训练引起的对次最大运动的激素和代谢反应变化。

Training-induced changes in hormonal and metabolic responses to submaximal exercise.

作者信息

Winder W W, Hickson R C, Hagberg J M, Ehsani A A, McLane J A

出版信息

J Appl Physiol Respir Environ Exerc Physiol. 1979 Apr;46(4):766-71. doi: 10.1152/jappl.1979.46.4.766.

DOI:10.1152/jappl.1979.46.4.766

Abstract

Plasma glucagon and catecholamines increase during prolonged submaximal exercise, but the magnitude of the increase is less in endurance-trained individuals than in untrained subjects. We have studied the rapidity at which this adaptation occurs. Six initially untrained healthy subjects exercised vigorously (on bicycle ergometers and by running) 30-50 min/day, 6 days/wk, for 9 wk. Prior to the beginning of training and at 3-wk intervals thereafter, participants were subjected to 90-min bicycle ergometer test work loads that elicited 58 +/- 2% of the subjects' initial maximal oxygen consumption. The major proportion of the training-induced decrement in plasma glucagon and catecholamine responses to exercise was seen after 3 wk of training. We conclude that the hormonal component of the training adaptation occurs very early in the course of a vigorous endurance training program.

摘要

在长时间次最大强度运动期间，血浆胰高血糖素和儿茶酚胺会增加，但耐力训练个体的增加幅度小于未经训练的受试者。我们研究了这种适应发生的速度。六名最初未经训练的健康受试者每天进行30 - 50分钟的剧烈运动（在自行车测力计上和通过跑步），每周6天，持续9周。在训练开始前以及此后每隔3周，参与者要进行90分钟的自行车测力计测试工作负荷，该负荷能引发受试者初始最大耗氧量的58±2%。训练引起的血浆胰高血糖素和儿茶酚胺对运动反应的下降，主要部分在训练3周后出现。我们得出结论，训练适应的激素成分在剧烈耐力训练计划的早期就会出现。

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训练引起的对次最大运动的激素和代谢反应变化。

Training-induced changes in hormonal and metabolic responses to submaximal exercise.

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