Literature DB >> 7868458

Initial fall in skeletal muscle force development during ischemia is related to oxygen availability.

M C Hogan1, R S Richardson, S S Kurdak.   

Abstract

We examined the hypothesis that the initial decline (first 1-2 min) in force development that occurs in working muscle when blood flow is halted is caused by O2 availability and not another factor related to blood flow. This was tested by reducing O2 delivery (muscle blood flow X arterial O2 content) to working muscle by either stopping blood flow [ischemia (I)] or maintaining blood flow with low arterial O2 content [hypoxemia (H)]. If initial decline in force development were similar between these two methods of reducing O2 delivery, it would suggest O2 availability as the common pathway. Isolated dog gastrocnemius muscle was stimulated at approximately 60-70% of maximal O2 uptake (1 isometric tetanic contraction every 2 s) until steady-state conditions of muscle blood flow and developed force were attained (approximately 3 min). Two conditions were then sequentially imposed on the working muscle: I, induced by shutting off pump controlling arterial perfusion of the muscle and clamping venous outflow, and H, induced by perfusing the muscle with deoxygenated blood (collected before testing while animal breathed N2) at steady-state blood flow level. Rates of the fall in force production in 17 matched conditions of H and I (approximately 40 s for each condition) were compared in 6 muscles tested. The blood perfusing the muscle during H had arterial PO2 = 8 +/- 1 (SE) Torr, arterial PCO2 = 37 +/- 1 Torr, and arterial pH = 7.39 +/- 0.03. The rate of decline in developed force was not significantly different (P = 0.46) between the 17 matched conditions of H (0.66 +/- 0.10 g force.g mass-1.s-1) and I (0.79 +/- 0.15 g force.g mass-1.s-1). These findings suggest that the initial fall in developed force in working skeletal muscle that occurs with ischemia is related to O2 availability.

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Year:  1994        PMID: 7868458     DOI: 10.1152/jappl.1994.77.5.2380

Source DB:  PubMed          Journal:  J Appl Physiol (1985)        ISSN: 0161-7567


  17 in total

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