PROGRESS Collaborative Group c/o Institute for International Health, University of Sydney,P.O. Box 576, Newtown, Sydney, NSW 2042, Australia
Received October 15, 2002;
accepted October 16, 2002
* Corresponding author. Professor John Chalmers. Tel.: +61- 2-9351-0063; fax: +61-2-9351-0064
E-mail address: progress{at}iih.usyd.edu.au
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Abstract |
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Methods and results A total of 6105 individuals with a history of stroke or transient ischaemic attack were randomly assigned active treatment or placebo
. Active treatment comprised the angiotensin-converting-enzyme inhibitor perindopril (4mg daily), with the addition of the diuretic indapamide at the discretion of treating physicians. Over a mean of 3.9 years of follow-up, active treatment reduced blood pressure by 9/4mmHg compared with placebo and reduced the primary outcome, stroke, by 28%. Major coronary events occurred in 269 participants (active 3.8%, placebo 5.0%) and heart failure was diagnosed in 264 participants (active 3.7%, placebo 4.9%). Active treatment reduced the risk of major coronary events by 26% (95% CI: 642%;
) and the risk of congestive heart failure by 26% (542%;
). For each of these outcomes, there was no clear evidence of differences between the treatment effects in participants classified as hypertensive or non-hypertensive, and those with or without a history of coronary heart disease.
Conclusions Among individuals with cerebrovascular disease, blood pressure lowering with a regimen involving perindopril and indapamide not only reduced the risk of stroke, but also substantially reduced the risks of cardiac outcomes.
Key Words: ACE inhibitor Blood pressure Congestive heart failure Coronary heart disease Diuretic Indapamide Perindopril Randomised trial
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1. Introduction |
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Until recently, few individuals with cerebrovascular disease had been included in such studies and the effects of blood pressure lowering regimens on the risks of recurrent vascular events among this large patient population remained uncertain.9 Patients with cerebrovascular disease are not only at very high risk of stroke, but also have substantially elevated risks of cardiac events and left ventricular dysfunction.1012 Since both cerebrovascular and cardiac events are strongly related to blood pressure among individuals with or without established vascular disease,1316 there is a strong rationale for expecting that blood pressure lowering may reduce the risk of both types of vascular events. In addition, there is some evidence that agents that inhibit the renin angiotensin system may produce beneficial effects on both stroke and cardiac outcomes that are, at least in part, independent of their blood pressure lowering effects.8,17,18
The Perindopril Protection Against Recurrent Stroke Study (PROGRESS) was designed to determine the effects of an angiotensin-converting-enzyme (ACE) inhibitor-based blood pressure lowering regimen on the risks of stroke and major vascular events among individuals with a history of stroke or transient ischaemic attack.9 There were substantial benefits of this regimen for the risk of stroke,19 and we report here the effects of study treatment on the risks of coronary heart disease events and congestive heart failure.
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2. Methods |
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Potential participants who tolerated, and adhered to, at least 4 weeks of run-in therapy with perindopril were randomly assigned, in a double-blind manner, to continued active treatment or matching placebo(s). Active treatment comprised a flexible treatment regimen based on perindopril (4mg daily) in all participants, with the addition of indapamide (2.5mg daily; or 2mg daily in Japan) in those for whom the responsible study physician felt that there was no specific indication for, nor contraindication to, the use of a diuretic. Those participants assigned placebo received one or two tablets identical in appearance to the active agent(s). Combination therapy (perindopril and indapamide or double placebo), rather than single drug therapy (perindopril or single placebo), was used wherever possible, with the intent being to maximise the reduction in blood pressure. However, as many investigators had concerns about the safety of blood pressure lowering in patients with stroke (particularly in those with average or below average levels of blood pressure), it was necessary to provide some flexibility with respect to the intensity of treatment. All other aspects of medical care of the patients were left to the discretion of the responsible physician.
2.2. Data collection and follow-up
Prior to randomisation, information was collected about history of vascular disease, other vascular risk factors, and current medications. The presence of coronary heart disease at baseline was based on a history of myocardial infarction or coronary revascularisation, or a history of angina supported by documented electrocardiographic or angiographic evidence of coronary disease. Following randomisation, participants were scheduled to be seen on five occasions in the first year, and every 6 months thereafter until the end of the scheduled follow-up period or prior death. At each visit, seated blood pressure was measured in duplicate by trained observers, to the nearest 2mmHg, using a standard mercury sphygmomanometer. Information concerning adherence to study treatment, including reasons for withdrawal of randomised therapy, was routinely recorded, as were details of all serious adverse events including those resulting from coronary heart disease or heart failure.
2.3. Outcomes
The main outcomes for these analyses were: (1) major coronary events, defined as non-fatal myocardial infarction or death ascribed to coronary heart disease; (2) total coronary events, defined as non-fatal myocardial infarction, death ascribed to coronary heart disease, coronary revascularisation (percutaneous coronary intervention or coronary artery bypass grafting), or hospitalisation due to unstable angina; and (3) congestive heart failure resulting in death, hospitalisation, or requiring withdrawal of randomised therapy.
