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Heart Failure Reviews

Erschienen in:

01.02.2008

Resistance exercise: training adaptations and developing a safe exercise prescription

verfasst von: Randy W. Braith, Darren T. Beck

Erschienen in: Heart Failure Reviews | Ausgabe 1/2008

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Abstract

The safety and efficacy of resistance exercise training (RT) in patients with chronic heart failure (CHF) are critically reviewed. Evidence-based recommendations for designing safe RT programs are also presented to help clinicians and rehabilitation professionals formulate exercise prescriptions for their patients. To the extent possible, the separate and independent effects of RT on patients with CHF are discussed. Clinical prognosis (i.e. risk stratification) and exercise capacity in patients with CHF are determined by the mitigating effects of both central hemodynamics and peripheral pathophysiology. Despite the well-described skeletal muscle wasting and myopathy in heart failure, aerobic exercise remains by far the most prescribed training modality in patients with CHF. This article presents evidence that improvement of skeletal muscle phenotype (muscle mass, fiber morphology, and histochemistry) should be a fundamental goal of rehabilitation in patients with CHF. Moreover, RT may be the preferred exercise modality when targeting the periphery for muscle phenotype adaptation.

American College of Sports Medicine position stand (1990) The recommended quantity and quality of exercise for developing and maintaining cardiorespiratory and muscular fitness in healthy adults. Med Sci Sports Exerc 22(2):265–274

Pollock ML, Franklin BA, Balady GJ, Chaitman BL, Fleg JL, Fletcher B et al (2000) AHA Science Advisory. Resistance exercise in individuals with and without cardiovascular disease: benefits, rationale, safety, and prescription: An advisory from the Committee on Exercise, Rehabilitation, and Prevention, Council on Clinical Cardiology, American Heart Association; Position paper endorsed by the American College of Sports Medicine. Circulation 101(7):828–833PubMed

Sigal RJ, Kenny GP, Wasserman DH, Castaneda-Sceppa C (2004) Physical activity/exercise and type 2 diabetes. Diabetes Care 27(10):2518–2539PubMedCrossRef

Pescatello LS, Franklin BA, Fagard R, Farquhar WB, Kelley GA, Ray CA (2004) American College of Sports Medicine position stand. Exercise and hypertension. Med Sci Sports Exerc 36(3):533–553PubMedCrossRef

Pate RR, Pratt M, Blair SN, Haskell WL, Macera CA, Bouchard C et al (1995) Physical activity and public health. A recommendation from the Centers for Disease Control and Prevention and the American College of Sports Medicine. JAMA 273(5):402–407PubMedCrossRef

American Association of Cardiovascular, Pulmonary Rehabilitation: Guidelines for Cardiac Rehabilitation and Secondary Prevention Programs, 4th ed. Champaign IL, Human Kinetics (2003)

US Department of Health, Human Services (1996) Physical activity and health: a report of the Surgeon General, Centers for Disease Control and Prevention, National Center for Chronic Disease Prevention, Health Promotion. Bethesda, MD: US DHHS

Wenger NK, Froelicher ES, Smith LK, Ades PA, Berra K, Blumenthal JA et al (1995) Cardiac rehabilitation as secondary prevention. Agency for Health Care Policy and Research and National Heart, Lung, and Blood Institute. Clin Pract Guidel Quick Ref Guide Clin 17:1–23

Izawa K, Hirano Y, Yamada S, Oka K, Omiya K, Iijima S (2004) Improvement in physiological outcomes and health-related quality of life following cardiac rehabilitation in patients with acute myocardial infarction. Circ J 68(4):315–320PubMedCrossRef

10.

Working Group on Cardiac Rehabilitation and Exercise Physiology and Working Group on Heart Failure of the European Society of Cardiology (2001) Recommendations for exercise training in chronic heart failure patients. Eur Heart J 22:125–135CrossRef

11.

Pina IL, Apstein CS, Balady GJ, Belardinelli R, Chaitman BR, Duscha BD et al (2003) Exercise and heart failure: A statement from the American Heart Association Committee on exercise, rehabilitation, and prevention. Circulation 107(8):1210–1225PubMedCrossRef

12.

Harrington D, Coats AJ (1997) Skeletal muscle abnormalities and evidence for their role in symptom generation in chronic heart failure. Eur Heart J 18(12):1865–1872PubMed

13.

