鸡胚运动相关腿部运动过程中屈肌和伸肌活动的差异。

Differences in flexor and extensor activity during locomotor-related leg movements in chick embryos.

作者信息

Sun Soo Yeon, Bradley Nina S

机构信息

Division of Biokinesiology and Physical Therapy, University of Southern California, Los Angeles, California.

出版信息

Dev Psychobiol. 2017 Apr;59(3):357-366. doi: 10.1002/dev.21500.

DOI:10.1002/dev.21500

PMID:28323348

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9969848/

Abstract

Prior to hatching, chick embryos spontaneously produce repetitive limb movements (RLMs), a developmental precursor to walking. During RLMs, flexor and extensor muscles are alternately active as during stance and swing phases of gait. However, previous studies of RLMs observed that flexor muscles were rhythmically active for many cycles, whereas extensors often failed to be recruited. Thus, we asked if flexor muscles are preferentially recruited during RLMs in chick embryos 1 day before hatching and onset of walking. Using a within-subject design, we compared EMG burst parameters for flexor and extensor muscles acting at the hip or ankle. Findings indicated that flexor burst count exceeded extensor count. Also, flexor muscles were consistently recruited at the lowest levels of neural drive. We conclude that there is a bias favoring flexor muscle recruitment and drive during spontaneously produced RLMs. Potential neural mechanisms and developmental implications of our findings are discussed.

摘要

在孵化前，鸡胚会自发产生重复性肢体运动（RLMs），这是行走的发育前体。在RLMs期间，屈肌和伸肌如同在步态的站立和摆动阶段那样交替活动。然而，先前对RLMs的研究观察到，屈肌在多个周期中有节律地活动，而伸肌常常未能被募集。因此，我们询问在孵化前1天且即将开始行走的鸡胚的RLMs过程中，屈肌是否被优先募集。采用受试者内设计，我们比较了作用于髋部或踝部的屈肌和伸肌的肌电图爆发参数。结果表明，屈肌爆发次数超过伸肌次数。此外，屈肌在最低水平的神经驱动时持续被募集。我们得出结论，在自发产生的RLMs过程中，存在有利于屈肌募集和驱动的偏向。我们讨论了这些发现的潜在神经机制和发育意义。

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