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Lee PY, Alexander KP, Hammill BG, Pasquali SK, Peterson ED. Representation of Elderly Persons and Women in Published Randomized Trials of Acute Coronary Syndromes. JAMA. 2001;286(6):708–713. doi:10.1001/jama.286.6.708
Author Affiliations: Outcomes Research and Assessment Group and Duke Clinical Research Institute, Duke University Medical Center, Durham, NC.
Clinical Cardiology Section Editor: Michael
S. Lauer, MD, Contributing Editor.
Context Elderly persons and women were underrepresented in randomized controlled
trials (RCTs) prior to 1990. Since then, efforts have been made to correct
these biases, but their effect is unclear.
Objective To determine whether the percentage of elderly persons and women in
published clinical trials of acute coronary syndromes has increased and how
this enrollment compared with disease prevalence.
Data Sources The MEDLINE and Cochrane databases were searched for English-language
articles from January 1966 to March 2000 regarding myocardial infarction,
unstable angina, or acute coronary syndromes. Additional data sources included
meta-analyses, review articles, and cardiology textbooks. Estimates of community-based
myocardial infarction rates came from the National Registry of Myocardial
Infarction and the Worcester Heart Study.
Study Selection Published RCTs of acute coronary syndrome patients were included and
trials enrolling 50 patients or fewer, those without clinical end points,
papers published in a language other than English, and unpublished manuscripts
were excluded. Of 7645 studies identified, 593 RCTs were selected for review.
Data Extraction The RCTs were abstracted by 2 of the authors for year of publication,
source of support (ie, funding), pharmacotherapy, study phase, number of study
sites, trial location, number of patients, mean age of the study population,
and any age exclusion criteria for enrollment.
Data Synthesis The number of published RCTs with explicit age exclusions has declined
from 58% during 1966-1990 to 40% during 1991-2000. Trial enrollment of patients
aged 75 years or older increased from 2% for studies published during 1966-1990
to 9% during 1991-2000, but remains well below their representation among
all patients with myocardial infarction (37%) in the United States. Enrollment
of women has risen from 20% for studies published between 1966-1990 to 25%
during 1991-2000, but remains well below their proportion of all patients
with myocardial infarction (43%) in the United States.
Conclusions Attempts at making cardiovascular RCTs more inclusive appear to have
had limited success; thus, women and elderly persons remain underrepresented
in published trial literature relative to their disease prevalence. Because
safety and efficacy can vary as a function of sex and age, these enrollment
biases undermine efforts to provide evidence-based care to all cardiac patients.
Demographic changes in the US population have resulted in an increase
in the numbers of elderly patients and women seeking treatment for cardiovascular
disease. In 1975, 24% of patients hospitalized for myocardial infarction (MI)
were at least 75 years old. By 1995, this percentage had risen to 37%.1 Similarly, the percentage of women MI patients has
risen from 35% in 1975 to 43% in 1995.1 Beyond
their high prevalence in the MI population, elderly persons and women fare
worse following cardiac events. For example, up to 60% of MI deaths occur
in patients aged 75 years or older.2 Elderly
patients and women also experience more MI complications including heart failure,
shock, and ventricular rupture.3 Despite these
higher risks, published cardiovascular clinical trials have historically underenrolled
elderly persons and women relative to younger persons and men.2,4
Awareness of these potential biases has stimulated government efforts
designed to encourage clinical research to be more representative of the treated
population. In 1989, the US Food and Drug Administration (FDA) published Guideline for the Study of Drugs Likely to be Used in the Elderly, which stated that the population studied should reflect the population
likely to be treated.5 Similarly, in 1990 the
National Institutes of Health noted that women had been excluded from clinical
trials without satisfactory explanation.6 In
1993, the National Institutes of Health Revitalization Act issued guidelines
for the inclusion of women as subjects in clinical trials.7,8
These guidelines stated that it is "imperative to determine whether the intervention
or therapy being studied affects women differently."
We investigated the degree to which growing public and governmental
awareness of sex and age biases altered the "representativeness" of cardiovascular
clinical trials. Specifically, we examined trends among published randomized
controlled trials (RCTs) of acute coronary syndromes (ACS) over the last 25
years to determine whether the percentage of women and elderly persons has
increased and how this enrollment compared with disease prevalence.
