|Year : 2018 | Volume
| Issue : 3 | Page : 41-45
Exercise training in heart failure: High-intensity interval training versus moderate-intensity continuous training
Raymond Pranata1, Emir Yonas2, Bambang Budi Siswanto3, Budhi Setianto Purwowiyoto3
1 Department of Cardiology and Vascular Medicine, Siloam Hospitals Lippo Village - Faculty of Medicine, Universitas Pelita Harapan, Tangerang, Indonesia
2 Medical Intern, Department of Cardiology, Gatot Soebroto Central Hospital, Jakarta, Indonesia
3 Department of Cardiology and Vascular Medicine, National Cardiovascular Centre Harapan Kita, Faculty of Medicine, Universitas Indonesia, Jakarta, Indonesia
|Date of Web Publication||26-Jul-2018|
Dr. Budhi Setianto Purwowiyoto
Department of Cardiology and Vascular Medicine, National Cardiovascular Centre Harapan Kita, Faculty of Medicine, Universitas Indonesia, Jakarta
Source of Support: None, Conflict of Interest: None
Prevalence of heart failure (HF) increases over time and is associated with high mortality. Shortness of breath, exercise intolerance, and low quality of life related to health are the common problems in HF patients despite optimum pharmacological therapy. Exercise training counteracts the progression of devastating compensatory mechanisms of HF, leading to improvement in functional capacity and quality of life. Resistance training improves peak oxygen uptake, quality of life, and walking performance in HF patients. Adherence is central to training for the best result. Any exercise training program whether continuous or interval training is sufficient to improve the prognosis, quality of life, and anatomic function.
Keywords: Exercise, heart failure, oxygen uptake, rehabilitation, training
|How to cite this article:|
Pranata R, Yonas E, Siswanto BB, Purwowiyoto BS. Exercise training in heart failure: High-intensity interval training versus moderate-intensity continuous training. Int J Cardiovasc Acad 2018;4:41-5
|How to cite this URL:|
Pranata R, Yonas E, Siswanto BB, Purwowiyoto BS. Exercise training in heart failure: High-intensity interval training versus moderate-intensity continuous training. Int J Cardiovasc Acad [serial online] 2018 [cited 2019 May 21];4:41-5. Available from: http://www.ijcva.com/text.asp?2018/4/3/41/237648
| Introduction|| |
Prevalence of heart failure (HF) increases over time and is associated with high mortality (5-year survival rate of 35%–55%).,,, Shortness of breath, exercise intolerance, and low quality of life related to health are the common problems in HF patients despite optimum pharmacological therapy.
Various studies indicated that physical fitness is a prognostic factor for HF patients, in which low physical fitness is associated with high mortality rate., Previous studies indicated that physical training increases physical fitness, cardiovascular function, and quality of life.,,,, Peak aerobic capacity can be directly measured by peak oxygen uptake (VO2 peak) and is the best predictor of cardiovascular and all-cause mortality in cardiovascular patients.,
Physical training is recommended for HF patients. However, there are differences regarding which level of intensity and exercise formats leads to best results.
Exercise training reverses autonomic dysfunction in patients with HF, which shifts from predominantly sympathetic to vagal activity and reduces circulating renin-angiotensin-aldosterone system neurohormones, resulting in improved cardiac function, reduced vasoconstriction with better peripheral and skeletal blood delivery, and improved exercise tolerance. It also produces antioxidative effects (through reduction of vascular expression of NADPH oxidase and AT1) which decrease reactive oxygen species production, resulting in improved acetylcholine-mediated coronary vasodilatation and reduced Ang-II-induced vasoconstriction.
Regular exercise training can have an anti-inflammatory effect marked by increased plasma levels of the anti-inflammatory cytokine interleukin 10 and can modulate the innate immune system, influencing macrophage and lymphocyte function. Exercise affects skeletal muscle's oxygen use and oxidative capacity, which are improved by increased activity of oxidative enzymes and mitochondrial content, leading to improvement in peak VO2 and lactate threshold and delayed onset of anaerobic metabolism.
