猫腓肠肌复发性抑制模型

T. Uchiyama, U. Windhorst, H. Johansson
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引用次数: 0

摘要

本研究的目的是建立Renshaw细胞复发性抑制猫腓肠肌内侧肌的时域模型。该模型由300个运动神经元、300个Renshaw细胞和300个肌肉单位组成。膜电位的计算是通过卷积由下行指令输入引起的EPSP(兴奋性突触后电位)、运动神经元放电后的AHP(超极化后)和Renshaw细胞的IPSP(抑制性突触后电位)。当膜电位达到阈值电位时,运动神经元向肌单位和Renshaw细胞发送兴奋冲动。肌肉单位产生力量,伦肖细胞产生抑制脉冲序列返回到运动神经元。该模型的Renshaw细胞静态放电速率与生理实验研究的函数很接近。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recurrent inhibition model of cat gastrocnemius muscle
The purpose of this study was to construct a time domain model of cat medial gastrocnemius muscle with recurrent inhibition by Renshaw cells. The model consists of 300 motoneurons, 300 Renshaw cells and 300 muscle units. The membrane potential was calculated by convoluting EPSP (excitatory postsynaptic potential) caused by the descending command inputs, the AHP (after hyperpolarization) observed after the firing of the motoneurons and the IPSP (inhibitory post-synaptic potential) from Renshaw cells. When the membrane potential reaches the threshold potential, the motoneurons send an excitatory impulse to muscle units and Renshaw cells. The muscle units generate force and the Renshaw cells generate inhibitory burst pulse trains back to the motoneurons. The static firing rate of Renshaw cells of the proposed model was well approximated with the function which was investigated by physiological experiments.
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