Morbidity and Mortality Weekly Report
Weekly / Vol. 66 / No. 10 

March 17, 2017

Characteristics of Initial Prescription Episodes and Likelihood of
Long-Term Opioid Use — United States, 2006–2015
Anuj Shah1; Corey J. Hayes, PharmD1,2; Bradley C. Martin, PharmD, PhD1

Because long-term opioid use often begins with treatment
of acute pain (1), in March 2016, the CDC Guideline for
Prescribing Opioids for Chronic Pain included recommendations for the duration of opioid therapy for acute pain and the
type of opioid to select when therapy is initiated (2). However,
data quantifying the transition from acute to chronic opioid use
are lacking. Patient records from the IMS Lifelink+ database
were analyzed to characterize the first episode of opioid use
among commercially insured, opioid-naïve, cancer-free adults
and quantify the increase in probability of long-term use of
opioids with each additional day supplied, day of therapy, or
incremental increase in cumulative dose. The largest increments in probability of continued use were observed after the
fifth and thirty-first days on therapy; the second prescription;
700 morphine milligram equivalents cumulative dose; and
first prescriptions with 10- and 30-day supplies. By providing
quantitative evidence on risk for long-term use based on initial
prescribing characteristics, these findings might inform opioid
prescribing practices.
A random 10% sample of patient records during 2006–2015
was drawn from the IMS Lifelink+ database, which includes
commercial health plan information from a large number of
managed care plans and is representative of the U.S. commercially insured population (3). The data are provided in a
deidentified format and the institutional review board at the
authors’ institution deemed the study was not human subject
research. Records were selected of patients aged ≥18 years
who had at least one opioid prescription during June 1,
2006–September 1, 2015, and ≥6 months of continuous
enrollment without an opioid prescription before their first
opioid prescription. Patients excluded were those who had any
cancer (other than nonmelanoma skin cancer) or a substance
abuse disorder diagnosis in the 6 months preceding their
first opioid prescription, or whose first prescription was for

any buprenorphine formulation indicated for treatment of
substance abuse.
Patients were followed from the date of their first prescription
until loss of enrollment, study end date, or discontinuation of
opioids, which was defined as ≥180 days without opioid use.
The duration of use and number of prescriptions and cumulative dose (expressed in morphine milligram equivalents*)
for the first episode of opioid use (defined as continuous use
of opioids with a gap of no greater than 30 days) were calculated. The number of days’ supply and average daily dose in
morphine milligram equivalents for the first prescription were
also calculated. The first opioid prescription was categorized
* Morphine milligram equivalents is a conversion factor to convert different
opioids into an equivalent dose of morphine. http://www.pdmpassist.org/pdf/
BJA_performance_measure_aid_MME_conversion.pdf.

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 Morbidity and Mortality Weekly Report

into six mutually exclusive categories: long-acting; oxycodone
short-acting; hydrocodone short-acting; other Schedule II
short-acting; Schedule III–IV and nalbuphine; and tramadol.†
The Kaplan-Meier statistic was used to estimate median
time to discontinuation of opioid use; probability of continued
opioid use at 1 year and 3 years for different treatment duration
thresholds (daily for 1–40 days and weekly for 1–26 weeks);
number of prescriptions (1–15); and cumulative dose of the
first episode of opioid use (50–2000 morphine milligram
equivalents). Similarly, the relationship between the number of days’ supply, choice of first opioid prescription, and
probability of continued opioid use at 1 and 3 years was also
examined. Sensitivity analyses were conducted by modifying
the discontinuation definition from ≥180 opioid-free days to
≥90 opioid-free days, changing the allowable gap in the first
episode of opioid use from 30 days to 7 days, and excluding
patients whose average daily dose of the first prescription
exceeded 90 morphine milligram equivalents.
A total of 1,294,247 patients met the inclusion criteria,
including 33,548 (2.6%) who continued opioid therapy for
≥1 year. Patients who continued opioid therapy for ≥1 year
† The

six mutually exclusive categories are 1) long-acting: buprenorphine,
fentanyl, morphine, oxycodone, oxymorphone, and tapentadol; 2) other
Schedule II short-acting: fentanyl, hydromorphone, levorphanol, meperidine,
methadone, morphine, oxymorphone and tapentadol; 3) oxycodone shortacting; 4) hydrocodone short-acting; 5) Schedule III–IV and nalbuphine:
codeine, dihydrocodeine, butorphanol, nalbuphine, pentazocine and
propoxyphene; 6) tramadol.