Exercise training improves heart function by restoring cardiomyocyte contractility and calcium sensitivity. It may minimize the stunning effects and maximize the preconditioning effects of brief ischemic episodes. All these training-induced changes can effectively counteract the progression of deleterious compensatory mechanisms of HF, leading to improvement in functional capacity and quality of life.
Principles of exercise regiment(s)
Continuous training regiment(s)
Continuous training (CT) is typically performed at moderate-to-high exercise intensities in steady-state conditions of aerobic energetic yield, which allows the patient to perform prolonged training sessions (up to 45–60-min duration). It is safe, efficient, and well tolerated by patients, and hence it is recommended by the Heart Failure Association guidelines.
In interval training (INT) protocol, an alternate short bout (10–30 s) of moderate-to-high intensity (50%–100% peak exercise capacity) exercise, with a longer recovery (80–60 s) phase, is performed at low or no workload. Recent trials demonstrated INT, especially high-intensity INT (HIIT), to be more effective.
High intensity or continuous training?
Some evidences supported that INT is more effective to improve left ventricular ejection fraction (LVEF) and left ventricular end-diastolic diameter. A recent meta-analysis showed that an increase in exercise capacity, represented by the peak VO2, was similar between training modalities and the influence of a certain training modality on ventilation over carbon dioxide (VE/VCO2) slope was not found to be significantly different from other training modalities. VO2 efficiency slope seemed to improve significantly with INT compared to CT (only one study). Quality of life seems to improve significantly with combined INT and strength training. Another meta-analysis showed that in clinically stable HF with reduced ejection fraction patients, INT is more effective than CT for improving peak VO2, but not the LVEF at rest. Adherence to exercise training is very important and this is often problematic in HF due to time constraints and lack of energy., A HIIT training with lower training frequency and high-intensity intervals of moderate duration might address these two major factors of noncompliance, hence improving adherence. A low-frequency high-intensity training (HIT) with high-intensity intervals of moderate duration is feasible and successful in improving fitness. These might be a component of optimal exercise protocol for HF patients to achieve long-term benefits and adherence in the future.
The risk of cardiovascular events concerning HIT has been demonstrated to be low in patients with coronary artery disease; however, its safety has not been confirmed in those with HF with reduced EF (HFrEF) in a large-scale investigation. Most patients with HFrEF have relatively impaired exercise hemodynamic in the initial sessions of exercise training. There was a trial evaluating modified HIT (CT in the first 12 sessions followed by 24 HIT sessions) compared to optimal medical treatment only, in which supervised continuous aerobic training at ventilator anaerobic threshold for 50 min/day, 3 days/week for 4 weeks, and then 3-min intervals at 40% and 80% VO2 reserve for 50 min/day, 3 days/week for 8 weeks, demonstrated an improved peak cardiac-pumping capacity with reduced cardiac afterload which simultaneously increases ventilation efficiency during exercise in patients with HFrEF, giving time for adaption in initial sessions before proceeding to HIIT. Any exercise training program seems sufficient to improve the prognosis, quality of life, and anatomic function.
Despite concerns regarding patient adherence, several studies have shown irrefutable advantages of HIT in patients with cardiac failure. It is interesting that HIT protocols, the total exercise volume, and time commitment have been significantly lower compared to moderate-intensity training, and yet its use still shows various positive physiological benefits that are at least comparable with moderate-intensity protocols. It is also important to note that HIT has been shown to be safe, tolerable, and enjoyable for patients with cardiovascular disease, eliminating any major concerns of an increase in adverse effect risk.
However, several trials have failed to show any comparable benefit of HIT compared to continuous moderate-intensity training [Table 1] and [Table 2]; however, the authors of these trials stated that the lack of comparable evidence resulted from the small sample.,
|Table 2: Echocardiographic left ventricular volumes, systolic function, and strain and diastolic function|
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In one randomized trial of 27 patients with stable, postinfarction HF who received optimal medical therapy, aerobic INT at high intensity (at 95% of peak heart rate) reversed left ventricular remodeling and improved left ventricular relaxation; these benefits were not observed with moderate CT (at 70% of peak heart rate). At this trial, reversal of left ventricular remodeling and improved left ventricular relaxation were observed. In addition, HIT was associated with a greater increase in peak exercise levels.
