叠加在向注入电流的“次级范围”内放电的运动神经元上的突触刺激。
Synaptic stimulation superimposed on motoneurones firing in the 'secondary range' to injected current.
作者信息
Granit R, Kernell D, Lamarre Y
出版信息
J Physiol. 1966 Nov;187(2):401-15. doi: 10.1113/jphysiol.1966.sp008098.
Abstract
- This paper extends the work on the ;primary range' of firing (Granit, Kernell & Lamarre, 1966), in lumbar motoneurones to the ;secondary range'. By definition the latter begins when, with stronger currents, the linear curve relating firing rate to injected current in the primary range undergoes a fairly sudden increase of slope.2. It was shown that motoneurones firing at the higher frequencies of the secondary range were partially inactivated. Yet such firing rates were within the physiological range.3. Algebraical summation of firing rates, when present in the secondary range, implied at the same time that the synaptic amount added was diminished by comparison with what it had been within the primary range.4. Superimposed synaptic excitatory stimuli did not (as in the ;primary range') regularly add their effect algebraically on to the rate of firing achieved by injected currents alone. More commonly the synaptic effect of the constant input underwent a progressive increase throughout the secondary range.5. Superimposed inhibitory stimuli regularly reduced the slope constant as determined by trans-membrane current alone and, by counter-acting inactivation, made the motoneurone approach the mode of firing characteristic of the ;primary range'.6. The latter finding emphasizes the significance of analysing firing motoneurones with the aid of ;slope constants' and provides inhibition with a new role in the integrative behaviour of motoneurones, as considered in the Discussion.
摘要
本文将关于腰段运动神经元放电“初级范围”(Granit、Kernell和Lamarre,1966年)的研究扩展至“次级范围”。根据定义,当随着电流增强,初级范围内将放电频率与注入电流相关联的线性曲线斜率出现相当突然的增加时,次级范围便开始了。
结果表明,在次级范围较高频率放电的运动神经元部分失活。然而,这样的放电频率仍在生理范围内。
当次级范围内存在放电频率的代数总和时,这同时意味着与初级范围内相比,所添加的突触量减少了。
叠加的突触兴奋性刺激并不(如在“初级范围”那样)将其效应常规地代数相加到仅由注入电流所实现的放电频率上。更常见的情况是,恒定输入的突触效应在整个次级范围内逐渐增加。
叠加的抑制性刺激常规地降低仅由跨膜电流所确定的斜率常数,并通过对抗失活作用,使运动神经元接近“初级范围”特有的放电模式。
后一发现强调了借助“斜率常数”分析运动神经元放电的重要性,并如在讨论中所考虑的那样,为抑制在运动神经元整合行为中赋予了新的作用。
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