Université de Lyon, Université Lyon 1, CRIS EA 647, UFRSTAPS, 27-29, bd du 11 Novembre 1918, 69622 Villeurbanne, France.
Université de Lyon, Université Lyon 1, CRIS EA 647, UFRSTAPS, 27-29, bd du 11 Novembre 1918, 69622 Villeurbanne, France.
J Electromyogr Kinesiol. 2014 Feb;24(1):90-7. doi: 10.1016/j.jelekin.2013.10.007. Epub 2013 Oct 30.
The study examined the fatigue effect on tennis performance and upper limb muscle activity. Ten players were tested before and after a strenuous tennis exercise. Velocity and accuracy of serve and forehand drives, as well as corresponding surface electromyographic (EMG) activity of eight upper limb muscles were measured. EMG and force were also evaluated during isometric maximal voluntary contractions (IMVC). Significant decreases were observed after exercise in serve accuracy (-11.7%) and velocity (-4.5%), forehand accuracy (-25.6%) and consistency (-15.6%), as well as pectoralis major (PM) and flexor carpi radialis (FCR) IMVC strength (-13.0% and -8.2%, respectively). EMG amplitude decreased for PM and FCR in serve, forehand and IMVC, and for extensor carpi radialis in forehand. No modification was observed in EMG activation timing during strokes or in EMG frequency content during IMVC. Several hypotheses can be put forward to explain these results. First, muscle fatigue may induce a reduction in activation level of PM and forearm muscles, which could decrease performance. Second, conscious or subconscious strategies could lead to a redistribution of muscle activity to non-fatigued muscles in order to protect the organism and/or limit performance losses. Otherwise, the modifications of EMG activity could also illustrate the strategies adopted to manage the speed-accuracy trade-off in such a complex task.
本研究考察了疲劳对网球表现和上肢肌肉活动的影响。十位运动员在剧烈的网球运动前后接受了测试。发球和正手击球的速度和准确性,以及八个上肢肌肉的相应表面肌电图(EMG)活动都进行了测量。在等长最大自主收缩(IMVC)期间还评估了 EMG 和力。运动后,发球准确性(-11.7%)和速度(-4.5%)、正手准确性(-25.6%)和一致性(-15.6%)以及胸大肌(PM)和桡侧腕屈肌(FCR)的 IMVC 强度(分别为-13.0%和-8.2%)都显著下降。在发球、正手和 IMVC 中,PM 和 FCR 的 EMG 幅度降低,在正手中,桡侧伸腕肌的 EMG 幅度也降低。在击球过程中,EMG 激活时间或在 IMVC 中,EMG 频率没有变化。可以提出几种假设来解释这些结果。首先,肌肉疲劳可能会降低 PM 和前臂肌肉的激活水平,从而降低运动表现。其次,有意识或潜意识的策略可能导致肌肉活动重新分配到未疲劳的肌肉,以保护机体和/或限制运动表现的下降。否则,EMG 活动的变化也可能说明在这种复杂任务中,为了平衡速度和准确性,运动员所采用的策略。
