Exercise training meta-analysis of trials in patients with chronic heart failure (ExTraMATCH)

doi:10.1136/bmj.37938.645220.EE

BMJ 2004;328:189 (24 January), doi:10.1136/bmj.37938.645220.EE (published 16 January 2004)

Paper

Exercise training meta-analysis of trials in patients with chronic heart failure (ExTraMATCH)

, ExTraMATCH Collaborative¹

¹ Department of Clinical Cardiology, Imperial College of Science, Technology, and Medicine, Royal Brompton Hospital, London SW3 6NP

Correspondence to: M F Piepoli m.piepoli{at}imperial.ac.uk

Abstract

Objective To determine the effect of exercise training on survivalin patients with heart failure due to left ventricular systolicdysfunction.

Design Collaborative meta-analysis.

Inclusion criteria Randomised parallel group controlled trialsof exercise training for at least eight weeks with individualpatient data on survival for at least three months.

Studies reviewed Nine datasets, totalling 801 patients: 395received exercise training and 406 were controls.

Main outcome measure Death from all causes.

Results During a mean (SD) follow up of 705 (729) days therewere 88 (22%) deaths in the exercise arm and 105 (26%) in thecontrol arm. Exercise training significantly reduced mortality(hazard ratio 0.65, 95% confidence interval, 0.46 to 0.92; logrank ${chi}$ ² = 5.9; P = 0.015). The secondary end point of death oradmission to hospital was also reduced (0.72, 0.56 to 0.93;log rank ${chi}$ ² = 6.4; P = 0.011). No statistically significant subgroupspecific treatment effect was observed.

Conclusion Meta-analysis of randomised trials to date givesno evidence that properly supervised medical training programmesfor patients with heart failure might be dangerous, and indeedthere is clear evidence of an overall reduction in mortality.Further research should focus on optimising exercise programmesand identifying appropriate patient groups to target.

Introduction

Exercise training is known to reduce the debilitating symptomsof chronic heart failure, such as breathlessness and fatigue,through effects on the cardiovascular and musculoskeletal systems.^1-3Despite this, it is not widely utilised, perhaps because dataon its effect on survival are limited.⁴

Randomised controlled trials have focused largely on symptomaticbenefits and on surrogate markers of prognosis, including neurohormonalbalance, variability in heart rate, and peak oxygen consumption.¹Individual trials have mostly been small. Meta-analyses of randomisedtrials can provide more reliable estimates of treatment effectthan individual trials because they have greater statisticalpower. When based on data from individual patients they haveseveral important advantages over those based solely on publisheddata.⁵

We report a collaborative meta-analysis, based on individualpatient data, of randomised controlled trials comparing exercisetraining with usual care in patients with chronic heart failuredue to left ventricular systolic dysfunction. We aimed to obtainreliable and precise estimates of overall treatment benefiton death and on the secondary end point of death or admissionto hospital.

Methods

A collaborative group was established, coordinated from theHeart Failure Unit of the Imperial College School of Medicine,London. A prospective protocol was written and agreed by thecollaborative group before data collection, specifying the methodsto be used, the main prespecified analyses, and a common datasetof collected variables.

We searched Medline for randomised controlled trials since 1990of exercise training in patients with chronic congestive heartfailure or left ventricular dysfunction. We cross checked ourfindings to identify any other published or unpublished trialsby consulting researchers and colleagues in exercise physiologyand heart failure and by scrutinising reference lists from reviewarticles, and abstracts presented at scientific sessions andpublished in Circulation, the Journal of the American Collegeof Cardiology, and the European Heart Journal. A subsequentsearch of the Cochrane Reviews database yielded no additionalstudies.

Selection and validity assessment
The characteristics of trials to be included were that theyshould be randomised parallel group controlled trials and shouldevaluate exercise training without any other simultaneous interventionthat could confound the results, should study patients withstable heart failure (three months or more of stability) dueto left systolic ventricular dysfunction (left ventricular ejectionfraction less than 50%), should have an exercise programme lastingeight weeks or more, should utilise training involving at leastboth legs (trials of arm or single leg training were excluded),and should have survival follow up of three months or more.

Data abstraction and study characteristics
Initial screening identified 101 potential reports. Severalgroups had reported information from the same trial in morethan one publication or had conducted more than one similartrial. Individual patients were therefore combined into onedataset for that centre, yielding 41 non-overlapping datasets:27 had been published as peer reviewed original articles, 12had been presented in abstract form only, and two had not beenpublished in either form. Nine met the eligibility criteria.

