Central and peripheral fatigue in sustained maximum voluntary contractions of human quadriceps muscle.

B Bigland-Ritchie, D A Jones, G P Hosking, R H Edwards
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引用次数: 433

Abstract

1. The fatigue of force that occurs during the first 60 s of a maximum voluntary contraction of the human quadriceps has been examined by comparing the voluntary force with that obtained by brief tetanic stimulation at 50 Hz in nine healthy subjects. In three subjects the voluntary force declined in parallel with the tetanic force whereas in the remainder it fell more rapidly, suggesting that central fatigue was present. 2. For those subjects who showed little or no central fatigue, surface electromyograph (EMG) activity remained approximately constant while the force declined by about 60%. In the others, EMG activity and force declined in parallel but when an extra effort was made the subjects could briefly increase their force and this was accompanied by a proportionately greater increase in EMG activity (generally up to the original value). 3. It is concluded that in sustained maximum voluntary contractions of the quadriceps (a) central fatigue may account for an appreciable proportion of the force loss, (b) surface EMG recordings provide no evidence that neuromuscular junction failure is the limiting factor determining the loss of force in this muscle.

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人四头肌持续最大自主收缩的中枢和外周疲劳。
1. 通过比较9名健康受试者在50赫兹的短暂破伤风刺激下获得的自发力,研究了在人体四头肌最大自愿收缩的前60秒内发生的力疲劳。在三个受试者中,自愿力与破伤风力同时下降,而在其余受试者中,自愿力下降得更快,表明中枢疲劳存在。2. 对于那些表现出很少或没有中枢疲劳的受试者,表面肌电图(EMG)活动保持不变,而力下降了约60%。在其他情况下,肌电活动和力同时下降,但当额外的努力时,受试者可以短暂地增加他们的力,这伴随着肌电活动的比例更大的增加(通常达到原始值)。3.结论是,在股四头肌持续最大程度的自愿收缩中(a)中枢疲劳可能占相当大比例的力损失,(b)表面肌电记录没有提供证据表明神经肌肉连接失败是决定该肌肉力损失的限制因素。
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