The benefit of isolated (i.e., small muscle mass) muscle training and its potential translation to whole body exercise in patients with chronic heart failure (CHF) has been recognized, however the mechanisms responsible for this positive outcome remain poorly understood. PURPOSE: To study oxygen (O2) transport and metabolism at maximal cycle (whole body) and knee extensor (KE, small muscle mass) exercise in patients with CHF. METHODS: Eight healthy controls and 6 CHF patients commenced 8 weeks of KE training (both legs, separately). Before and after training, they underwent cycle and KE maximal exercise studies. RESULTS: Pre-training cycling and KE exercise peak leg O2 uptake (VO2) were 17% and 15% lower, respectively, in the patients compared to controls. Although KE training did not alter cardiac output at maximal KE or cycle exercise, it increased O2 delivery (by 54%), arterial-venous O2 difference (by 10%), and muscle O2 conductance (by 39%) at maximal KE exercise, yielding an increase in peak single leg VO2 of 53%, which exceeded untrained control subject values. Post-training, during maximal cycling, O2 delivery (40%), arterial-venous O2 difference (15%), and muscle O2 conductance (DMO2) (52%) all increased, yielding a 40% greater peak leg VO2, matching that of the controls. CONCLUSION: Small muscle mass exercise training-induced improvements in both peripheral convective and diffusive O2 transport and subsequent O2 utilization are the mechanisms responsible for the increased whole body exercise capacity in patients with CHF. Such clear improvements in these factors and exercise capacity support the efficacy of small muscle mass training as a powerful approach to promote a metabolic reserve and maintain physical function in the face of continuing central limitations associated with CHF.
Isolated quadriceps training restores whole body exercise capacity in CHF / F. Esposito, R. Shabetai, P.D. Wagner, R.S. Richardson. - In: MEDICINE AND SCIENCE IN SPORTS AND EXERCISE. - ISSN 0195-9131. - 43:5 suppl. 1(2011 May), pp. 116-116. (Intervento presentato al 58. convegno Annual Meeting of the American College of Sports Medicine tenutosi a Denver nel 2011) [10.1249/01.MSS.0000403020.55786.ae].
Isolated quadriceps training restores whole body exercise capacity in CHF
F. EspositoPrimo
;
2011
Abstract
The benefit of isolated (i.e., small muscle mass) muscle training and its potential translation to whole body exercise in patients with chronic heart failure (CHF) has been recognized, however the mechanisms responsible for this positive outcome remain poorly understood. PURPOSE: To study oxygen (O2) transport and metabolism at maximal cycle (whole body) and knee extensor (KE, small muscle mass) exercise in patients with CHF. METHODS: Eight healthy controls and 6 CHF patients commenced 8 weeks of KE training (both legs, separately). Before and after training, they underwent cycle and KE maximal exercise studies. RESULTS: Pre-training cycling and KE exercise peak leg O2 uptake (VO2) were 17% and 15% lower, respectively, in the patients compared to controls. Although KE training did not alter cardiac output at maximal KE or cycle exercise, it increased O2 delivery (by 54%), arterial-venous O2 difference (by 10%), and muscle O2 conductance (by 39%) at maximal KE exercise, yielding an increase in peak single leg VO2 of 53%, which exceeded untrained control subject values. Post-training, during maximal cycling, O2 delivery (40%), arterial-venous O2 difference (15%), and muscle O2 conductance (DMO2) (52%) all increased, yielding a 40% greater peak leg VO2, matching that of the controls. CONCLUSION: Small muscle mass exercise training-induced improvements in both peripheral convective and diffusive O2 transport and subsequent O2 utilization are the mechanisms responsible for the increased whole body exercise capacity in patients with CHF. Such clear improvements in these factors and exercise capacity support the efficacy of small muscle mass training as a powerful approach to promote a metabolic reserve and maintain physical function in the face of continuing central limitations associated with CHF.Pubblicazioni consigliate
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