A Cochrane database review revealed that patients who undergo HIT showed an increase in 6-min walk distance mean of 41 m; this increase in functional capacity means that patients may be able to participate in their routine daily activities more easily and comfortably.
A meta-analysis including seven randomized trials comparing HIT to moderate-intensity CT in clinically stable patients with HF with reduced ejection fraction revealed greater improvements in exercise tolerance with HIT.
Two studies by Benda et al. and Ellingsen et al. failed to show statistically significant differences between CT and HIT in terms of physical fitness improvement [Table 3]. Exercise in patients with HF is indeed associated with beneficial cardiac remodeling; however, after 12 h of training regiment(s) by Benda et al., no improvements in cardiac structure and function at rest were found. Although increase in maximal oxygen pulse suggests an increase in stroke volume during exercise, it is to be noted that previous studies that reported significant structural and functional changes were generally using training periods that exceed 6 months. These studies also failed to show a superior effect of HIT to improve vascular function, which contrasts the other studies. Improvement was indeed found in the subscale for physical functioning after exercise training, but not for the total quality of life. The lack of improvement in quality of life may relate to the relatively “good” quality of life at baseline on patients at these trials, which was well above that of other studies, and consequently provides a little space for further improvement. Quality of life in these studies was assessed using the SF-36 questionnaire. However, this caveat indicates that patients with lower quality of life prior to exercise training may demonstrate a larger benefit from the intervention.,
|Table 3: Main echocardiography and cardiopulmonary testing measures at baseline, 12 weeks, and 52 weeks with unadjusted changes|
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| Conclusion|| |
Significant differences between CT and HIT in terms of physical fitness are not demonstrable. Preference between the former two remains unresolved in patients with HF. A more conservative approach is needed to prescribe moderate-intensity CT regiment(s) and switch to HIIT should the patient is unable to comply with the CT regiment(s).
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
McCullough PA, Philbin EF, Spertus JA, Kaatz S, Sandberg KR, Weaver WD, et al.
Confirmation of a heart failure epidemic: Findings from the resource utilization among congestive heart failure (REACH) study. J Am Coll Cardiol 2002;39:60-9.
Bleumink GS, Knetsch AM, Sturkenboom MC, Straus SM, Hofman A, Deckers JW, et al.
Quantifying the heart failure epidemic: Prevalence, incidence rate, lifetime risk and prognosis of heart failure the Rotterdam study. Eur Heart J 2004;25:1614-9.
Levy D, Kenchaiah S, Larson MG, Benjamin EJ, Kupka MJ, Ho KK, et al.
Long-term trends in the incidence of and survival with heart failure. N Engl J Med 2002;347:1397-402.
Zarrinkoub R, Wettermark B, Wändell P, Mejhert M, Szulkin R, Ljunggren G, et al.
The epidemiology of heart failure, based on data for 2.1 million inhabitants in Sweden. Eur J Heart Fail 2013;15:995-1002.
Clark AL, Cleland JG. Beta-blockers, exercise, and ventilation in chronic heart failure. J Card Fail 2005;11:340-2.
Cahalin LP, Chase P, Arena R, Myers J, Bensimhon D, Peberdy MA, et al.
A meta-analysis of the prognostic significance of cardiopulmonary exercise testing in patients with heart failure. Heart Fail Rev 2013;18:79-94.
Myers J, Gullestad L, Vagelos R, Do D, Bellin D, Ross H, et al.
Clinical, hemodynamic, and cardiopulmonary exercise test determinants of survival in patients referred for evaluation of heart failure. Ann Intern Med 1998;129:286-93.
van Tol BA, Huijsmans RJ, Kroon DW, Schothorst M, Kwakkel G. Effects of exercise training on cardiac performance, exercise capacity and quality of life in patients with heart failure: A meta-analysis. Eur J Heart Fail 2006;8:841-50.