were more likely to be older, female, have a pain diagnosis
before opioid initiation, initiated on higher doses of opioids,
and publically or self-insured, compared with patients who
discontinued opioid use in <365 days (Table). Among persons prescribed at least 1 day of opioids, the probability of
continued opioid use at 1 year was 6.0% and at 3 years was
2.9% (supplemental figure 1; https://stacks.cdc.gov/view/
cdc/44182) (supplemental figure 2; https://stacks.cdc.gov/
view/cdc/44550) with a median time to discontinuation of
7 days (supplemental figure 3; https://stacks.cdc.gov/view/
cdc/44551). Approximately 70% of patients have an initial
duration of opioids of ≤7 days and 7.3% were initially prescribed opioids for ≥31 days. The largest incremental increases
in the probability of continued opioid pain reliever use were
observed when the first prescription supply exceeded 10 or
30 days (Figure 1), when a patient received a third prescription
(Figure 2), or when the cumulative dose was ≥700 morphine
milligram equivalents (supplemental figure 4; https://stacks.
cdc.gov/view/cdc/44552). Substantial increases in probabilities
of continued opioid use occurred when the initial duration
reached 6 and 31 days (supplemental figure 2; https://stacks.
cdc.gov/view/cdc/44550); the findings of the sensitivity analyses were similar (supplemental figures 5–10; https://stacks.cdc.
gov/view/cdc/44183).
The highest probabilities of continued opioid use at 1 and
3 years were observed among patients who initiated treatment
with a long-acting opioid (27.3% at 1 year; 20.5% at 3 years),
followed by those whose initial treatment was with tramadol

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U.S. Department of Health and Human Services, Atlanta, GA 30329-4027.
Suggested citation: [Author names; first three, then et al., if more than six.] [Report title]. MMWR Morb Mortal Wkly Rep 2017;66:[inclusive page numbers].

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266 

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MMWR / March 17, 2017 / Vol. 66 / No. 10

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William Schaffner, MD

US Department of Health and Human Services/Centers for Disease Control and Prevention

 Morbidity and Mortality Weekly Report

TABLE. Characteristics of incident opioid users and patients who continued opioid use for ≥365 days (1 year) and ≥1,095 days (3 years) —
United States, 2006–2015
All incident opioid users
(N = 1,294,247)
Characteristic
Duration of first episode of opioid use
Enrollment duration (yrs)
Age (yrs)

Mean (SD)

95% CI

14.81 (65.00)
2.48 (2.04)
44.52 (14.56)

14.70–14.92
2.47–2.48
44.50–44.54

No. (%)
Female
Treatment indication
Back pain
Neck pain
Head pain
Joint pain
Patient region
South
Midwest
East
West
Missing/Other
Payer type
Commercial
Medicaid/State CHIP
Medicare
Self-insured
RX only/Unknown
Prescription characteristic
First prescription ≥90 MME*
First prescription ≥120 MME*
First long-acting opioid prescription†

95% CI

Patients who continued opioid
therapy for ≥365 days (n = 33,548)
Mean (SD)
183.28 (343.27)
3.30 (1.83)
49.58 (13.45)
No. (%)

95% CI
179.61–186.96
2.47–2.48
49.44–49.72

Patients who continued opioid
therapy for ≥1,095 days (n = 6,441)
Mean (SD)
362.40 (593.26)
4.98 (1.48)
50.52 (12.68)

95% CI
347.91–376.90
4.94–5.02
50.21–50.83

95% CI

No. (%)

95% CI

698,950 (54.00)

53.92–54.09

18,768 (55.94)

55.41–56.47

3,500 (54.34)

53.12–55.55

226,681 (17.51)
90,352 (6.98)
30,123 (2.33)
389,700 (30.11)

17.45–17.58
6.94–7.03
2.30–2.35
30.03–30.19

10,396 (30.99)
3,824 (11.40)
1,495 (4.46)
14,862 (44.30)

