[Recovery of muscle contractility after a strength training session: mechanical, neurophysiologic and biochemical approach].

A Michaut, M Pousson, J Belleville, J Van Hoecke
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引用次数: 0

Abstract

The purpose of this study was to observe the recovery of maximal strength immediately after a maximal eccentric strength training set. The trained female subjects (n = 8) performed 10 bouts of 10 maximal eccentric contractions of the quadriceps muscle. Each bout was separated by a 2 minutes rest period. Integrated electromyogram (iEMG) of the vastus medialis and the rectus femoris, and torque were measured before, just after, 24 and 48 hours after training session, at different knee angular velocity (-60, 0, 60, 120, and 240 degrees.s-1). Possible structural damage of the muscular cell were searched from the urinary concentration of some protein catabolism metabolites before (basal rate), 24 and 48 hours after the exercise. Maximal torque significantly fell for any angular velocity immediately after the training session: 13.6% at -60 degrees.s-1, 16.9% at 60 degrees.s-1, 7.5% at 120 degrees.s-1, 12.8% at 240 degrees.s-1 and 8.6% at 0 degree.s-1. This event was accompanied by an increase of the iEMG at the training angular speed, and by an increase of the metabolites concentration in a half part of the subjects. Strength developed during eccentric contraction showed the earliest recovery. And it even significantly overshot its initial level by 14.9% at 48 hours. A significant increase of the iEMG assessed at the eccentric velocity was then observed. In the same time, 3 of the 6 subjects showed an increase of their urinary concentration of the chosen metabolites in comparison with their initial values. This result may closely be connected with the supercompensation phenomenon, which first appears in the training mode. This phenomenon could partly be explained by the associated increase of the iEMG.

[力量训练后肌肉收缩力的恢复:机械、神经生理和生化方法]。
本研究的目的是观察最大偏心力量训练后的最大力量恢复情况。接受训练的女性受试者(n = 8)进行10组10次最大四头肌偏心收缩。每回合有2分钟的休息时间。在不同的膝关节角速度(-60、0、60、120和240度s-1)下,分别在训练前、训练后、训练后24和48小时测量股内侧肌和股直肌的综合肌电图(iEMG)和扭矩。从运动前(基础代谢率)、运动后24小时和48小时尿液中一些蛋白质分解代谢产物的浓度中寻找肌肉细胞可能的结构损伤。训练结束后,最大扭矩在任何角速度下都显著下降:-60度时为13.6%。S-1, 60度时16.9%。S-1, 120度,7.5%。S-1, 12.8%在240度。S-1和8.6% 0°S-1。这一事件伴随着训练角速度下的iEMG增加,以及一半受试者的代谢物浓度增加。在偏心收缩期间发展的力量恢复最早。在48小时内,它甚至明显超过了最初的水平14.9%。然后观察到在偏心速度下评估的iEMG显着增加。与此同时,6名受试者中有3人的尿液中所选代谢物浓度与初始值相比有所增加。这一结果可能与首先出现在训练模式中的超补偿现象密切相关。这种现象可以部分解释为相关的iEMG增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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