The effects of bed rest on the cardiovascular and muscular parameters which affect maximal O-2 consumption ((V) over dot (O2,max)) were studied. The fractional limitation of (V) over dot(O2,max) imposed by these parameters after bed rest was analysed. 2. The (V) over dot(O2,max), by standard procedure, and the maximal cardiac output ((Q) over dot(max)), by the pulse contour method, were measured during graded cyclo-ergometric exercise on seven subjects before and after a 42-day head-down tilt bed rest. Blood haemoglobin concentration ([Hb]) and arterialized blood gas analysis were determined at the highest work load. 3. Muscle fibre types, oxidative enzyme activities, and capillary and mitochondrial densities were measured on biopsy samples from the vastus lateralis muscle before and at the end of bed rest. The measure of muscle cross-sectional area (CSA) by NMR imaging at the level of biopsy site allowed computation of muscle oxidative capacity and capillary length. 4. The (V) over dot O-2,O-max was reduced after bed rest (-16.6%). The concomitant decreases in (Q) over dot(max) (-30.8%), essentially due to a change in stroke volume, and in [Hb] led to a huge decrease in O-2 delivery (-39.7%). 5. Fibre type distribution was unaffected by bed rest. The decrease in fibre area corresponded to the significant reduction in muscle CSA (-17%). The volume density of mitochondria was reduced after bed rest (-16.6%), as were the oxidative enzyme activities (-11%). The total mitochondrial volume was reduced by 28.5%. Capillary density was unchanged. Total capillary length was 22.2% lower after bed rest, due to muscle atrophy. 6. The interaction between these muscular and cardiovascular changes led to a smaller reduction in (V) over dot(O2max) than in cardiovascular O-2 transport. Yet the latter appears to play the greatest role in limiting (V) over dot(O2,max) after bed rest (> 70% of overall limitation), the remaining fraction being shared between peripheral O-2 diffusion and utilization
The interplay of central and peripheral factors in limiting maximal O-2 consumption in man after prolonged bed rest / G. Ferretti, G. Antonutto, C. Denis, H. Hoppeler, A.E. Minetti, M.V. Narici, D. Desplanches. - In: THE JOURNAL OF PHYSIOLOGY. - ISSN 0022-3751. - 501:3(1997), pp. 677-686. [10.1111/j.1469-7793.1997.677bm.x]
The interplay of central and peripheral factors in limiting maximal O-2 consumption in man after prolonged bed rest
A.E. Minetti;
1997
Abstract
The effects of bed rest on the cardiovascular and muscular parameters which affect maximal O-2 consumption ((V) over dot (O2,max)) were studied. The fractional limitation of (V) over dot(O2,max) imposed by these parameters after bed rest was analysed. 2. The (V) over dot(O2,max), by standard procedure, and the maximal cardiac output ((Q) over dot(max)), by the pulse contour method, were measured during graded cyclo-ergometric exercise on seven subjects before and after a 42-day head-down tilt bed rest. Blood haemoglobin concentration ([Hb]) and arterialized blood gas analysis were determined at the highest work load. 3. Muscle fibre types, oxidative enzyme activities, and capillary and mitochondrial densities were measured on biopsy samples from the vastus lateralis muscle before and at the end of bed rest. The measure of muscle cross-sectional area (CSA) by NMR imaging at the level of biopsy site allowed computation of muscle oxidative capacity and capillary length. 4. The (V) over dot O-2,O-max was reduced after bed rest (-16.6%). The concomitant decreases in (Q) over dot(max) (-30.8%), essentially due to a change in stroke volume, and in [Hb] led to a huge decrease in O-2 delivery (-39.7%). 5. Fibre type distribution was unaffected by bed rest. The decrease in fibre area corresponded to the significant reduction in muscle CSA (-17%). The volume density of mitochondria was reduced after bed rest (-16.6%), as were the oxidative enzyme activities (-11%). The total mitochondrial volume was reduced by 28.5%. Capillary density was unchanged. Total capillary length was 22.2% lower after bed rest, due to muscle atrophy. 6. The interaction between these muscular and cardiovascular changes led to a smaller reduction in (V) over dot(O2max) than in cardiovascular O-2 transport. Yet the latter appears to play the greatest role in limiting (V) over dot(O2,max) after bed rest (> 70% of overall limitation), the remaining fraction being shared between peripheral O-2 diffusion and utilization
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