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Volume 25, Issue 6, May 1995 >

Clinical study | May 1995

Physical training in patients with stable chronic heart failure: Effects on cardiorespiratory fitness and ultrastructural abnormalities of leg muscles FREE

Rainer Hambrecht, MD; Josef Niebauer, MD; Eduard Fiehn, BS; Barbara Kälberer, RN; Bertram Offner, MD; Klaus Hauer, PhD; Urs Riede, MD; Günter Schlierf, MD; Wolfgang Kübler, MD, FACC; Gerhard Schuler, MD

[+] Author Information

This study was supported by Grant Schu 399/4-1 from the Deutsche Forschungsgemeinschaft (DFG), Bonn, Germany and Zeneca Pharmaceutical Company, Plankstadt, Germany.Address for correspondence: Dr. Rainer Hambrecht. St. VincentiusKrankenhäuser, Innere Medizin, Abteilung III—Kardiologie, Edgar-vonGierke-Strasse 2, 76135 Karlsruhe, Germany.

American College of Cardiology

J Am Coll Cardiol. 1995;25(6):1239-1249. doi:10.1016/0735-1097(94)00568-B

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Abstract

Abstract | References

Objectives. The present study was designed to evaluate the effect of an ambulatory training program on ultrastructural morphology and the oxidative capacity of skeletal muscle and its relation to central and peripheral hemodynamic variables in patients with chronic heart failure.

Background. Clinical evidence supports the hypothesis that exercise intolerance in patients with chronic heart failure is not only a consequence of low cardiac output, but is also a result of alterations in oxidative metabolism of skeletal muscle.

Methods. Twenty-two patients were prospectively randomized either to a training group (mean [±SD] ejection fraction 26 ± 9%, n = 12) participating in an ambulatory training program or to a physically inactive control group (ejection fraction 27 ± 10%, n = 10). At baseline and after 6 months, patients underwent symptom-limited bicycle exercise testing, and central and peripheral hemodynamic variables were measured. Percutaneous needle biopsy samples of the vastus lateralis muscle were obtained at baseline and after 6 months. The ultrastructure of skeletal muscle was analyzed by ultrastructural morphometry.

Results. After 6 months, patients in the training group achieved an increase in oxygen uptake at the ventilatory threshold of 23% (from 0.86 ± 0.2 to 1.07 ± 0.2 liters/min, p < 0.01 vs. control group) and at peak exercise of 31% (from 1.49 ± 0.4 to 1.95 ± 0.4 liters/min, p < 0.01 vs. control group). There was no significant change in oxygen uptake at the ventilatory threshold and at peak exercise in the control group. The total volume density of mitochondria and volume density of cytochrome c oxidase-positive mitochondria increased significantly by 19% (from 4.7 ± 1.5 to 5.6 ± 1.5 vol%, p < 0.05 vs. control group) and by 41% (from 2.2 ± 1.0 to 3.1 ± 1.0 vol%, p < 0.05 vs. control group) after 6 months of regular physical exercise. Cardiac output at rest and at submaximal exercise remained unchanged but increased during maximal symptom-limited exercise from 11.9 ± 4.0 to 14.1 ± 3.3 liters/min in the training group (p < 0.05 vs. baseline; p = NS vs. control group). Peak leg oxygen consumption increased significantly by 45% (from 510 ± 172 to 740 ± 254 ml/min, p < 0.01 vs. control group). Changes in cytochrome c oxidase-positive mitochondria were significantly related to changes in oxygen uptake at the ventilatory threshold (r = 0.82, p < 0.0001) and at peak exercise (r = 0.87, p < 0.0001).

Conclusions. Regular physical training increases maximal exercise tolerance and delays anaerobic metabolism during sub-maximal exercise in patients with stable chronic heart failure. Improved functional capacity is closely linked to an exercise-induced increase in the oxidative capacity of skeletal muscle.

References

Abstract | References

Franciosa JA, Park M, Levine TB; Lack of correlation between exercise capacity and indexes of resting left ventricular performance in heart failure. Am J Cardiol. 47 1981:33-39.
CrossRef | PubMed

Myers J, Froehlicher VF; Hemodynamic determinants of exercise capacity in chronic heart failure. Ann Intern Med. 115 1991:377-386.
PubMed

Szlachcic J, Massie BM, Kramer BL, Topic N, Tubau J; Correlates and prognostic implication of exercise capacity in chronic heart failure. Am J Cardiol. 55 1985:1037-1042.
CrossRef | PubMed

Higginbotham MB, Morris KG, Conn EH, Coleman RE, Cobb FR; Determinants of variable exercise performance among patients with severe left ventricular dysfunction. Am J Cardiol. 51 1983:52-60.
CrossRef | PubMed