McKelvie RS, McCartney N, Tomlinson C, Bauer R, MacDougall JD (1995) Comparison of hemodynamic responses to cycling and resistance exercise in congestive heart failure secondary to ischemic cardiomyopathy. Am J Cardiol 76(12):977–999PubMedCrossRef

14.

Pu CT, Johnson MT, Forman DE, Hausdorff JM, Roubenoff R, Foldvari M et al (2001) Randomized trial of progressive resistance training to counteract the myopathy of chronic heart failure. J Appl Physiol 90(6):2341–2350PubMed

15.

Delagardelle C, Feiereisen P, Krecke R, Essamri B, Beissel J (1999) Objective effects of a 6 months’ endurance and strength training program in outpatients with congestive heart failure. Med Sci Sports Exerc 31(8):1102–1107PubMedCrossRef

16.

Maiorana A, O’Driscoll G, Cheetham C, Collis J, Goodman C, Rankin S et al (2000) Combined aerobic and resistance exercise training improves functional capacity and strength in CHF. J Appl Physiol 88(5):1565–1570PubMed

17.

American College of Sports Medicine Position Stand (1998) The recommended quantity and quality of exercise for developing and maintaining cardiorespiratory and muscular fitness, and flexibility in healthy adults. Med Sci Sports Exerc 30(6):975–991CrossRef

18.

Hurley BF, Roth SM (2000) Strength training in the elderly: effects on risk factors for age-related diseases. Sports Med 30(4):249–268PubMedCrossRef

19.

Nelson ME, Fiatarone MA, Morganti CM, Trice I, Greenberg RA, Evans WJ (1994) Effects of high-intensity strength training on multiple risk factors for osteoporotic fractures. A randomized controlled trial. JAMA 272(24):1909–1914PubMedCrossRef

20.

Larsson L (1983) Histochemical characteristics of human skeletal muscle during aging. Acta Physiol Scand 117(3):469–471PubMedCrossRef

21.

Mancini DM, Eisen H, Kussmaul W, Mull R, Edmunds LH Jr, Wilson JR (1991) Value of peak exercise oxygen consumption for optimal timing of cardiac transplantation in ambulatory patients with heart failure. Circulation 83(3):778–786PubMed

22.

Hulsmann M, Quittan M, Berger R, Crevenna R, Springer C, Nuhr M, Mortl D, Moser P, Pacher R (2003) Muscle strength as a predictor of long-term survival in severe congestive heart failure. Eur J Heart Failure 6:101–107CrossRef

23.

Minotti JR, Pillay P, Oka R, Wells L, Christoph I, Massie BM (1993) Skeletal muscle size: relationship to muscle function in heart failure. J Appl Physiol 75(1):373–381PubMed

24.

Mancini DM, Walter G, Reichek N, Lenkinski R, McCully KK, Mullen JL et al (1992) Contribution of skeletal muscle atrophy to exercise intolerance and altered muscle metabolism in heart failure. Circulation 85(4):1364–1373PubMed

25.

Anker SD, Ponikowski P, Varney S, Chua TP, Clark AL, Webb-Peploe KM et al (1997) Wasting as independent risk factor for mortality in chronic heart failure. Lancet 349(9058):1050–1053PubMedCrossRef

26.

Ralston MA, Merola AJ, Leier CV (1991) Depressed aerobic enzyme activity of skeletal muscle in severe chronic heart failure. J Lab Clin Med 117(5):370–372PubMed

27.

Sullivan MJ, Green HJ, Cobb FR (1991) Altered skeletal muscle metabolic response to exercise in chronic heart failure. Relation to skeletal muscle aerobic enzyme activity. Circulation 84(4):1597–1607PubMed

28.

Drexler H, Riede U, Munzel T, Konig H, Funke E, Just H (1992) Alterations of skeletal muscle in chronic heart failure. Circulation 85(5):1751–1759PubMed

29.

Schaufelberger M, Eriksson BO, Lonn L, Rundqvist B, Sunnerhagen KS, Swedberg K (2001) Skeletal muscle characteristics, muscle strength and thigh muscle area in patients before and after cardiac transplantation. Eur J Heart Fail 3(1):59–67PubMedCrossRef

30.

Massie BM, Simonini A, Sahgal P, Wells L, Dudley GA (1996) Relation of systemic and local muscle exercise capacity to skeletal muscle characteristics in men with congestive heart failure. J Am Coll Cardiol 27(1):140–145PubMedCrossRef

31.

Sullivan MJ, Green HJ, Cobb FR (1990) Skeletal muscle biochemistry and histology in ambulatory patients with long-term heart failure. Circulation 81(2):518–527PubMed

32.