All outcomes were coded according to the ninth revision of the International Classification of Diseases (ICD9). The diagnosis of myocardial infarction was based on the combination of an appropriate clinical history supported by electrocardiographic changes and/or an elevation of cardiac enzymes or other biochemical markers of myocardial injury. A myocardial infarction was classified as non-fatal if the patient was alive 28 days after the event occurred. Death from coronary heart disease included death due to myocardial infarction and other acute, subacute, or chronic forms of ischaemic heart disease (ICD9 codes 410414.9). Sudden deaths were excluded from this outcome due to uncertainty about the cause of death in this population with pre-existing cerebrovascular disease. Congestive heart failure, due to any underlying cause, was defined as above (ICD9 codes 428.0, 428.1, 428.9, 402.01, 402.11, 402.91, and 398.91).
An endpoint adjudication committee, blind to study treatment allocation, reviewed source documentation for every potential myocardial infarction, stroke, and for all deaths recorded during the study follow-up period. All other endpoints were determined by local study investigators on the basis of clinical findings and investigations, and were not subject to central adjudication.
2.4. Statistical analysis
All analyses were conducted according to the principle of intention-to-treat. Average differences in blood pressure between the randomised groups throughout the follow-up period were estimated using linear mixed models. Cumulative event curves were estimated using the KaplanMeier procedure and the effects of treatment on outcomes were estimated from unadjusted Cox's proportional hazards models. Among participants who experienced more than one outcome event during follow-up, survival time to the first relevant event was used in each analysis. If a participant had more than one type of event (e.g. a non-fatal myocardial infarction followed by death due to coronary heart disease), each event would contribute to the relevant cause-specific analysis, but only one event from any individual contributed to any composite outcome (e.g. major coronary events). Relative risk reductions are described in the text and figures as percentage reductions ([1hazards ratio]x100). All p-values were calculated from two-sided tests of statistical significance.
Separate analyses were conducted for patient subgroups defined by the planned study drug regimen (combination drug therapy or single drug therapy), the presence or absence of hypertension at baseline (SBP160mmHg or DBP
90mmHg), and the presence or absence of coronary heart disease at baseline. Standardised estimates of treatment effects in subgroups were calculated by combining subgroup-specific estimates of the effects of combination therapy and of single drug therapy,20 with each component weighted by the study-wide proportion for which combination therapy (58%) or single drug therapy (42%) was planned at entry. Tests of homogeneity of the effects in subgroups were performed by adding an interaction term to the appropriate statistical model.
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3. Results |
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3.3. Effects of treatment on risk of major coronary events
During follow-up, a total of 269 participants experienced at least one major coronary event (non-fatal myocardial infarction or death from coronary heart disease): 115 (3.8%) of those assigned active treatment and 154 (5.0%) of those assigned placebo. The cumulative event curves diverged early and continued to separate throughout follow-up (Fig. 2). Active treatment reduced the risk of a major coronary event by 26% (95% CI: 642%, ) (Fig. 3). There was a trend towards a greater effect of active treatment among participants treated with combination therapy (risk reduction 35% [95% CI: 1252%]) than in those treated with single drug therapy (risk reduction 7% [95% CI: 3738%]). However, there was no statistically significant difference between these results (p for homogeneity=0.2). Likewise, there was no clear evidence of any differences between the effects of treatment on major coronary events in the other subgroups studied (p for homogeneity both >0.7) (Fig. 3).
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4. Discussion |
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Prior to the initiation of this study, the beneficial effects of ACE inhibitors on a broad range of major cardiac outcomes among patients selected on the basis of impaired left ventricular function2224 or acute myocardial infarction4,6,25 were well established. Since then, several newly completed trials, and overviews of these trials, have confirmed beneficial effects of ACE inhibitor-based regimens on major vascular outcomes for a range of other high-risk patient groups, including both hypertensive and non-hypertensive individuals.8 In the largest of these studies, the Heart Outcomes Prevention Evaluation (HOPE) study, conducted primarily among patients with coronary heart disease or diabetes,17 ACE inhibitor therapy produced proportional reductions in the risks of myocardial infarction and heart failure that were comparable in magnitude to those now observed in PROGRESS among patients with cerebrovascular disease. Since patients with cerebrovascular disease are at high risk of both coronary disease events and left ventricular dysfunction,1012 the finding of markedly reduced risks of major cardiac events in PROGRESS is of considerable clinical significance.
