刺激静态肌梭运动轴突引发的梭外肌次级终末反应。
Spindle secondary ending responses elicited by stimulation of static fusimotor axons.
作者信息
Bessou P, Pagès B
出版信息
J Physiol. 1969 Jun;202(3):569-84. doi: 10.1113/jphysiol.1969.sp008828.
Abstract
- Indirect evidence on the time course of intrafusal events associated with stimulation of a static fusimotor axon was obtained by analysis of the responses from muscle spindle secondary endings of the cat.2. In many instances, a single impulse in a single static fusimotor axon to a muscle spindle evoked a transient increase in discharge of the secondary ending the duration of which ranged from 30 to 60 msec with a rising phase of 6-20 msec. Increasing the length of the muscle increased the slope of the rising phase and augmented the magnitude of the response.3. Different static fusimotor axons produced different effects upon secondary endings. A single impulse in some fusimotor axons did not produce an effect while repetitive stimulation produced a smooth increase in discharge frequency. When efficacious, a single fusimotor impulse evoked approximately a similar duration of increased discharge from a secondary ending and a primary ending of the same muscle spindle. The relative magnitude of effects of a given fusimotor axon on primary and secondary endings of a spindle varied.4. During partial curarization the changes in the discharges of a secondary ending evoked by stimulation of a single static fusimotor axon occurred in a step-like fashion.5. These results are interpreted as supporting the idea that static fusimotor axons induce twitch-like contractions of intrafusal elements (nuclear chain) through the intermediary of propagated action potentials.
摘要
通过分析猫肌肉纺锤体次级末梢的反应,获得了与静态肌梭运动轴突刺激相关的肌梭内事件时间进程的间接证据。
在许多情况下,单个静态肌梭运动轴突向肌肉纺锤体发送的单个冲动会引起次级末梢放电的短暂增加,其持续时间为30至60毫秒,上升阶段为6至20毫秒。增加肌肉长度会增加上升阶段的斜率并增强反应幅度。
不同的静态肌梭运动轴突对次级末梢产生不同的影响。一些肌梭运动轴突中的单个冲动不会产生影响,而重复刺激会使放电频率平稳增加。当有效时,单个肌梭运动冲动从同一肌肉纺锤体的次级末梢和初级末梢引起的放电增加持续时间大致相似。给定肌梭运动轴突对纺锤体初级和次级末梢的影响相对大小有所不同。
在部分箭毒化期间,由单个静态肌梭运动轴突刺激引起的次级末梢放电变化呈阶梯状发生。
这些结果被解释为支持这样一种观点,即静态肌梭运动轴突通过传播的动作电位介导,诱导肌梭内成分(核链)产生类似抽搐的收缩。
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