Hambrecht R, Niebauer J, Fiehn E, Kalberer B, Offner B, Hauer K et al (1995) Physical training in patients with stable chronic heart failure: effects on cardiorespiratory fitness and ultrastructural abnormalities of leg muscles. J Am Coll Cardiol 25(6):1239–1249PubMedCrossRef

33.

Bylund AC, Bjuro T, Cederblad G, Holm J, Lundholm K, Sjostroom M et al (1977) Physical training in man. Skeletal muscle metabolism in relation to muscle morphology and running ability. Eur J Appl Physiol Occup Physiol 36(3):151–169PubMedCrossRef

34.

Braith RW, Magyari PM, Pierce GL, Edwards DG, Hill JA, White LJ et al (2005) Effect of resistance exercise on skeletal muscle myopathy in heart transplant recipients. Am J Cardiol 95(10):1192–1198PubMedCrossRef

35.

Schaufelberger M, Eriksson BO, Grimby G, Held P, Swedberg K (1997) Skeletal muscle alterations in patients with chronic heart failure. Eur Heart J 18(6):971–980PubMed

36.

Vescovo G, Serafini F, Dalla Libera L, Leprotti C, Facchin L, Tenderini P et al (1998) Skeletal muscle myosin heavy chains in heart failure: correlation between magnitude of the isozyme shift, exercise capacity, and gas exchange measurements. Am Heart J 135(1):130–137PubMedCrossRef

37.

Lind AR, McNicol GW (1967) Muscular factors which determine the cardiovascular responses to sustained and rhythmic exercise. Can Med Assoc J 96(12):706–715PubMed

38.

Mitchell JH, Payne FC, Saltin B, Schibye B (1980) The role of muscle mass in the cardiovascular response to static contractions. J Physiol 309:45–54PubMed

39.

Karlsdottir AE, Foster C, Porcari JP, Palmer-McLean K, White-Kube R, Backes RC (2002) Hemodynamic responses during aerobic and resistance exercise. J Cardiopulm Rehabil 22(3):170–177PubMedCrossRef

40.

Delagardelle C, Feiereisen P, Autier P, Shita R, Krecke R, Beissel J (2002) Strength/endurance training versus endurance training in congestive heart failure. Med Sci Sports Exerc 34(12):1868–1872PubMedCrossRef

41.

Werber-Zion G, Goldhammer E, Shaar A, Pollock ML (2004) Left ventricular function during strength testing and resistance exercise in patients with left ventricular dysfunction. J Cardiopulm Rehabil 24(2):100–109PubMedCrossRef

42.

Levinger I, Bronks R, Cody DV, Linton I, Davie A (2005) The effect of resistance training on left ventricular function and structure of patients with chronic heart failure. Int J Cardiol 105(2):159–163PubMedCrossRef

43.

Meyer K, Hajric R, Westbrook S, Haag-Wildi S, Holtkamp R, Leyk D et al (1999) Hemodynamic responses during leg press exercise in patients with chronic congestive heart failure. Am J Cardiol 83(11):1537–1543PubMedCrossRef

44.

Szlachcic J, Massie BM, Kramer BL, Topic N, Tubau J (1985) Correlates and prognostic implication of exercise capacity in chronic congestive heart failure. Am J Cardiol 55(8):1037–1042PubMedCrossRef

45.

Pilote L, Silberberg J, Lisbona R, Sniderman A (1989) Prognosis in patients with low left ventricular ejection fraction after myocardial infarction. Importance of exercise capacity. Circulation 80(6):1636–1641PubMed

46.

Stevenson LW, Steimle AE, Fonarow G, Kermani M, Kermani D, Hamilton MA et al (1995) Improvement in exercise capacity of candidates awaiting heart transplantation. J Am Coll Cardiol 25(1):163–170PubMedCrossRef

47.

Franciosa JA, Ziesche S, Wilen M (1979) Functional capacity of patients with chronic left ventricular failure. Relationship of bicycle exercise performance to clinical and hemodynamic characterization. Am J Med 67(3):460–466PubMedCrossRef

48.

Braith RW, Limacher MC, Leggett SH, Pollock ML (1993) Skeletal muscle strength in heart transplant recipients. J Heart Lung Transplant 12(6 Pt 1):1018–1023PubMed

49.

Braith RW, Welsch MA, Mills RM Jr, Keller JW, Pollock ML (1998) Resistance exercise prevents glucocorticoid-induced myopathy in heart transplant recipients. Med Sci Sports Exerc 30(4):483–489PubMed

50.

