低氧环境下持续和间断等长收缩运动时的肌肉去氧。

Muscle deoxygenation during sustained and intermittent isometric exercise in hypoxia.

机构信息

Research Center of Health, Physical Fitness and Sports, Nagoya University, Japan.

出版信息

Med Sci Sports Exerc. 2010 Jul;42(7):1269-78. doi: 10.1249/MSS.0b013e3181cae12f.

DOI:10.1249/MSS.0b013e3181cae12f

PMID:20019635

Abstract

PURPOSE

It is reported that the rate of locomotor muscle fatigue development during intermittent isometric exercise in hypoxia is accelerated compared with normoxia. In contrast, when sustained isometric contractions are used, some studies do not show any effect of hypoxia on fatigue development. Increased intramuscular pressure during sustained isometric exercise causes substantial and sustained ischemia, even in normoxia. Therefore, we hypothesized that the difference in muscle deoxygenation between normoxia and hypoxia would be small during sustained exercise compared with intermittent exercise and that this may contribute to the inconsistent findings.

METHODS

Subjects performed sustained and intermittent isometric, unilateral, and submaximal knee-extension exercises (60% maximal voluntary contraction to exhaustion) while breathing normoxic (inspired O2 fraction = 0.21) or hypoxic gas mixtures (inspired O2 fraction = 0.10-0.12). Muscle oxygenation (deoxyhemoglobin/myoglobin and tissue oxygenation index) using near-infrared spectroscopy and surface EMG were measured from the left vastus lateralis.

RESULTS

During intermittent isometric exercise in hypoxia, increases in deoxyhemoglobin/myoglobin and reductions of tissue oxygenation index were larger (P < 0.05) than those in normoxia. The rate of rise in integrated EMG during intermittent exercise was accelerated (P < 0.05) in hypoxia. In contrast, there were no significant differences in changes in near-infrared spectroscopy variables and integrated EMG during sustained isometric exercise between normoxia and hypoxia.

CONCLUSIONS

These results suggest that muscle deoxygenation is exaggerated during intermittent isometric exercise in hypoxia compared with normoxia, whereas during sustained isometric exercise, the extent of muscle deoxygenation is the same between normoxia and hypoxia. The different extent of muscle deoxygenation during sustained and intermittent isometric exercise in normoxia and hypoxia could affect muscle fatigability, which results from the varied rate of accumulation of metabolites.

摘要

目的

据报道，在间歇等长运动中，缺氧会加速运动肌肉疲劳的发展速度，而在持续等长收缩中，一些研究并未显示出缺氧对疲劳发展的任何影响。在持续等长运动中，由于肌肉内压增加会导致大量且持续的缺血，即使在常氧环境下也是如此。因此，我们假设在持续运动中，与间歇运动相比，常氧和缺氧条件下肌肉的去氧饱和度差异较小，这可能是导致研究结果不一致的原因之一。

方法

受试者在呼吸常氧（吸入氧分数 = 0.21）或低氧混合气体（吸入氧分数 = 0.10-0.12）时，进行持续和间歇的、单侧的、亚最大强度的膝关节伸展等长运动（60%最大随意收缩至力竭）。使用近红外光谱和表面肌电图从左侧股外侧肌测量肌肉氧合（去氧血红蛋白/肌红蛋白和组织氧合指数）。

结果

在低氧间歇等长运动中，去氧血红蛋白/肌红蛋白的增加和组织氧合指数的降低幅度大于常氧（P < 0.05）。间歇运动期间整合肌电图的上升率加快（P < 0.05）。相比之下，在常氧和低氧条件下，持续等长运动时近红外光谱变量和整合肌电图的变化没有显著差异。

结论

这些结果表明，与常氧相比，低氧间歇等长运动时肌肉的去氧饱和度更大，而在持续等长运动时，常氧和低氧条件下肌肉的去氧饱和度相同。常氧和低氧条件下持续和间歇等长运动时肌肉去氧饱和度的不同程度可能会影响肌肉疲劳性，这是由于代谢物积累的速度不同所致。

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低氧环境下持续和间断等长收缩运动时的肌肉去氧。

Muscle deoxygenation during sustained and intermittent isometric exercise in hypoxia.

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CONCLUSIONS

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