After formal agreement, all principal investigators were askedto provide datasets in the form of anonymised individual patientdata for each patient originally randomised. Datasets includedage, sex, blood pressure, ischaemic versus non-ischaemic causes,functional class according to the New York Heart Association,left ventricular ejection fraction, exercise peak oxygen consumption,dates of randomisation, follow up, death, and, if available,data on any events that had occurred during hospital stay. Ifpatients experienced more than one such event, only the firstwas recorded. Data on drugs and renal function were requested,but non-availability of this data was not an exclusion criterionfor the meta-analysis.

Datasets from each trial were transferred in electronic format(email or disk) to the coordinating centre at the Heart FailureUnit. They were checked for completeness and consistency toensure that no errors had occurred in reformatting of the dataand to check for consistency with the original publications.Queries were resolved by communication with the principal investigators.The number of events in this meta-analysis may differ slightlyfrom those reported by the trials because follow up is now morecomplete. The datasets were then incorporated into the masterdatabase, which was used for analysis. Results of analyses werediscussed at several meetings.

Analysis of potential publication bias
The potential for publication bias was first examined visuallyby constructing a funnel plot displaying precision of the estimateof the effect size (the reciprocal of its standard error) againstthe estimate of the effect size (odds ratio, on a logarithmicscale).^6
7 Asymmetry was assessed formally by the Egger test.⁷Finally, the association between variance and effect size wasanalysed by rank correlation using the Kendall tau method.

Analysis of time to end point
The prespecified event information collected was time to death(from any cause) and, in those studies that recorded it, timeto first admission to hospital (for any reason). In all casesan intention to treat approach was used, so events occurringafter allocation of treatment were included regardless of theduration of participation in an exercise programme. We considereda P value of less than 0.05 as significant.

The primary end point was time to death. A secondary end pointwas death or time to admission to hospital. Time to death wasavailable for all studies and time to death or admission tohospital was available for eight of the nine studies. The treatmentarms were combined into one arm as were the placebo arms. Statisticalpackages used were SAS Statview 5.0 and R (R Foundation forStatistical Computing, www.r-project.org). The Kaplan-Meiermethod was applied to display the time to end point in the exerciseand control arms during two years of follow up. After testingthe Cox proportional hazards assumption, we calculated the hazardratio for events in the exercise group compared with the non-exercisegroup.⁸ Statistical significance was tested with the Mantel-Coxlog rank method.

Subgroup meta-analysis of dichotomous end points
The effect of exercise was also assessed in prespecified subgroups—malesversus females, New York Heart Association functional classI-II versus III-IV, ischaemic versus non-ischaemic causes, age,peak oxygen uptake (< 15 ml/kg/min v $>=$ 15ml/kg/min),left ventricular ejection fraction (< 27% v $>=$ 27%), and duration of training programme (< 28 weeks v atleast 28 weeks). The continuous variables were each dichotomisedat their corresponding median values over the whole dataset.For each subgroup we determined whether the interaction term(subgroupxtreatment arm) was significantly different from zero.

Results

Nine prospective studies met the criteria for the meta-analysis(fig 1). Of these, eight were conducted in Europe.^9-16 The numberof patients ranged from 27 to 181.^2
13 The duration of the trainingprogramme ranged from eight weeks in a small trial (50 patients)to a year or more in the largest studies.^2
4
9
10
14 Mean followup was from 159 to 2284 days (table 1). One dataset had no dateof admission to hospital and therefore could not be includedin the Kaplan-Meier analysis for that variable.¹⁵ A total of801 patients with evidence of left ventricular dysfunction andclinical heart failure were randomly assigned to an exercisetraining programme (n = 395) or to the control group (n = 406;table 2).

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Fig 1 Selection process for studies included in meta-analysis

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Table 1 Characteristics of studies included in meta-analysis

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Table 2 Characteristics of patients included in meta-analysis. Values are numbers (percentages) unless indicated otherwise

Analysis of publication bias
We found no evidence of publication bias (fig 2). The interceptof the regression relation effect between effect size (standarderror) and 1/standard error was not significantly differentfrom zero, neither for death (intercept = 0.52, P = 0.58) norfor the combined end point of death or admission to hospital(intercept = -0.04, P = 0.97). The Kendall tau correlation coefficientbetween log of odds ratio and its standard error across thenine studies was 0.0 for mortality analysis, 0.25 for analysisof admission to hospital, and -0.06 for the combined end pointsof death or admission to hospital (P > 0.5 for all). Thefunnel plots for each end point showed no significant variationin the log odds ratio with precision of the estimate.