30.50–31.49
11.06–11.74
4.24–4.68
43.77–44.83

2,137 (33.18)
775 (12.03)
306 (4.75)
2,968 (46.08)

32.04–34.34
11.26–12.85
4.26–5.30
44.87–47.30

476,565 (36.74)
376,520 (29.09)
279,595 (21.60)
142,698 (11.03)
19,869 (1.54)

36.64–36.83
29.01–29.17
21.53–21.67
10.97–11.08
1.51–1.56

13,437 (40.05)
9,566 (28.51)
6,153 (18.34)
3,640 (10.85)
752 (2.24)

39.53–40.53
28.03–29.00
17.93–18.76
10.52–11.19
2.09–2.41

2,449 (38.02)
1,973 (30.63)
1,234 (19.16)
574 (8.91)
211 (3.28)

36.84–39.21
29.52–31.77
18.22–20.14
8.24–9.63
2.87–3.74

866,815 (66.97)
14,855 (1.15)
16,951 (1.31)
387,122 (29.91)
8,504 (0.66)

66.89–67.06
1.13–1.17
1.29–1.33
29.83–29.99
0.64–0.67

20,920 (62.36)
864 (2.58)
1,160 (3.46)
10,471 (31.21)
130 (0.39)

61.84–62.88
2.42–2.76
3.27–3.66
30.72–31.71
0.33–0.46

3,910 (60.70)
154 (2.39)
257 (3.96)
2,089 (32.43)
32 (0.50)

38.11–40.49
2.05–2.79
3.52–4.48
31.30–33.59
0.35–0.70

89,438 (6.91)
22,895 (1.77)
6,588 (0.51)

6.87–6.95
1.75–1.79
0.50–0.52

2,613 (7.79)
1,075 (3.20)
905 (2.70)

7.51–8.08
3.02–3.40
2.53–2.88

545 (8.46)
244 (3.79)
226 (3.51)

7.81–9.17
3.35–4.28
3.09–3.99

Abbreviations: CHIP = Children’s Health Insurance Plan; CI = confidence interval; MME = morphine milligram equivalents; RX = prescription; SD = standard deviation.
* Average daily dose was calculated as total strength of the prescription expressed in MME divided by the days’ supply of the first prescription. If a patient had
multiple prescriptions on the first day, the daily dose in MME for all the prescriptions on the index date were summed and divided by the days’ supply of the
longest lasting prescription.
† The first prescription was categorized into six mutually exclusive categories and, in case of multiple prescriptions, on the index date using the following hierarchy
to assign category: 1) long-acting; 2) other Schedule II short-acting; 3) Oxycodone short-acting; 4) Hydrocodone short-acting; 5) Schedule III-IV and Nalbuphine;
or 6) tramadol.

(13.7% at 1 year; 6.8% at 3 years) or a Schedule II short-acting
opioid other than hydrocodone or oxycodone (8.9% at 1 year;
5.3% at 3 years) (supplemental table; https://stacks.cdc.gov/
view/cdc/44181). The probabilities of continued opioid use at
1 and 3 years for persons starting on hydrocodone short acting (5.1% at 1 year; 2.4% at 3 years), oxycodone short-acting
(4.7% at 1 year; 2.3% at 3 years), or Schedule III–IV (5.0%
at 1 year; 2.2% at 3 years) opioids were similar (supplemental
table; https://stacks.cdc.gov/view/cdc/44181).
Discussion

The probability of long-term opioid use increases most
sharply in the first days of therapy, particularly after 5 days or
1 month of opioids have been prescribed, and levels off after
approximately 12 weeks of therapy. The rate of long-term use
was relatively low (6.0% on opioids 1 year later) for persons
with at least 1 day of opioid therapy, but increased to 13.5%
for persons whose first episode of use was for ≥8 days and to