A literature search using MEDLINE and the Cochrane database of Clinical
Trials identified studies published from January 1966 to March 2000. Relevant
studies in MEDLINE were identified using the MeSH terms myocardial infarction, unstable angina, or acute coronary syndromes and were limited to the subject
headings clinical trials (phase
1, 2, 3, and 4), controlled clinical trials,
and randomized clinical trials. Relevant studies
in the Cochrane database were identified by the subject headings myocardial infarction, unstable angina, and acute coronary syndromes. The search was supplemented by
review of meta-analyses, review articles, and major cardiology textbooks.
We identified 7645 potential studies through this initial review process.
Abstracts from all initially identified studies were reviewed for potential
inclusion in the study. We included those RCTs of pharmacotherapies and primary
angioplasty used in the in-hospital treatment of ACS (defined as unstable
angina, acute MI, or both). Exclusion criteria consisted of trials enrolling
fewer than 50 patients, those solely reporting nonclinical end points, those
published in non-English–language publications, and unpublished manuscripts.
After applying these exclusion criteria, our study included 593 unique cardiovascular
Included trials were abstracted for year of publication, source of support
(ie, funding), pharmacotherapy, study phase, number of study sites, trial
location, number of patients, mean age of the study population, and any age
exclusion criteria for enrollment. Our prospectively defined primary end points
were the percentage of women enrolled and the percentage of enrolled patients
who were at least 75 years of age. While definitions of "elderly" vary, this
age cut point has been used in multiple prior studies. Distributions by sex
were reported in 528 of the trials. The percentage of patients aged 75 years
or older was reported in 268 trials and calculated in an additional 139 trials
from mean ages and SDs.
The initial data abstraction by one reviewer (P.Y.L.) was validated
by a 10% audit by a separate reviewer (S.K.P.) to confirm appropriateness
for study inclusion, as well as the accuracy of abstracted data. No disagreement
was found between reviewers regarding appropriate inclusion, and only 1 disagreement
was found for a trial's total sample size. Agreement between reviewers was
also high for the mean age of study patients and percentage of patients aged
75 years or older and for the percentage of trials with explicit age exclusions
(κ range, 0.92-0.95).
Trial characteristics were reported as percentages of the overall trial
population. Differences were assessed by t test for
continuous variables and by χ2 test for categorical variables
and were considered significant at P = .05. Our primary
analyses centered on determining whether enrollment of elderly persons and
women in RCTs of ACS increased since 1990 compared with those conducted from
1966 through 1990. We secondarily examined trends in study enrollment among
the first and second half of this past decade. Because studies performed in
the Veterans Affairs system were almost exclusively performed in men, we separated
these studies from the overall results when assessing degree of enrollment
Using multivariable regression analysis, we also investigated the independent
influence of trial sample size, class of drugs under study, source of funding
(government vs industry), study location (US vs non-US), year of publication,
and whether the study was a single-center or a multicenter trial. Linear regression
was used to assess the degree to which study characteristics were associated
with the percentage of women included in the trial. Because the majority of
trials failed to enroll any patients aged 75 years or older (thereby skewing
the data), logistic regression was used to determine characteristics associated
with enrolling any elderly patients. During model development, we tested for
nonlinear associations and for the potential influence of out-of-range values.
SAS version 8.1 (SAS Institute, Cary, NC) was used for all analyses.
Finally, we compared the percentage of elderly persons and women enrolled
in trial populations with those potentially eligible in community-based MI
patient populations. In this comparison, we excluded 59 trials that enrolled
only unstable angina patients. Comparisons were made for both the overall
MI trial population as well as that of MI trials performed at sites in the
United States only. Estimates of community-based MI populations came from
data from the National Registry of Myocardial Infarction (NRMI)9
and from the Worcester Heart Study populations.1
Characteristics of the 593 ACS trials are summarized in Table 1. Just over half of the trials were published since 1990.
The majority of the trials were multicenter and performed in a single country.
Sites in the United States participated in about a third of all ACS trials.
Industry funding was the most common source of reported study support. More
than 70% of trials enrolled fewer than 500 patients with trial enrollment
increasing over time from a median of 181 patients per trial in the period
1966 through 1970 to 309 patients per trial in the period 1995 through 2000.
Thrombolytic agents were the most common therapeutic class investigated, followed
by antithrombotics. The majority of trials were performed in patients with
The percentage of RCTs of ACS with explicit protocol exclusions for
age actually increased over time, reaching a high of 66.3% during the 1980s
(Table 2). After 1990, explicit
age exclusions declined. The most common age cutoff among trials with an explicit
age exclusion was 75 years. Although some trials did not have protocol-based
age exclusions, they still failed to enroll any elderly patients. For example,
in the period 1966 through 1990, only 19% of trials enrolled any patients
aged 75 years or older. After 1990, enrollment of elderly patients improved.
