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神经调节和肌肉氧合对持续等长收缩时肘屈肌任务失败的影响。

Influence of neural adjustments and muscle oxygenation on task failure during sustained isometric contractions with elbow flexor muscles.

机构信息

Laboratory of Applied Biology, Université Libre de Bruxelles, 808 route de Lennik, 1070 Brussels, Belgium.

出版信息

Exp Physiol. 2012 Aug;97(8):918-29. doi: 10.1113/expphysiol.2011.064303. Epub 2012 Apr 11.

DOI:10.1113/expphysiol.2011.064303
PMID:22496501
Abstract

This study investigated the adjustments in muscle activation and oxygenation in biceps and triceps brachii during two tasks sustained to failure at 20 and 60% of the maximal voluntary contraction (MVC) force. The tasks required participants either to push against a rigid restraint (force task) or to support an inertial load (position task) with the elbow flexor muscles. The surface EMG was recorded for biceps brachii, brachioradialis, triceps brachii and trapezius superior muscles. Muscle oxygenation of biceps and triceps brachii was measured by near-infrared spectroscopy. The position task was briefer (404 ± 159 s) than the force task (533 ± 194 s) when performed at 20% MVC (P = 0.011), but endurance time did not differ at 60% MVC (54 ± 19 versus 64 ± 16 s, respectively; P = 0.13). Biceps brachii oxygenation decreased slightly (by ~7%) during tasks performed at 20% MVC, whereas it dropped (-40%) for tasks sustained at 60% MVC. However, the decrease in muscle oxygenation was not a significant predictor of time to failure at the two target forces, although its contribution to muscle fatigue cannot be completely ruled out at 60% MVC. In contrast, time to failure was predicted by the increase in EMG of biceps brachii for both tasks at 20% MVC, and EMG of brachioradialis and trapezius for both tasks at 60% MVC. These results suggest that neural adjustments rather than muscle oxygenation limited the time to failure for the force and position tasks at low and high target forces.

摘要

本研究调查了在以 20%和 60%最大自主收缩(MVC)力进行的两项任务中,肱二头肌和肱三头肌的肌肉激活和氧合的调整。任务要求参与者用肘部屈肌肌肉要么抵抗刚性约束(力任务),要么支撑惯性负荷(位置任务)。表面肌电图记录了肱二头肌、肱桡肌、肱三头肌和斜方肌上肌的肌电活动。通过近红外光谱测量肱二头肌和肱三头肌的肌肉氧合。当以 20% MVC 进行时,位置任务比力任务更短(404±159 秒对 533±194 秒,P=0.011),但在 60% MVC 时耐力时间没有差异(分别为 54±19 秒对 64±16 秒,P=0.13)。在以 20% MVC 进行的任务中,肱二头肌的氧合略有下降(约 7%),而在以 60% MVC 进行的任务中,氧合下降了(-40%)。然而,肌肉氧合的下降并不是两个目标力下失效时间的显著预测指标,尽管在 60% MVC 下,它不能完全排除对肌肉疲劳的贡献。相比之下,失效时间由 20% MVC 下的两项任务的肱二头肌肌电活动增加以及 60% MVC 下的两项任务的肱桡肌和斜方肌肌电活动增加预测。这些结果表明,在低和高目标力下,神经调整而不是肌肉氧合限制了力和位置任务的失效时间。

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