Okita K, Yonezawa K, Nishijima H, Hanada A, Ohtsubo M, Kohya T et al (1998) Skeletal muscle metabolism limits exercise capacity in patients with chronic heart failure. Circulation 98(18):1886–1891PubMed

51.

Feiereisen P, Delagardelle C, Vaillant M, Lasar Y, Beissel J (2007) Is strength training the more efficient training modality in chronic heart failure? Med Sci Sports Exerc (in press)

52.

Tanaka H, Swensen T (1998) Impact of resistance training on endurance performance. A new form of cross-training? Sports Med 25(3):191–200PubMedCrossRef

53.

Meyer K (2006) Resistance exercise in chronic heart failure–landmark studies and implications for practice. Clin Invest Med 29(3):166–169PubMed

54.

Grosse T, Kreulich K, Naegele H et al (2001) Peripheral muscular strength training in patients with severe heart failure (in German). Dtsch Z Sportmed 52:11–14

55.

Magnusson G, Gordon A, Kaijser L, Sylven C, Isberg B, Karpakka J et al (1996) High intensity knee extensor training, in patients with chronic heart failure. Major skeletal muscle improvement. Eur Heart J 17(7):1048–1055PubMed

56.

Selig SE, Carey MF, Menzies DG, Patterson J, Geerling RH, Williams AD et al (2004) Moderate-intensity resistance exercise training in patients with chronic heart failure improves strength, endurance, heart rate variability, and forearm blood flow. J Card Fail 10(1):21–30PubMedCrossRef

57.

Erbs S, Linke A, Gielen S, Fiehn E, Walther C, Jiangtao Y, Adams V, Schuler G, Hambrecht R (2003) Exercise training in patients with severe chronic heart failure: impact on left ventricular performance and cardiac size. A retrospective analysis of the Leipzig Heart Failure Training Trail. Eur J Cardiovasc Prev Rehab 10:336–344CrossRef

58.

Giannuzzi P, Temporelli PL, Corra U, Tavazzi L (2003) Antiremodeling effect of long-term exercise training in patients with stable chronic heart failure: results of the Exercise in Left Ventricular Dysfunction and Chronic Heart Failure (ELVD-CHF) Trial. Circulation 108(5):554–559PubMedCrossRef

59.

Hambrecht R, Gielen S, Linke A, Fiehn E, Yu J, Walther C et al (2000) Effects of exercise training on left ventricular function and peripheral resistance in patients with chronic heart failure: A randomized trial. JAMA 283(23):3095–3101PubMedCrossRef

60.

Hare DL, Ryan TM, Selig SE, Pellizzer AM, Wrigley TV, Krum H (1999) Resistance exercise training increases muscle strength, endurance, and blood flow in patients with chronic heart failure. Am J Cardiol 83(12):1674–1677, A7PubMedCrossRef

61.

Tanaka H, DeSouza CA, Seals DR (1998) Absence of age-related increase in central arterial stiffness in physically active women. Arterioscler Thromb Vasc Biol 18(1):127–132PubMed

62.

Edwards DG, Lang JT (2005) Augmentation index and systolic load are lower in competitive endurance athletes. Am J Hypertens 18(5 Pt 1):679–683PubMedCrossRef

63.

Edwards DG, Schofield RS, Magyari PM, Nichols WW, Braith RW (2004) Effect of exercise training on central aortic pressure wave reflection in coronary artery disease. Am J Hypertens 17(6):540–543PubMedCrossRef

64.

Hayashi K, Sugawara J, Komine H, Maeda S, Yokoi T (2005) Effects of aerobic exercise training on the stiffness of central and peripheral arteries in middle-aged sedentary men. Jpn J Physiol 55(4):235–239PubMedCrossRef

65.

Bertovic DA, Waddell TK, Gatzka CD, Cameron JD, Dart AM, Kingwell BA (1999) Muscular strength training is associated with low arterial compliance and high pulse pressure. Hypertension 33(6):1385–1391PubMed

66.

Miyachi M, Donato AJ, Yamamoto K, Takahashi K, Gates PE, Moreau KL et al (2003) Greater age-related reductions in central arterial compliance in resistance-trained men. Hypertension 41(1):130–135PubMedCrossRef

67.

Cortez-Cooper MY, DeVan AE, Anton MM, Farrar RP, Beckwith KA, Todd JS et al (2005) Effects of high intensity resistance training on arterial stiffness and wave reflection in women. Am J Hypertens 18(7):930–934PubMedCrossRef

68.