29.9% when the first episode of use was for ≥31 days. Although
≥31 days of initial opioid prescriptions are not common,
approximately 7% do exceed a 1-month supply. Discussions
with patients about the long-term use of opioids to manage
pain should occur early in the opioid prescribing process,
perhaps as early as the first refill, because approximately 1 in
7 persons who received a refill or had a second opioid prescription authorized were on opioids 1 year later. As expected,
patients initiated on long-acting opioids had the highest probabilities of long-term use. However, the finding that patients
initiated with tramadol had the next highest probability of
long-term use was unexpected; because of tramadol’s minimal
affinity for the µ-opioid receptor, it is deemed a relatively safe
opioid agonist with lower abuse potential than other opioids
(4). However, a report by the Substance Abuse and Mental
Health Services Administration determined that emergency
department visits associated with tramadol-related adverse
events increased by 145% during 2005–2011 (5). Long-term

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MMWR / March 17, 2017 / Vol. 66 / No. 10 

267

 Morbidity and Mortality Weekly Report

FIGURE 1. One- and 3-year probabilities of continued opioid use
among opioid-naïve patients, by number of days’ supply* of the first
opioid prescription — United States, 2006–2015

FIGURE 2. One- and 3-year probabilities of continued opioid use
among opioid-naïve patients, by number of prescriptions* in the
first episode of opioid use — United States, 2006–2015
100

Probability of continuing use (%)

Probability of continuing use (%)

100
1-year probability

50

3-year probability

45
40
35
30
25
20
15
10
5
0

5

10

15

20

25

30

35

40

45

3-year probability

80
70
60
50
40
30
20
10

0
0

1-year probability

90

0

Days' supply of first opioid prescription
* Days’ supply of the first prescription is expressed in days (1–40) in 1-day
increments. If a patient had multiple prescriptions on the first day, the
prescription with the longest days’ supply was considered the first prescription.

data on tramadol for pain management are sparse, with only
one trial exceeding 12 weeks in duration (6). Despite this,
among patients initiated with tramadol, >64% of patients who
continued opioid use beyond 1 year were still on tramadol,
suggesting that tramadol might be prescribed intentionally
for chronic pain management. A 2016 study in Oregon (7),
which did not include tramadol (a predictor of long-term use
according to current data), reported similar findings: opioid
naïve patients aged <45 years who received two prescription
fills (versus one) or a cumulative dose of 400–799 (versus
<120) morphine milligram equivalents in their first month of
therapy were 2.3 and 3.0 times as likely to be chronic opioid
users, respectively. However, that analysis only examined opioid use in the first month after initiation of opioid therapy to
characterize risks for long-term use and did not account for
the actual duration of therapy.
The findings in this report are subject to at least five limitations. First, although the cumulative dose of the first episode
of opioid use is described, the likelihood of long-term use
when the prescriber was titrating the dose was not determined.
Rather, the total cumulative dose was calculated, which might
have been increasing or decreasing over time. Second, the
extent to which chronic opioid use was intentional versus the
outgrowth of acute use is not known. Less than 1% of patients
in this analysis were prescribed Schedule II long-acting opioids
at the outset, so intentional chronic opioid prescribing might
be uncommon; however, approximately 10% of patients were
prescribed tramadol, which might indicate intentional chronic

268 

MMWR / March 17, 2017 / Vol. 66 / No. 10

2

4

6

8

10

12

14

16

No. of prescriptions in first episode of opioid use
* Number of prescriptions is expressed as 1–15, in increments of one prescription.

opioid prescribing. Third, information on pain intensity or
duration were not available, and the etiology of pain, which
might influence the duration of opioid use, was not considered
in the analysis. Fourth, the frequency of prescriptions having
certain days’ supplied (e.g., prescriptions with a 7-day supply
would be more frequently observed than those with an 11- or
13-day supply) was not considered. The variability in the
relationships between days’ supply, the cumulative dose, and
duration of first episode and the probability of long-term use
could be affected. Finally, prescriptions that were either paid
for out-of-pocket or obtained illicitly were not included in
the analysis.
Transitions from acute to long-term therapy can begin to
occur quickly: the chances of chronic use begin to increase after
the third day supplied and rise rapidly thereafter. Consistent
with CDC guidelines, treatment of acute pain with opioids
should be for the shortest durations possible. Prescribing
<7 days (ideally ≤3 days) of medication when initiating opioids
could mitigate the chances of unintentional chronic use. When
initiating opioids, caution should be exercised when prescribing
>1 week of opioids or when authorizing a refill or a second
opioid prescription because these actions approximately double
the chances of use 1 year later. In addition, prescribers should
discuss the long-term plan for pain management with patients
for whom they are prescribing either Schedule II long-acting
opioids or tramadol.
 1Division

of Pharmaceutical Evaluation and Policy, College of Pharmacy,
University of Arkansas for Medical Sciences; 2Division of Health Services
Research, College of Medicine, University of Arkansas for Medical Services.
Corresponding author: Bradley C. Martin, bmartin@uams.edu, 501-603-1992.

