Exercise-based rehabilitation for heart failure - PubMed (original) (raw)

Review

Exercise-based rehabilitation for heart failure

Rod S Taylor et al. Cochrane Database Syst Rev. 2014.

Update in

• Exercise-based cardiac rehabilitation for adults with heart failure.
  Long L, Mordi IR, Bridges C, Sagar VA, Davies EJ, Coats AJ, Dalal H, Rees K, Singh SJ, Taylor RS. Long L, et al. Cochrane Database Syst Rev. 2019 Jan 29;1(1):CD003331. doi: 10.1002/14651858.CD003331.pub5. Cochrane Database Syst Rev. 2019. PMID: 30695817 Free PMC article. Updated.

Abstract

Background: Previous systematic reviews and meta-analyses consistently show the positive effect of exercise-based rehabilitation for heart failure (HF) on exercise capacity; however, the direction and magnitude of effects on health-related quality of life, mortality and hospital admissions in HF remain less certain. This is an update of a Cochrane systematic review previously published in 2010.

Objectives: To determine the effectiveness of exercise-based rehabilitation on the mortality, hospitalisation admissions, morbidity and health-related quality of life for people with HF. Review inclusion criteria were extended to consider not only HF due to reduced ejection fraction (HFREF or 'systolic HF') but also HF due to preserved ejection fraction (HFPEF or 'diastolic HF').

Search methods: We updated searches from the previous Cochrane review. We searched the Cochrane Central Register of Controlled Trials (CENTRAL) (Issue1, 2013) from January 2008 to January 2013. We also searched MEDLINE (Ovid), EMBASE (Ovid), CINAHL (EBSCO) and PsycINFO (Ovid) (January 2008 to January 2013). We handsearched Web of Science, bibliographies of systematic reviews and trial registers (Controlled-trials.com and Clinicaltrials.gov).

Selection criteria: Randomised controlled trials of exercise-based interventions with six months' follow-up or longer compared with a no exercise control that could include usual medical care. The study population comprised adults over 18 years and were broadened to include individuals with HFPEF in addition to HFREF.

Data collection and analysis: Two review authors independently screened all identified references and rejected those that were clearly ineligible. We obtained full-text papers of potentially relevant trials. One review author independently extracted data from the included trials and assessed their risk of bias; a second review author checked data.

Main results: We included 33 trials with 4740 people with HF predominantly with HFREF and New York Heart Association classes II and III. This latest update identified a further 14 trials. The overall risk of bias of included trials was moderate. There was no difference in pooled mortality between exercise-based rehabilitation versus no exercise control in trials with up to one-year follow-up (25 trials, 1871 participants: risk ratio (RR) 0.93; 95% confidence interval (CI) 0.69 to 1.27, fixed-effect analysis). However, there was trend towards a reduction in mortality with exercise in trials with more than one year of follow-up (6 trials, 2845 participants: RR 0.88; 95% CI 0.75 to 1.02, fixed-effect analysis). Compared with control, exercise training reduced the rate of overall (15 trials, 1328 participants: RR 0.75; 95% CI 0.62 to 0.92, fixed-effect analysis) and HF specific hospitalisation (12 trials, 1036 participants: RR 0.61; 95% CI 0.46 to 0.80, fixed-effect analysis). Exercise also resulted in a clinically important improvement superior in the Minnesota Living with Heart Failure questionnaire (13 trials, 1270 participants: mean difference: -5.8 points; 95% CI -9.2 to -2.4, random-effects analysis) - a disease specific health-related quality of life measure. However, levels of statistical heterogeneity across studies in this outcome were substantial. Univariate meta-regression analysis showed that these benefits were independent of the participant's age, gender, degree of left ventricular dysfunction, type of cardiac rehabilitation (exercise only vs. comprehensive rehabilitation), mean dose of exercise intervention, length of follow-up, overall risk of bias and trial publication date. Within these included studies, a small body of evidence supported exercise-based rehabilitation for HFPEF (three trials, undefined participant number) and when exclusively delivered in a home-based setting (5 trials, 521 participants). One study reported an additional mean healthcare cost in the training group compared with control of USD3227/person. Two studies indicated exercise-based rehabilitation to be a potentially cost-effective use of resources in terms of gain in quality-adjusted life years (QALYs) and life-years saved.