Miyachi M, Kawano H, Sugawara J, Takahashi K, Hayashi K, Yamazaki K et al (2004) Unfavorable effects of resistance training on central arterial compliance: a randomized intervention study. Circulation 110(18):2858–2863PubMedCrossRef

69.

Rakobowchuk M, McGowan CL, de Groot PC, Bruinsma D, Hartman JW, Phillips SM et al (2005) Effect of whole body resistance training on arterial compliance in young men. Exp Physiol 90(4):645–651PubMedCrossRef

70.

Rakobowchuk M, McGowan CL, de Groot PC, Hartman JW, Phillips SM, MacDonald MJ (2005) Endothelial function of young healthy males following whole body resistance training. J Appl Physiol 98(6):2185–2190PubMedCrossRef

71.

Casey DP, Pierce GL, Howe KS, Mering MC, Braith RW (2007) Effect of resistance training on arterial wave reflection and brachial artery reactivity in normotensive postmenopausal women. Eur J Appl Physiol 100(4):403–408PubMedCrossRef

72.

Casey DP, Beck DT, Braith RW (2007) Progressive resistance training without volume increases does not alter arterial stiffness and aortic wave reflection. Exp Biol Med 232(9):1228–1235

73.

Pratley R, Nicklas B, Rubin M, Miller J, Smith A, Smith M et al (1994) Strength training increases resting metabolic rate and norepinephrine levels in healthy 50- to 65-yr-old men. J Appl Physiol 76(1):133–137PubMedCrossRef

74.

Schwartz RS, Hirth VA (1995) The effects of endurance and resistance training on blood pressure. Int J Obes Relat Metab Disord 19 Suppl 4:S52–S57PubMed

75.

Stone MH, Fleck SJ, Triplett NT, Kraemer WJ (1991) Health- and performance-related potential of resistance training. Sports Med 11(4):210–231PubMedCrossRef

76.

Cornelissen VA, Fagard RH (2005) Effect of resistance training on resting blood pressure: a meta-analysis of randomized controlled trials. J Hypertens 23(2):251–259PubMedCrossRef

77.

Kelley GA, Kelley KS (2000) Progressive resistance exercise and resting blood pressure: A meta-analysis of randomized controlled trials. Hypertension 35(3):838–843PubMed

78.

Colliander EB, Tesch PA (1988) Blood pressure in resistance-trained athletes. Can J Sport Sci 13(1):31–34PubMed

79.

Longhurst JC, Stebbins CL (1992) The isometric athlete. Cardiol Clin 10(2):281–294PubMed

80.

Volaklis KA, Tokmakidis SP (2005) Resistance exercise training in patients with heart failure. Sports Med 35(12):1085–1103PubMedCrossRef

81.

Meyer K, Samek L, Schwaibold M, Westbrook S, Hajric R, Beneke R et al (1997) Interval training in patients with severe chronic heart failure: analysis and recommendations for exercise procedures. Med Sci Sports Exerc 29(3):306–312PubMed

82.

Koch M, Douard H, Brouset JP (1992) The benefit of graded exercise in chronic heart failure. Chest 5 Suppl 101:231S–235S

83.

Cider A, Tygesson H, Hedberg M, Seligman L, Wennerblom B, Sunnerhagen KS (1997) Peripheral muscle training in patients with clinical signs of heart failure. Scand J Rehabil Med 29(2):121–127PubMed

84.

Conraads VM, Beckers P, Vaes J, Van Hoof V, De Maeyer C, Possemiers N, Wuyts FL, Vrints CJ (2004) Combined endurance/resistance training reduces NT-proBNP levels in patients with chronic heart failure. Eur Heart J 25(20):1797–1805PubMedCrossRef

85.

Conraads VM, Beckers P, Bosmans J (2002) Combined endurance/resistance training reduces plasma TNF-receptor levels in patients with chronic heart failure and coronary artery disease. Eur Heart J 23:1868–1872CrossRef

Titel: Resistance exercise: training adaptations and developing a safe exercise prescription
verfasst von: Randy W. Braith
Darren T. Beck
Publikationsdatum: 01.02.2008
Verlag: Springer US
Erschienen in: Heart Failure Reviews / Ausgabe 1/2008
Print ISSN: 1382-4147
Elektronische ISSN: 1573-7322
DOI: https://doi.org/10.1007/s10741-007-9055-9

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