Drexler H, Riede U, Münzel T, König H, Funke E, Just H; Alterations of skeletal muscle in chronic heart failure. Circulation. 85 1992:1751-1759.
CrossRef | PubMed

Wilson JR, Mancini DM, Dunkman WB; Exertional fatigue due to skeletal muscle dysfunction in patients with heart failure. Circulation. 87 1993:470-475.
CrossRef | PubMed

Sullivan MJ, Higginbotham MB, Cobb FR; Exercise training in patients with chronic heart failure delays ventilatory anaerobic threshold and improves submaximal exercise performance. Circulation. 79 1989:324-329.
CrossRef | PubMed

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

Zelis R, Flaim SF; Alterations in vasomotor tone in chronic heart failure. Prog Cardiovasc Dis. 24 1982:437-459.
CrossRef | PubMed

Mancini DM, Walter G, Reichek N; Contribution of skeletal muscle atrophy to exercise intolerance and altered muscle metabolism in heart failure. Circulation. 85 1992:1364-1373.
CrossRef | PubMed

Massic B, Conway M, Yonge R; Skeletal muscle metabolism in patients with chronic heart failure: relation to clinical severity and blood flow. Circulation. 76 1987:1009-1019.
CrossRef | PubMed

Minotti JR, Johnson EC, Hudson TL; Skeletal muscle response to exercise training in chronic heart failure. J Clin Invest. 86 1990:751-758.
CrossRef | PubMed

Adamopoulos S, Coats AJS, Brunotte F; Physical training improves skeletal muscle metabolism in patients with chronic heart failure. J Am Coll Cardiol. 21 1993:1101-1106.
CrossRef | PubMed

Sullivan MJ, Higginbotham MB, Cobb FR; Exercise training in patients with severe left ventricular dysfunction: hemodynamic and metabolic effects. Circulation. 78 1988:506-515.
CrossRef | PubMed

Wassermann K, Whipp BJ, Koyal SH, Beaver WL; Anaerobic threshold and respiratory gas exchange during exercise. J Appl Physiol. 35 1973:236-243.
PubMed

Hambrecht R, Schuler G, Muth T; Greater diagnostic sensitivity of treadmill versus cycle exercise testing of asymptomatic men with coronary artery disease. Am J Cardiol. 70 1992:141-146.
CrossRef | PubMed

Weicker H; Bestimung der freien und konjugierten Katecholamine mit HPLC unter amperometrischer Detektion. Lab Med. 33 1986:122-132.

Taylor HL, Jacobs DR, Schucker B, Knudsen J, Leon AS, DeBacker G; A questionnaire for the assessment of leisure time physical activities. J Chron Dis. 31 1978:741-755.
CrossRef | PubMed

Bergström J; Muscle electrolytes in man. Scand J Clin Lab Invest. 14 (Suppl 68) 1962:7-110.
PubMed

Hoppeler H, Lüthi P, Claassen H, Weibel ER, Howald H; The ultrastructure of the normal human skeletal muscle: a morphometric analysis on untrained men, women, and well-trained orienteers. Pflugers Arch. 344 1973:217-232.
CrossRef | PubMed

Riede U, Reith A; Morphometry in Pathology. 1980 Gustav Fischer Verlag Stuttgart:1-90.

Perotti ME, Anderson WA, Swift H; Quantitative cytochemistry of the diaminobenzidine cytochrome oxidase reaction product in mitochondria of cardiac muscle and pancreas. J Histochem Cytochem. 31 1983:351-365.
CrossRef | PubMed

Blomstrand E, Ekblom B; The needle biopsy technique for type determination in human skeletal muscle: a methodological study. Acta Physiol Scand. 116 1982:437-442.
CrossRef | PubMed

Massie B, Conway M, Rajagopalan B; Skeletal muscle metabolism during exercise under ischemic conditions in chronic heart failure: evidence for abnormalities unrelated to blood flow. Circulation. 78 1988:320-326.
CrossRef | PubMed

Mancini DM, Coyle E, Coggan A; Contribution of intrinsic skeletal muscle changes to ³¹P-NMR skeletal muscle metabolism abnormalities in patients with chronic heart failure. Circulation. 80 1989:1338-1346.
CrossRef | PubMed

Wiener DH, Fink LI, Maris J, Jones RA, Chance B, Wilson JR; Abnormal skeletal muscle bioenergetics during exercise in patients with heart failure: role of reduced muscle blood flow. Circulation. 73 1986:1127-1136.
CrossRef | PubMed

Howald H; Training-induced morphological and functional changes in skeletal muscle. Int J Sports Med. 3 1982:1-12.
CrossRef | PubMed