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Fig 2 Funnel plot for detection of publication bias

Effect of training on outcomes
Primary end point of mortality
Overall, there were 88 deaths in the exercise arm (median timeto event, 618 days) and 105 in the control arm (421 days). Mortalitywas significantly lower in the exercise group (log rank ${chi}$ ² =5.9, P = 0.015). After verification of the Cox proportionalhazards assumption ( ${chi}$ ² = 3.1, P > 0.05), the hazard ratiofor mortality was computed to be 0.65 (95% confidence interval0.46 to 0.92). The survival curves are shown in figure 3. Theseresults would imply a number needed to treat of 17 to preventone death in two years.

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Fig 3 Kaplan-Meier cumulative two year survival (top) and Kaplan-Meier cumulative two year survival or free from admission to hospital (bottom)

Secondary end point of death or admission to hospital
The secondary end point of death or admission to hospital occurredin 127 patients in the exercise arm and 173 in the control arm.Data on time to death or admission to hospital was availablefor eight datasets. The median time to admission to hospitalwas 426 days in the exercise arm and 371 days in the controlarm. Kaplan-Meier analysis of the secondary end point confirmeda significant benefit in the exercise arm (log rank ${chi}$ ² = 6.4,P = 0.011, fig 3). The Cox proportional hazards assumption wasverified ( ${chi}$ ² = 1.5, P > 0.05), and the hazard ratio for thecombined end point was 0.72 (0.56 to 0.93).

Outcomes stratified by baseline characteristics
Subgroup analyses for mortality and the combined end point ofmortality or admission to hospital are shown in figures 4 and5, respectively. In some instances one subgroup (for example,the one with ejection fraction < 27%) showed a statisticallysignificant treatment effect whereas the contrary group (forexample, the one with ejection fraction $>=$ 27%)did not. In each subgroup (and for each end point) there was,however, no significant interaction term between treatment allocationand subgroup. No evidence was therefore found of a subgroupspecific treatment effect.

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Fig 4 Effect of exercise training on death

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Fig 5 Effect of exercise training on death or admission to hospital

Discussion

Our meta-analysis of randomised controlled trials shows thatexercise training significantly improves survival time in patientswith chronic heart failure due to left ventricular systolicdysfunction. Time to death or admission to hospital was alsosignificantly extended. Subgroup analysis showed significantinteraction between subgroup and treatment effect, and thereforewe conclude that there is no evidence that any of the studiedsubgroups would be less likely to benefit from training.

The mechanism on survival remains unknown. Observational studiesin chronic heart failure are essentially unanimous in confirminga strong relation between exercise capacity and survival.¹⁷Indeed, observational work in the general healthy populationhas shown that exercise capacity, even if assessed without metabolicmeasurements, is a more powerful prognostic indicator than traditionalrisk factors such as smoking, high blood pressure, blood cholesterollevel, and diabetes.¹⁸

One explanation, applicable to patients with ischaemic causes,is that exercise training improves myocardial perfusion by alleviatingendothelial dysfunction and therefore dilating coronary vesselsand by stimulating new vessel formation by way of intermittentischaemia.^19
20 Ventricular remodelling has been shown to beattenuated by exercise training.¹¹

Regardless of cause, there are important neurohormonal and musculoskeletalabnormalities in heart failure. Exercise training may reduceadrenergic tone and increase vagal tone, as suggested by anassessment of variability in heart rate.¹ In dogs, exercisetraining raises the ventricular fibrillation threshold.²¹ Skeletalmuscle dysfunction and wasting may also respond to exercisetraining.³

Even when the amount of time spent exercising as part of a programmeis small, supervised and encouraged exercise is likely to leadto a more active lifestyle, so that the effective "dose" ofexercise may be considerably greater than that directly prescribed.Arguably, this contrasts with pharmacotherapy.

Study limitations
One trial that met all the validity criteria was not includedbecause its raw data could not be obtained.²² This was a smalltrial (12 cases, 13 controls), and its results were of a netbenefit of exercise training in exercise tolerance and qualityof life. It is unlikely that the principal findings of our meta-analysiswould have been altered if the raw data had been available.

Exercise training can necessarily only be trialled in open designstudies, and it is important to consider the possibility thatthere may have been more vigorous prognostic pharmacotherapyin one arm than in the other. At baseline there was no significantdifference in treatment pattern between groups. To assess theplausibility of changes in medical therapy as a cause for thereduction in mortality, we asked all the investigators aboutchanges in drugs during the trial. Investigators in six of thenine trials, covering two thirds of the patients, were ableto provide information. They stated that there was no changein angiotensin converting enzyme inhibitor, ${beta}$ blocker, or antialdosteronetherapies during the trial period. As is normal clinical practice,however, patients were allowed to vary their dosage of loopdiuretic, but comprehensive data on this are not available.