However, even among ACS trials published in the period 1996 through 2000,
more than half still failed to enroll at least 1 patient aged 75 years or
older (Table 2).
Between 1966 and 1990, patients aged 75 years or older accounted for
only 2% of all patients enrolled in ACS trials. Since 1990, enrollment of
elderly patients in RCTs of ACS has risen to 9%. Finally, in just those studies
published after 1995 (n = 141) or those published studies that initiated patient
recruitment after 1995 (n = 29), the percentage of elderly patients enrolled
increased to 10% and 13%, respectively. While these are positive trends, the
demographics of patients hospitalized with ACS have also changed over time,
altering the trial recruitment pool. For example, Figure 1A displays a consistent, wide gap between the proportion
of MI patients in the United States aged 75 years or older and their enrollment
in all RCTs of MI. A similar gap between MI patient population and trial enrollment
exists among the subset of trials performed exclusively in the United States.
After accounting for trial characteristics, trial enrollment of elderly patients
has not improved more rapidly in US-only trials than in non-US trials (P = .86 for interaction).
The percentage of women enrolled in RCTs of ACS increased from 20% during
the period 1966 through 1990 to 25% during the period 1991 through 2000 (P<.001). Among the most recent trials published after
1995 and those published trials initiating enrollment after 1995, the percentage
of women enrolled increased to 27% and 29%, respectively. However, as was
seen among elderly patients, the difference between the percentage of US women
with MI and the percentages of women with MI enrolled in RCTs in both the
United States and overall has remained fairly constant over time (Figure 1B). Additionally, a nearly linear
relationship was noted between the mean age of patients enrolled in clinical
trials and the percentage of women enrolled in these trials (Figure 2). Assuming this relationship remained constant, eliminating
the age disparity in the study population through targeted enrollment would
simultaneously eliminate the gap in the percentage of women enrolled in trials.
In our multivariable analyses, year of trial publication and enrollment
of more than 5000 patients were the strongest predictors of enrolling any
elderly patients and enrolling more women. After controlling for these and
other characteristics, antithrombotic and vasodilator trials were significantly
more likely to include elderly patients than other therapeutic classes (P<.05 for both). Importantly, funding source (government
vs industry) and location of the trials (United States vs other) were not
significant predictors of trials that enrolled any elderly patients (P = .33 and .19, respectively). Funding source was also
not a predictor of higher enrollment of women, but studies with sites in the
United States did enroll more women (P<.01).
The 1990s truly represent the decade of evidence-based cardiovascular
medicine, with more trials being published in this decade than in the past
3 decades combined. While these RCTs have been the "evidence base" for cardiovascular
care guidelines, they were predominantly conducted in younger (<75 years)
and in male populations. Moreover, elderly persons and women remain highly
underenrolled in the published literature. It remains to be seen whether efforts
initiated over the past decade to promote inclusion of elderly persons and
women in clinical research will eventually be successful.
The problems of age- and sex-based biases in cardiovascular RCTs performed
prior to 1990 were previously documented by Gurwitz and colleagues.2 They found that between 1966 and 1990, more than 60%
of MI trials excluded persons older than 75 years. Gurwitz et al and other
researchers have also pointed out that women were being systematically underrepresented
in cardiovascular clinical trials.2,4
However, since the late 1980s, these and other publications have raised the
consciousness of the public and the medical community concerning biases against
elderly persons and women in clinical research.4,10,11
Additionally, beginning in 1989, US regulatory agencies have enacted a series
of guidelines and funding criteria explicitly designed to reverse these age
and sex biases.5,7,8
A recent review of 52 cardiovascular clinical trials funded by the National
Heart, Lung, and Blood Institute (NHLBI) gave the first insight into the impact
of these trial inclusiveness policies.12 This
study found that, after excluding 2 large single-sex trials of cardiovascular
disease (Women's Health Study and Women's Health Initiative), NHLBI-sponsored
trials failed to include an appropriate representation of women relative to
their disease prevalence.
Our broader analysis examined trial enrollment of women and elderly
persons in published RCTs of ACS. Our study also included trials sponsored
by government, industry, and foundations, as well as those conducted outside
the United States. Consistent with the prior review,12
we found that both women and elderly persons remain highly underrepresented
in the published literature. After accounting for changes in disease demographics,
neither group has experienced substantial gains in trial representation (Figure 1).