Authors' conclusions: This updated Cochrane review supports the conclusions of the previous version of this review that, compared with no exercise control, exercise-based rehabilitation does not increase or decrease the risk of all-cause mortality in the short term (up to 12-months' follow-up) but reduces the risk of hospital admissions and confers important improvements in health-related quality of life. This update provides further evidence that exercise training may reduce mortality in the longer term and that the benefits of exercise training on appear to be consistent across participant characteristics including age, gender and HF severity. Further randomised controlled trials are needed to confirm the small body of evidence seen in this review for the benefit of exercise in HFPEF and when exercise rehabilitation is exclusively delivered in a home-based setting.

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Conflict of interest statement

Rod Taylor and Hayes Dalal are co‐lead investigators on an ongoing National Institute for Health Research (NIHR) Programme Grants for Applied Research funded study ‐ Rehabilitation Enablement in Chronic Heart Failure (REACH‐HF) ‐ to develop and evaluate the costs and outcomes of a home‐based self help heart failure exercise rehabilitation manual (RP‐PG‐1210‐12004).

Figures

Figure 1

Figure 2

Methodological quality graph: review authors' judgements about each methodological quality item presented as percentages across all included studies.

Figure 3

Methodological quality summary: review authors' judgements about each methodological quality item for each included study.

Figure 4

Funnel plot of comparison: 1 All exercise interventions versus usual care, outcome: 1.1 All‐cause mortality up to 12 months' follow‐up.

Figure 5

Funnel plot of comparison: 1 All exercise interventions versus usual care, outcome: 1.6 Health‐related quality of life ‐ Minnesota Living with Heart Failure (MLWHF) questionnaire up to 12 months' follow‐up.

Figure 6

Funnel plot of comparison: 1 All exercise interventions versus usual care, outcome: 1.7 Health‐related quality of life ‐ Minnesota Living with Heart Failure (MLWHF) questionnaire and other scales.

Analysis 1.1

Comparison 1 All exercise interventions versus usual care, Outcome 1 All‐cause mortality up to12 months' follow‐up.

Analysis 1.2

Comparison 1 All exercise interventions versus usual care, Outcome 2 All‐cause mortality more than 12 months' follow‐up.

Analysis 1.3

Comparison 1 All exercise interventions versus usual care, Outcome 3 Hospital admission up to 12 months' follow‐up.

Analysis 1.4

Comparison 1 All exercise interventions versus usual care, Outcome 4 Hospital admission heart failure only.

Analysis 1.5

Comparison 1 All exercise interventions versus usual care, Outcome 5 Hospital admission more than 12 months' follow‐up.

Analysis 1.6

Comparison 1 All exercise interventions versus usual care, Outcome 6 Health‐related quality of life ‐ MLWHF up to 12 months' follow‐up.

Analysis 1.7

Comparison 1 All exercise interventions versus usual care, Outcome 7 Health‐related quality of life ‐ MLWHF and other scales.

Analysis 1.8

Comparison 1 All exercise interventions versus usual care, Outcome 8 Health‐related quality of life ‐ MLWHF 12 months' follow‐up.

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References

References to studies included in this review

1. 1. Austin J, Williams R, Ross L, Moseley L, Hutchison S. Randomised controlled trial of cardiac rehabilitation in elderly patients with heart failure. European Journal of Heart Failure 2005;7(3):411‐7. - PubMed
   2. Austin J, Williams WR, Hutchison S. Multidisciplinary management of elderly patients with chronic heart failure: five year outcome measures in death and survivor groups. European Journal of Cardiovascular Nursing: Journal of the Working Group on Cardiovascular Nursing of the European Society of Cardiology 2009;8(1):34‐9. [PUBMED: 18534911] - PubMed
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2. 1. Belardinelli R, Georgiou D, Cianci G, Purcaro A. Randomized, controlled trial of long‐term moderate exercise training in chronic heart failure: effects on functional capacity, quality of life, and clinical outcome. Circulation 1999;99(9):1173‐82. - PubMed
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3. 1. Belardinelli R, Georgiou D, Cianci G, Purcaro A. 10‐year exercise training in chronic heart failure: a randomized controlled trial. Journal of the American College of Cardiology 2012;60:1521‐8. - PubMed
4. 1. Bocalini DS, dos Santos L, Serra AJ. Physical exercise improves the functional capacity and quality of life in patients with heart failure. Clinics (Sao Paulo, Brazil) 2008;63:437‐42. - PMC - PubMed
5. 1. Zwisler AD, Schou L, Soja AM, Brønnum‐Hansen H, Gluud C, Iversen L, et al. A randomized clinical trial of hospital‐based, comprehensive cardiac rehabilitation versus usual care for patients with congestive heart failure, ischemic heart disease, or high risk of ischemic heart disease (the DANREHAB trial) ‐ design, intervention, and population. American Heart Journal 2005;899:e16. - PubMed
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References to studies excluded from this review

