在人类中,随着手指精确运动,肌梭运动和骨骼运动活动会增加。
Fusimotor and skeletomotor activities are increased with precision finger movement in man.
作者信息
Kakuda N, Vallbo A B, Wessberg J
机构信息
Department of Physiology, Göteborg University, Sweden.
出版信息
J Physiol. 1996 May 1;492 ( Pt 3)(Pt 3):921-9. doi: 10.1113/jphysiol.1996.sp021358.
Abstract
- Impulses of eighteen muscle spindle afferents from finger extensor muscles were recorded from the radial nerve while subjects performed single joint finger movements of two kinds, i.e. routine and precision, which were nearly identical with regard to kinematics. 2. The firing rates of ten primary and two secondary spindle afferents were higher in the precision movements by more than 10%, although the difference reached statistical significance in only seven of them. In most cases when spindle firing was higher in precision movements the skeletomotor activity was higher as well. 3. The findings indicated that the fusimotor activity was often stronger with precision movements compared with routine movements. This result is in qualitative agreement with several studies on behaving cats, demonstrating higher fusimotor activity in more demanding motor tasks. On the other hand, the effects were much smaller in humans than in cats. Moreover, in contrast to findings from experiments in cats, no support was obtained for the hypothesis that fusimotor activity was adjusted independently of the skeletomotor activity in human finger muscles.
摘要
- 当受试者进行两种单关节手指运动,即常规运动和精确运动时,从桡神经记录了来自手指伸肌的18条肌梭传入纤维的冲动,这两种运动在运动学方面几乎相同。2. 10条初级和2条次级梭内肌传入纤维的放电频率在精确运动中高出10%以上,尽管其中只有7条的差异具有统计学意义。在大多数情况下,当精确运动中梭内肌放电较高时,骨骼运动活动也较高。3. 研究结果表明,与常规运动相比,精确运动时的梭外肌运动活动通常更强。这一结果在定性上与几项关于行为猫的研究一致,表明在要求更高的运动任务中梭外肌运动活动更高。另一方面,在人类中这种影响比在猫中要小得多。此外,与猫的实验结果相反,没有证据支持人类手指肌肉中梭外肌运动活动独立于骨骼运动活动进行调节的假设。
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