US Department of Health and Human Services/Centers for Disease Control and Prevention

 Morbidity and Mortality Weekly Report

Summary
What is already known about this topic?
Based on the CDC Guideline for Prescribing Opioids for Chronic
Pain, literature supporting long-term opioid therapy for pain is
limited; research suggests an increased risk for harms with
long-term opioid use. Early opioid prescribing patterns for
opioid-naïve patients have been found to be associated with
the likelihood of long-term use.
What is added by this report?
In a representative sample of opioid naïve, cancer-free adults
who received a prescription for opioid pain relievers, the
likelihood of chronic opioid use increased with each additional
day of medication supplied starting with the third day, with the
sharpest increases in chronic opioid use observed after the fifth
and thirty-first day on therapy, a second prescription or refill,
700 morphine milligram equivalents cumulative dose, and an
initial 10- or 30-day supply. The highest probability of continued
opioid use at 1 and 3 years was observed among patients who
started on a long-acting opioid followed by patients who
started on tramadol.
What are the implications for public health practice?
Awareness among prescribers, pharmacists, and persons
managing pharmacy benefits that authorization of a second
opioid prescription doubles the risk for opioid use 1 year later
might deter overprescribing of opioids. Knowledge that the
risks for chronic opioid use increase with each additional day
supplied might help clinicians evaluate their initial opioid
prescribing decisions and potentially reduce the risk for
long-term opioid use. Discussions with patients about the
long-term use of opioids to manage pain should occur early in
the opioid prescribing process.

References
1. Edlund MJ, Martin BC, Russo JE, DeVries A, Braden JB, Sullivan MD.
The role of opioid prescription in incident opioid abuse and dependence
among individuals with chronic noncancer pain: the role of opioid
prescription. Clin J Pain 2014;30:557–64.
2. Dowell D, Haegerich TM, Chou R. CDC Guideline for prescribing
opioids for chronic pain—United States, 2016. MMWR Recomm Rep
2016;65(No. RR-1). https://doi.org/10.15585/mmwr.rr6501e1
3. Patil PR, Wolfe J, Said Q, Thomas J, Martin BC. Opioid use in the
management of diabetic peripheral neuropathy (DPN) in a large
commercially insured population. Clin J Pain 2015;31:414–24. https://
doi.org/10.1097/AJP.0000000000000124
4. Babalonis S, Lofwall MR, Nuzzo PA, Siegel AJ, Walsh SL. Abuse liability
and reinforcing efficacy of oral tramadol in humans. Drug Alcohol Depend
2013;129:116–24. https://doi.org/10.1016/j.drugalcdep.2012.09.018
5. Bush DM. The CBHSQ report: emergency department visits for adverse
reactions involving the pain medication tramadol. Rockville, MD: US
Department of Health and Human Services, Substance Abuse and Mental
Health Services Administration, Center for Behavioral Health Statistics
and Quality; 2015.
6. Karlsson M, Berggren A-C. Efficacy and safety of low-dose transdermal
buprenorphine patches (5, 10, and 20 microg/h) versus prolonged-release
tramadol tablets (75, 100, 150, and 200 mg) in patients with chronic
osteoarthritis pain: a 12-week, randomized, open-label, controlled,
parallel-group noninferiority study. Clin Ther 2009;31:503–13. https://
doi.org/10.1016/j.clinthera.2009.03.001
7. Deyo RA, Hallvik SE, Hildebran C, et al. Association between initial
opioid prescribing patterns and subsequent long-term use among opioidnaïve patients: a statewide retrospective cohort study. J Gen Intern Med
2017;32:21–7. https://doi.org/10.1007/s11606-016-3810-3

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