A theoretical model for oxygen transport in skeletal muscle under conditions of high oxygen demand

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A theoretical model for oxygen transport in skeletal muscle under conditions of high oxygen demand

B. J. McGuire¹ and T. W. Secomb²

¹ Program in Biomedical Engineering, ² Department of Physiology, University of Arizona, Tucson, Arizona 85724

Oxygen transport from capillaries to exercising skeletal muscle is studied by use of a Krogh-type cylinder model. The goalis to predict oxygen consumption under conditions of high demand,on the basis of a consideration of transport processes occurringat the microvascular level. Effects of the decline in oxygen contentof blood flowing along capillaries, intravascular resistance tooxygen diffusion, and myoglobin-facilitated diffusion are included.Parameter values are based on human skeletal muscle. The dependenceof oxygen consumption on oxygen demand, perfusion, and capillarydensity are examined. When demand is moderate, the tissue is welloxygenated and consumption is slightly less than demand. Whendemand is high, capillary oxygen content declines rapidly withaxial distance and radial oxygen transport is limited by diffusionresistance within the capillary and the tissue. Under these conditions,much of the tissue is hypoxic, consumption is substantially lessthan demand, and consumption is strongly dependent on capillarydensity. Predicted consumption rates are comparable with experimentallyobserved maximal rates of oxygenconsumption.

oxygen diffusion; Krogh cylinder model; maximal oxygen consumption

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				E. N. Bruce and M. C. Bruce A multicompartment model of carboxyhemoglobin and carboxymyoglobin responses to inhalation of carbon monoxide J Appl Physiol, September 1, 2003; 95(3): 1235 - 1247. [Abstract] [Full Text] [PDF]

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