Blomquist CG, Saltin B; Cardiovascular adaptations to physical training. Annu Rev Physiol. 45 1983:169-189.
CrossRef | PubMed

Holloszy JO, Coyle EF; Adaptations of skeletal muscle to endurance exercise and their metabolic consequences. J Appl Physiol. 56 1984:831-838.
PubMed

Gollnik P, King WD; Effect of exercise and training on mitochondria of rat skeletal muscle. Am J Physiol. 216 1969:1502-1509.
PubMed

Alway SE, MacDougall JD, Sale DG, Sutton JR, McComas AJ; Functional and structural adaptations in skeletal muscle of trained athletes. J Appl Physiol. 64 1988:1114-1120.
PubMed

Hoppeler H, Howald H, Conley K; Endurance training in humans: aerobic capacity and structure of skeletal muscle. J Appl Physiol. 59 1985:320-327.
PubMed

Coyle EF, Martin WH, Bloomfield SA, Lowry OH, Holloszy JO; Effects of detraining on responses to submaximal exercise. J Appl Physiol. 59 1985:853-859.
PubMed

Sullivan MJ, Binkley PF, Unverferth DV; Prevention of bedrestinduced physical deconditioning by daily dobutamine infusions: implications for drug-induced physical conditioning. J Clin Invest. 76 1985:1632-1642.
CrossRef | PubMed

Moore RL, Thacker EM, Kelley GA; Effect of training/detraining on submaximal exercise responses in humans. J Appl Physiol. 63 1987:1719-1724.
PubMed

Minotti JR, Dudley G; Pathophysiology of exercise intolerance and the role of exercise training in chronic heart failure. Curr Opin Cardiol. 8 1993:397-403.

Buller NP, Jones D, Poole-Wilson PA; Direct measurement of skeletal muscle fatigue in patients with chronic heart failure. Br Heart J. 65 1991:20-24.
CrossRef | PubMed

Minotti JR, Pillay P, Chang L, Wells L, Massie BM; Neurophysiological assessment of skeletal muscle in patients with chronic heart failure. Circulation. 86 1992:903-908.
CrossRef | PubMed

Benditt DG, Dunnigan A, Milstein S, Limas S; Coexistence of skeletal muscle abnormalities in cardiomyopathy. J Am Coll Cardiol. 6 1989:1474-1475.
CrossRef

Norgaard A, Bjerregaard P, Baandrup U, Kjeldsen K, Reske-Nielsen E, Bloch Thomsen PE; The concentration of the Na,K-pump in skeletal and heart muscle in chronic heart failure. Int J Cardiol. 26 1990:185-190.
CrossRef | PubMed

Corral-Debrinski M, Stepien G, Shoffner JM, Lott MT, Kanter K, Wallace DC; Hypoxemia is associated with mitochondrial DNA damage and gene induction. Implications for cardiac disease. JAMA. 266 1991:1812-1816.

Coats AJS, Adamopoulos S, Meyer TE, Conway J, Sleight P; Effects of physical training in chronic heart failure. Lancet. 335 1990:63-66.
CrossRef | PubMed

Clausen JP; Circulatory adjustments to dynamic exercise and effect of physical training in normal subjects and in patients with coronary artery disease. Prog Cardiovasc Dis. 18 1976:459-495.
CrossRef | PubMed

Hambrecht R, Niebauer J, Marburger CH; Various intensities of leisure time physical activity in patients with coronary artery disease: effects on cardiorespiratory fitness and progression of coronary atherosclerotic lesions. J Am Coll Cardiol. 22 1993:468-477.
CrossRef | PubMed

Ehsani AA, Biello DR, Schultz J, Sobel BE, Holloszy JO; Improvement of left ventricular contractile function by exercise training in patients with coronary artery disease. Circulation. 74 1986:350-358.
CrossRef | PubMed

Hagberg JM, Ehsani AA, Holloszy JO; Effect of 12 months of intensive exercise training on stroke volume in patients with coronary artery disease. Circulation. 67 1983:1194-1199.
CrossRef | PubMed

Sullivan MJ, Binkley PF, Unverferth DV, Leier CV; Hemodynamic and metabolic responses of the exercising lower limb of humans. J Lab Clin Med. 110 1987:145-152.
PubMed

Forfar JC; Neuroendocrine activation in chronic heart failure. Am J Cardiol. 67 1991:3C-15C.
CrossRef | PubMed

Kubo SH, Rector TC, Williams RE, Heifritz SM, Bank AJ; Endotheliumdependent vasodilation is attenuated in patients with heart failure. Circulation. 84 1991:1589-1596.
CrossRef | PubMed

Wei CM, Lerman A, Rodeheffer RJ; Endothelin in human chronic heart failure. Circulation. 89 1994:1580-1586.
CrossRef | PubMed

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