adults: A
systematic review and meta-analysis. Osteoarthritis Cartilage. 2010;18(1):24-33.
15

Dahaghin S, Bierma-Zeinstra SM, Koes BW, Hazes JM, Pols HA. Do metabolic factors add to the effect of overweight on
hand osteoarthritis? the rotterdam study. Ann Rheum Dis. 2007;66(7):916-920.
16

17

Bray GA. Health hazards of obesity. Endocrinol Metab Clin North Am. 1996;25(4):907-919.

Wadden, T. A., & Stunkard, A. J. ( 1985). Social and psychological consequences of obesity. Annals of Internal Medicine,
103, 1062– 1067.
18

Church TS, Thomas DM, Tudor-Locke C, et al. Trends over 5 decades in U.S. occupation-related physical activity and
their associations with obesity. PLoS One. 2011;6(5):e19657.
19

Swinburn B, Sacks G, Ravussin E. Increased food energy supply is more than sufficient to explain the US epidemic of
obesity. Am J Clin Nutr. 2009;90(6):1453-1456.
20

Andreyeva T, Long MW, Henderson KE, Grode GM. Trying to lose weight: Diet strategies among americans with
overweight or obesity in 1996 and 2003. J Am Diet Assoc. 2010;110(4):535-542.
22 Kruger J, Galuska DA, Serdula MK, Jones DA. Attempting to lose weight: Specific practices among U.S. adults. Am J Prev
Med. 2004;26(5):402-406.
21

23

National Heart Lung and Blood Institute. (1998) Clinical Guidelines on the Identification, Evaluation, and

Treatment of Overweight and Obesity in Adults: The Evidence Report. Available at:
http://www.nhlbi.nih.gov/guidelines/obesity/ob_gdlns.htm
24

Aucott L., Rothnie H., McIntyre L., Thapa M., Waweru C., Gray D. (2009) Long-term weight loss from lifestyle

intervention benefits blood pressure? A systematic review. Hypertension.
Lavie C.J., Milani R.V., Artham S.M., Patel D.A., Ventura H.O. (2009) The obesity paradox, weight loss, and coronary
disease. American Journal of Medicine.
25

26

Bray GA, Ryan DH. Drug treatment of the overweight patient. Gastroenterology. 2007; 132:2239-2252.

Obesity Drug Outcome Measures   23

 Padwal RS, Li SK, Lau DC. Long-term pharmacotherapy for overweight and obesity: A systematic review and metaanalysis of randomized controlled trials. Int J Obes relat Metab Disord. 2003; 27(2):1437-1446.
27

Greenway FL, Fujioka K, Plodkowski RA, et al. Effect of naltrexone plus bupropion on weight loss in overweight and
obese adults (COR-I): A multicentre, randomised, double-blind, placebo-controlled, phase 3 trial. Lancet.
2010;376(9741):595-605.
28

O'Neil PM, Smith SR, Weissman NJ, et al. Randomized placebo-controlled clinical trial of lorcaserin for weight loss in
type 2 diabetes mellitus: The BLOOM-DM study. Obesity (Silver Spring). 2012;20(7):1426-1436.
29

Fujioka K, Seaton TB, Rowe E, et al. Weight loss with sibutramine improves glycaemic control and other metabolic
parameters in obese patients with type 2 diabetes mellitus. Diabetes Obes Metab. 2000;2(3):175-187.
30

Look AHEAD Research Group, Wing RR. Long-term effects of a lifestyle intervention on weight and cardiovascular risk
factors in individuals with type 2 diabetes mellitus: four-year results of the Look AHEAD trial. Arch Intern Med. 2010
Sep27;170(17):1566-75
31

Muls E, Kolanowski J, Scheen A, Van Gaal L: The effects of orlistat on weight and on serum lipids in obese patients with
hypercholesterolemia: a randomized, double-blind, placebo-controlled, multicentre study. Int J Obes Relat Metab Disord,
2001. 25:1713–1721,
32

Padwal RS, Pajewski NM, Allison DB, Sharma AM. (2011). Using the edmonton obesity staging system to predict
mortality in a population-representative cohort of people with overweight and obesity. CMAJ, 183(14): E1059-E1066.
33

Sumithran P, Prendergast LA, Delbridge E, et al. Long-term persistence of hormonal adaptations to weight loss. N Engl J
Med. 2011;365(17):1597-1604.
34

U.S. Congress, Food and Drug Administration Amendments Act of 2007, P.L. 110-85, 121 Stat. 930 (2007); Available at:
http://thomas.loc.gov/home/thomas.php.
35

Morel H. McKesson Specialty Care Solutions. Available at:
http://www.drugsafetydirections.com/images/forum/approvedREMS-large.jpg
36

Infectious Disease Society of America. (2012). Promoting Anti-Infective Development and Antimicrobial Stewardship
through the U.S. Food and Drug Administration Prescription Drug User Fee Act (PDUFA) Reauthorization. Available at:
http://www.idsociety.org/uploadedfiles/idsa/policy_and_advocacy/current_topics_and_issues/advancing_product_resea
rch_and_development/bad_bugs_no_drugs/statements/idsa pdufa gain testimony 030812 final.pdf
37

Flegal KM, Wei R, Ogden CL, Freedman DS, Johnson CL, Curtin LR. Characterizing extreme values of body mass index–
for-age by using the 2000 centers for disease control and prevention growth charts. The American Journal of Clinical
Nutrition. 2009;90(5):1314-1320.
38

FDA. Guidance for Industry: Developing Products for Weight Management. 2007. Available at:
http://www.fda.gov/downloads/Drugs/GuidanceComplianceRegulatoryInformation/Guidances/ucm071612.pdf
39

Centers for Disease Control and Prevention. Obesity and overweight for professionals: Childhood: Basics - DNPAO - CDC
http://www.cdc.gov/obesity/childhood/basics.html.
40

Obesity Drug Outcome Measures   24