1. 1. Adamopoulos S, Parissis J, Kroupis C, Georgiadis M, Karatzas D, Karavolias G, et al. Physical training reduces peripheral markers of inflammation in patients with chronic heart failure. European Heart Journal 2001;22(9):791‐7. - PubMed
2. 1. Alves AJ, Ribeiro F, Goldhammer E, Rivlin Y, Rosenschein U, Viana JL, et al. Exercise training improves diastolic function in heart failure patients. Medicine & Science in Sports & Exercise 2012;44:776‐85. - PubMed
3. 1. Barrow DE, Bedford A, Ives G, O'Toole L, Channer KS. An evaluation of the effects of Tai Chi Chuan and Chi Kung training in patients with symptomatic heart failure: a randomised controlled pilot study. Postgraduate Medical Journal 2008;83(985):717‐21. - PMC - PubMed
4. 1. Belardinelli R, Lacalaprice F, Faccenda E, Purcaro A, Perna G. Effects of short‐term moderate exercise training on sexual function in male patients with chronic stable heart failure. International Journal of Cardiology 2005;101(1):83‐90. - PubMed
5. 1. Briffa TG, Eckermann SD, Griffiths AD, Harris PJ, Heath MR, Freedman SB, et al. Cost‐effectiveness of rehabilitation after an acute coronary event: a randomised controlled trial. Medical Journal of Australia 2005;183(9):450‐5. - PubMed

References to ongoing studies

1. 1. ISRCTN86879094. Exercise training in diastolic heart failure: a prospective, randomized, controlled study to determine the effects of exercise training in patients with heart failure and preserved ejection fraction (Ex‐DHF). www.controlled‐trials.com/ISRCTN86879094/ (accessed 11 April 2014).
2. 1. Mudge AM, Denaro CP, Scott AC, Atherton JJ, Meyers DE, Marwick TH, et al. Exercise training in recently hospitalized heart failure patients enrolled in a disease management programme: design of the EJECTION‐HF randomized controlled trial. European Journal of Heart Failure 2011;13:1370‐5. - PubMed
3. 1. NCT00012883. Home walking exercise training in advanced heart failure. <ClinicalTrials.gov/show/NCT00012883> (accessed 11 April 2014).
4. 1. NCT00013221. Exercise effect on aerobic capacity and QOL in heart failure. <ClinicalTrials.gov/show/NCT00013221> (accessed 11 April 2014).
5. 1. NCT01033591. Exercise for patients with heart failure in primary care: the EFICAR. <ClinicalTrials.gov/show/NCT01033591> (accessed 11 April 2014).

Additional references

1. 1. Yancy CW, Jessup M, Bozkurt B, Butler J, Casey DE Jr, Drazner MH, et al. 2013 ACCF/AHA guideline for the management of heart failure: a report of the American College of Cardiology Foundation/American Heart Association Task Force on Practice Guidelines. Journal of the American College of Cardiology 2013;15:e147‐239. - PubMed
2. 1. Go AS, Mozaffarian D, Roger VL, Benjamin EJ, Berry JD, Blaha MJ, et al. Heart disease and stroke statistics ‐ 2014 update: a report from the American Heart Association. Circulation 2014;129:e28‐292. - PMC - PubMed
3. 1. British Association for Cardiovascular Prevention and Rehabilitation (BACPR). The BACPR standards and core components for cardiovascular disease prevention and rehabilitation, 2nd edition, 2012. www.bacpr.com/resources/46C_BACPR_Standards_and_Core_Components_2012.pdf (accessed 11 April 2014).
4. 1. Belardinelli R, Georgiou D, Ginzton L, Cianci G, Purcaro A. Effects of moderate exercise training on thallium uptake and contractile response to low‐dose dobutamine of dysfunctional myocardium in patients with ischemic cardiomyopathy. Circulation 1998;97:553‐61. - PubMed
5. 1. Chen J, Normand SL, Wang Y, Krumholz HM. National and regional trends in heart failure hospitalization and mortality rates for Medicare beneficiaries, 1998‐2008. JAMA 2011;306:1669‐78. - PMC - PubMed

References to other published versions of this review

1. 1. Davies EJ, Moxham T, Rees K, Singh S, Coats AJ, Ebrahim S, et al. Exercise based rehabilitation for heart failure. Cochrane Database of Systematic Reviews 2010, Issue 4. - PubMed
2. 1. Rees K, Taylor RS, Singh S, Coats AJS, Ebrahim S. Exercise based rehabilitation for heart failure. Cochrane Database of Systematic Reviews 2004, Issue 3. - PMC - PubMed

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