Haykowsky MJ, Liang Y, Pechter D, Jones LW, McAlister FA, Clark AM. A meta-analysis of the effect of exercise training on left ventricular remodeling in heart failure patients: The benefit depends on the type of training performed. J Am Coll Cardiol 2007;49:2329-36.
Hambrecht R, Hilbrich L, Erbs S, Gielen S, Fiehn E, Schoene N, et al.
Correction of endothelial dysfunction in chronic heart failure: Additional effects of exercise training and oral L-arginine supplementation. J Am Coll Cardiol 2000;35:706-13.
Linke A, Schoene N, Gielen S, Hofer J, Erbs S, Schuler G, et al.
Endothelial dysfunction in patients with chronic heart failure: Systemic effects of lower-limb exercise training. J Am Coll Cardiol 2001;37:392-7.
Lavie CJ, Arena R, Swift DL, Johannsen NM, Sui X, Lee DC, et al.
Exercise and the cardiovascular system: Clinical science and cardiovascular outcomes. Circ Res 2015;117:207-19.
Myers J, Prakash M, Froelicher V, Do D, Partington S, Atwood JE, et al.
Exercise capacity and mortality among men referred for exercise testing. N Engl J Med 2002;346:793-801.
Kavanagh T, Mertens DJ, Hamm LF, Beyene J, Kennedy J, Corey P, et al.
Prediction of long-term prognosis in 12 169 men referred for cardiac rehabilitation. Circulation 2002;106:666-71.
Piepoli MF, Conraads V, Corrà U, Dickstein K, Francis DP, Jaarsma T, et al.
Exercise training in heart failure: From theory to practice. A consensus document of the heart failure association and the European association for cardiovascular prevention and rehabilitation. Eur J Heart Fail 2011;13:347-57.
Piepoli MF. Exercise training in chronic heart failure: Mechanisms and therapies. Neth Heart J 2013;21:85-90.
Cornelis J, Beckers P, Taeymans J, Vrints C, Vissers D. Comparing exercise training modalities in heart failure: A systematic review and meta-analysis. Int J Cardiol 2016;221:867-76.
Haykowsky MJ, Timmons MP, Kruger C, McNeely M, Taylor DA, Clark AM. Meta-analysis of aerobic interval training on exercise capacity and systolic function in patients with heart failure and reduced ejection fractions. Am J Cardiol 2013;111:1466-9.
Barbour KA, Miller NH. Adherence to exercise training in heart failure: A review. Heart Fail Rev 2008;13:81-9.
Benda NM, Seeger JP, Stevens GG, Hijmans-Kersten BT, van Dijk AP, Bellersen L, et al.
Effects of high-intensity interval training versus continuous training on physical fitness, cardiovascular function and quality of life in heart failure patients. PLoS One 2015;10:e0141256.
Huang SC, Wong MK, Lin PJ, Tsai FC, Fu TC, Wen MS, et al.
Modified high-intensity interval training increases peak cardiac power output in patients with heart failure. Eur J Appl Physiol 2014;114:1853-62.
Hussain SR, Macaluso A, Pearson SJ. High-intensity interval training versus moderate-intensity continuous training in the prevention/management of cardiovascular disease. Cardiol Rev 2016;24:273-81.
Xie B, Yan X, Cai X, Li J. Effects of high-intensity interval training on aerobic capacity in cardiac patients: A Systematic review with meta-analysis. Biomed Res Int 2017;2017:5420840.
Wisløff U, Støylen A, Loennechen JP, Bruvold M, Rognmo Ø, Haram PM, et al.
Superior cardiovascular effect of aerobic interval training versus moderate continuous training in heart failure patients: A randomized study. Circulation 2007;115:3086-94.
Rees K, Taylor RS, Singh S, Coats AJ, Ebrahim S. Exercise based rehabilitation for heart failure. Cochrane Database Syst Rev 2004;4:CD003331.
Ellingsen Ø, Halle M, Conraads V, Støylen A, Dalen H, Delagardelle C, et al.
High-intensity interval training in patients with heart failure with reduced ejection fraction. Circulation 2017;135:839-49.
[Table 1], [Table 2], [Table 3]