While there is no doubt that various blood pressure lowering regimens reduce the risks of major cardiac events in a variety of patient populations, there remains considerable uncertainty about the mechanism of action by which the benefits are achievedin part because of possible disparities between the size of the benefits provided by different drug classes.8 In particular, there is uncertainty about the proportion of the observed benefit that is the consequence of blood pressure lowering and the proportion that is due to other independent drug effects. In PROGRESS, the 26% (95% CI: 642%) reduction in the risk of major coronary events achieved with a 9/4mmHg reduction of blood pressure is proportionally about twice as great as that which would have been predicted from trials of mainly diuretic- and beta-blocker-based regimens among patients with hypertension, in which a blood pressure reduction of 1012/56mmHg was associated with a 16% (823%) reduction in major coronary events.1,2 Similarly, in the HOPE study, ACE inhibitor therapy produced a modest fall in blood pressure and a 20% (1030%) reduction in the risk of myocardial infarction. Previous trials of ACE inhibitors have reported similar reductions in the risk of major coronary events.4 While these findings raise the possibility that ACE inhibitors may have greater effects on cardiac outcomes than diuretics or beta-blockers, the randomised trials that have directly compared regimens based on ACE inhibitors with those based on diuretics or beta-blockers have identified no clear differences for any major vascular outcome, including major coronary events.8 While there is some evidence of a reduced risk of coronary heart disease events among patients taking ACE inhibitors compared to those taking calcium antagonists, the limited data currently available are too unreliable to draw definitive conclusions.8 In the recently completed Losartan Intervention for Endpoint Reduction in Hypertension (LIFE) study,26 a blood pressure lowering regimen based on an angiotensin receptor blocker provided greater protection against stroke than a regimen based on a beta-blocker but there was no evidence of any difference in the effects on myocardial infarction. To date, however, these trials provide only limited statistical power to detect plausibly modest differences between the effects, on cardiac outcomes, of active blood pressure lowering regimens based on different drug classes.
Exploration of the effects of single drug therapy and combination therapy on cardiac events and stroke in PROGRESS provides an opportunity to indirectly assess the likely contribution of blood pressure-specific effects of the study treatment regimen to the prevention of vascular events. Among participants who received combination therapy with both perindopril and indapamide, there was a large reduction in both blood pressure (12/5mmHg) and the risk of stroke (risk reduction 43%, [95% CI: 3054%]). Among those who received single drug therapy with perindopril alone, at a relatively modest dose of 4mg, the effect on blood pressure was much smaller (5/3mmHg) and there was a correspondingly smaller effect on the risk of stroke (risk reduction 5% [95% CI: 19 to 23%]).19 For both major coronary events and congestive heart failure, there were similar trends toward greater benefits for combination therapy than single drug therapy, suggesting that the extent of blood pressure lowering is also likely to be an important determinant of the size of the benefits achieved for these outcomes. However, the confidence limits for these estimates of treatment effects on cardiac outcomes were wide and, unlike the results for stroke, there was no significant heterogeneity of treatment effect between those who received combination therapy and those who received single drug therapy. Nevertheless, the results are broadly compatible with those of an overview of earlier trials comparing blood pressure lowering regimens of differing intensity, which showed that regimens producing larger blood pressure reductions also produced greater reductions in major coronary events.8 Further evidence will be provided by planned overviews of recent and ongoing randomised trials that directly compare the effects of regimens of differing intensity.8,27 Other relevant evidence will be provided by ongoing trials of ACE inhibitors, including ALLHAT28 and a European trial investigating the effects of a higher dose of perindopril (8mg daily) on the risk of cardiac events in patients with stable coronary artery disease (EUROPA).29
In summary, PROGRESS has demonstrated that blood pressure lowering with a regimen involving perindopril for all patients, and indapamide for just over half, reduced the risks of coronary events and heart failure, as well as the risk of stroke. This regimen resulted in the avoidance of one stroke, coronary event or case of heart failure among every 17 (95% CI: 1227) patients treated for 5 years.19 Treatment with both agents simultaneously over the same period resulted in the avoidance of one such event in every 10 (95% CI: 815) patients. PROGRESS therefore provides a strong rationale to consider implementing such a combination blood pressure lowering regimen routinely among all individuals with a history of stroke or transient ischaemic attack, irrespective of their level of blood pressure.
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Acknowledgments |
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PROGRESS Collaborative Group: a complete list is given elsewhere.19 Writing Committee: V. Chaturvedi, A. Patel, J. Chalmers, N. Chapman, L. Hansson, S. MacMahon, G. Mancia, B. Neal, J. Reid, N. Sharpe, M. Woodward. Management Committee: J. Chalmers (co-principal investigator), S. MacMahon (co-principal investigator), C. Anderson, M.G. Bousser, J. Cutler, S. Davis, G. Donnan, L. Hansson, S. Harrap, K.R. Lees, L. Liu, G. Mancia, B. Neal, T. Omae, J. Reid, A. Rodgers, R. Sega, A. Terent, C. Tzourio, C. Warlow, M. Woodward. Endpoint Adjudication Committee: G. Donnan (chair), N. Anderson, C. Bladin, B. Chambers, G. Gordon, N. Sharpe. Data Monitoring Committee: R. Collins (chair), P. Sandercock, J. Simes, P. Sleight. Statistical Analysis: S. Colman, A. Lee, M. Woodward.
Financial Disclosure: PROGRESS was funded by grants from Servier, the Health Research Council of New Zealand, and the National Health and Medical Research Council of Australia. The study was designed, conducted, analysed, and interpreted by the investigators independent of all sponsors.
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Footnotes |
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References |
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