We also noted that, to date, studies published from sites in the United
States were not significantly better than those from sites outside the United
States at enrolling elderly persons. Likewise, government sponsorship of a
trial was not a significant predictor of more inclusive trial enrollment.
This further casts doubts on whether regulatory recommendations and US funding
may yet influence trial enrollment patterns. Finally, we noted that much of
the sex disparity in trial enrollment appears to be a byproduct of underenrollment
of elderly persons (Figure 2). If
efforts to increase enrollment of elderly persons in trials are successful,
this may simultaneously eliminate sex disparities.
Given the lag time between the initiation of trial enrollment and eventual
publication in a peer-reviewed journal, it remains possible that legislation
and regulations have had positive effects and that ongoing clinical trials
may actually enroll a higher percentage of women and elderly patients. However,
among studies published 5 or more years after FDA regulatory changes or those
that initiated enrollment after 1995, women and elderly patients remain underrepresented
relative to their disease prevalence (Figure
1). Thus it may take many years for these regulations to have an
The reasons for underenrollment of elderly persons in cardiovascular
RCTs remain unclear. Gurwitz et al13 and Krumholz
et al14 have postulated that physicians might
be reluctant to subject elderly patients to more invasive or risky therapies
such as the use of thrombolytics. However, our study paradoxically demonstrated
that in certain cases, trials involving more risky therapies (eg, antithrombotics)
actually tended to be as likely or more likely to include elderly patients.
Others have attributed underenrollment to a perceived difficulty in recruiting
or retaining elderly patients in randomized trials. However, existing evidence
indicates that elderly patients can be successfully recruited when targeted15 and appear to be compliant with medication use or
follow-up appointments when enrolled.16,17
Also, investigators may be reluctant to expose elderly patients with more
advanced disease or comorbid illness to experimental therapies. While this
concern for patient safety can be appreciated, the net effect of this "protectionism"
has been to exclude elderly patients with cardiac disease from evidence-based
When treating elderly patients, clinicians must extrapolate from existing
trial data for younger patients—a process that can be fraught with hazards,
as demonstrated by recent studies. For example, the benefits of thrombolytic
therapy, unequivocally demonstrated in younger patients, has recently been
associated with higher short-term mortality in MI patients aged 75 years or
older.18 The SHOCK (SHould we emergently revascularize
Occluded Coronaries for cardiogenic shocK) trial also found that patients
younger than 70 years with extensive MIs had a survival benefit with an interventional
approach, yet elderly patients fared better with a conservative approach.19 Therefore, the universal extension of trial results
from a younger, mostly male population to women and elderly patients of both
sexes may be inappropriate.
Finally, this paucity of information regarding the safety and efficacy
of therapies in women and elderly persons may lead some physicians to withhold
treatment in these subgroups. Numerous studies have found that women and (more
particularly) elderly persons with cardiac disease are less likely to receive
evidence-based drugs and interventions.14,20,21
The extent to which these undertreatment patterns can be reversed by expanding
our knowledge in these important subgroups of patients awaits confirmation.
This study excluded both non-English–language trial publications
as well as trials with fewer than 50 patients. However, given that larger
trials tended to enroll more elderly patients and women, these exclusions
most likely make our results conservative. While this study was also limited
to cardiovascular trials, reviews in other areas of medicine such as oncology
have demonstrated similar results.22 We also
examined only the published literature, and, as noted above, ongoing trial
enrollment patterns may be different from those completed and published. Finally,
because trials rarely publish the characteristics of their screened populations,
it was impossible to determine the degree to which underrepresentation of
women and elderly persons can be explained by other exclusion criteria (eg,
comorbid illness), patient refusal to participate, or lack of recruitment.
Clarification of these reasons should be an important area for future study.
Despite growing awareness in the last decade of potential age and sex
biases, there has been only limited improvement in the inclusion of elderly
persons and women among cardiovascular RCTs, as evidenced in the published
literature. More than half of all recently published trials still failed to
enroll any patients aged 75 years or older, and women were consistently enrolled
at approximately half of their prevalence in the affected population.
Given that treatment risks and benefits may alter as a function of patient
sex and (more particularly) age, regulatory agencies will need to continue
to monitor enrollment patterns to ensure that future trials are tested in
representative populations. Agencies that fund clinical studies also should
provide additional resources to promote enrollment of representative patient
populations. These efforts are urgently needed if we are to provide evidence-based
care to all cardiac patients.
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