Since the primary end point was death from any cause (selectedto minimise potential for observer classification bias) andthere was no evidence of differences in prognostically effectivedrugs, it seems likely that there is a genuine beneficial effectand that it arises from the exercise training component of theactive treatment arm.

What is already known on this topic

Exercise training reducesthe debilitating symptoms of chronic heart failure through effectson the cardiovascular and musculoskeletal systems

Exercisetraining is not widely used because data on its effect on survivalare not compelling

What this study adds

Mortality and admissionto hospital are significantly reduced after exercise trainingin patients with chronic heart failure due to left ventricularsystolic dysfunction

This benefit was not restricted to anyparticular subgroup of patients

Contributors: Members of the Exercise Training Meta Analysisof Trials in Chronic Heart Failure patients (ExTraMATCH) Collaborativeare: (a) coordinating committee and writing committee, M F Piepoli,C Davos, D P Francis, and A J S Coats (Cardiac Medicine, RoyalBrompton Hospital, Imperial College of Science Technology andMedicine, London); (b) principal investigators, R Belardinelli,A Purcaro (Cardiology Division, Lancisi Institute, Ancona, Italy);P Dubach, J Myers (Cardiology Department, Kantonsspital, Chur,Switzerland); P Giannuzzi, P L Temporelli (Fondazione SalvatoreMaugeri, IRCCS, Istituto Scientifico di Veruno, Novara, Italy);R Hambrecht, A Linke (Herzzentrum, Universität Leipzig,Leipzig, Germany); K Kiilavuori, H Leinonen (Division of Cardiology,Central Hospital, Helsinki University, Finland); R S McKelvie,K K Teo (Hamilton Health Sciences, McMaster University, Hamilton,Ontario, Canada); M Volterrani, A Giordano (Fondazione SalvatoreMaugeri, IRCCS, Centro Medico di Gussago, Brescia, Italy); RP Wielenga, M R P Baselier (Amphia Hospital, Breda, Netherlands);R Willenheimer, E Rydberg (Department of Cardiology, UniversityHospital, Malmö, Sweden); and (c) other contributors, SAdamopoulos (Cardiology Department, Onassis Cardiac SurgeryCentre, Athens, Greece); K Dickestein (Cardiology Division,Central Hospital in Rogaland, Stavanger, Norway); A Gordon (Departmentof Cardiology, Karolinska Institute, Huddinge University Hospital,Stockholm, Sweden); J B Kostis (Medicine Department UMDNJ RobertWood Institute, Johnson Medical School, New Brunswick, NJ, USA);P Sellier (Service de Readaptation Cardiaque, Hopital Broussais,Paris, France) and J Toman (First Medical Department, MasarykUniversity, Brno, Czech Republic). M F Piepoli, C Davos, andA J S Coats designed the study, searched the literature, scrutinisedreferences, checked for consistency and completeness, retrieveddata, consulted with the principal investigators. M F Piepoli,C Davos, D P Francis, and A J S Coats analysed the data, undertookthe statistical testing, and prepared the manuscript. They willact as guarantors for the paper. The principal investigatorswho were consulted, contributed data and revised and approvedthe manuscript. The other contributors who were consulted, contributeddata that did not fulfil inclusion criteria for the analysis.

Funding: This work was supported by a grant from the Royal Bromptonand Harefield NHS Trust Clinical Research Committee (No 2000CS022B).

Conflict of interest: None declared.

Ethical approval: Not required.

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(Accepted 6 November 2003)

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Rapid Responses:

Read all Rapid Responses

We need efficacious �clinical� method in heart failure exercise training research: Sergio Stagnaro
bmj.com, 23 Jan 2004 [Full text]
Can we have more information on the outcomes in individual studies?: Chris Metcalfe
bmj.com, 25 Jan 2004 [Full text]
Anti-inflammatory nature of physical exercise: Undurti N Das
bmj.com, 25 Jan 2004 [Full text]
Exercise training for chronic heart failure: Time to apply Darwin's theory: Simon G Williams, et al.
bmj.com, 26 Jan 2004 [Full text]
Re: Exercise training for chronic heart failure: Time to apply Darwin's theory: Peter Morrell
bmj.com, 30 Jan 2004 [Full text]
Common sense: proof by meta-analysis: Paresh A Mehta
bmj.com, 2 Feb 2004 [Full text]
Trials in older heart failure patients are needed: Miles D. Witham, et al.
bmj.com, 5 Feb 2004 [Full text]
Pooling data is not meta-analysis: Douglas G Altman
bmj.com, 22 Feb 2004 [Full text]
Does exercise training lower mortality in patients with chronic heart failure?: Peter C G�tzsche
bmj.com, 6 Jan 2005 [Full text]