对白化大鼠腹侧基底丘脑复合体中前肢表征的分析。

An analysis of the representation of the forelimb in the ventrobasal thalamic complex of the albino rat.

作者信息

Angel A, Clarke K A

出版信息

J Physiol. 1975 Jul;249(2):399-423. doi: 10.1113/jphysiol.1975.sp011022.

DOI:10.1113/jphysiol.1975.sp011022

PMID:1177098

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1309581/

Abstract

Glass micro-electrodes have been used to record from a total of 998 units situated in the ventrobasal thalamic complex in the deeply anaesthetized albino rat. 2. Of these units 889 responded to electrical stimulation of the contralateral forelimb and fifty-one to the contralateral hind limb. The remaining units consisted of those with receptive fields on the trunk, head and those which responded to stimulation of more than one limb. Only the latter group of units showed any spontaneous activity in the absence of intentional stimulation. 2. Of the units which responded to electrical stimulation of the contralateral forelimb the receptive fields, modality and latencies of response were accurately determined for 505 units. The mean latency to supramaximal stimulation at the wrist was 4.49 (+/- 0.04 S.E. of mean) msec; and to mechanical stimulation (for 146 of these units) at the centre of the receptive field 6.58 (+/- 0.12) msec. The modalities were distributed as follows: light pressure, 391; heavy pressure, 47; hair movement, 40; claw sensitive, 15 and joint movement, 12 units. 4. The forelimb representation within the ventrobasal thalamic complex was somatotopically organized, the over-all appearance being that of an incompletely closed fist, palmar surface uppermost, thumb media, with the wrist caudal and the digital tips rostral and dorsal. 5. The central projection was distorted, some parts showing expanded representation, notably the tips of digits II and III and the medial wrist pad. Other parts were contracted, e.g. the wrist, forearm and shoulder. 6. Units with receptive fields consisting of the whole of a walking pad had shorter mean latencies, to tactile stimulation, than those whose field was a single spot on a pad. 7. Units were found to show an abolute unresponsive time to the second of a pair of identical supramaximal electrical stimuli of up to 50 msec, and a relative unresponsive time which could last up to 500 msec. The absolute unresponsive and relative unresponsive times to the second of a pair of tactile stimuli was shorter being 30 and 150 msec respectively. 8. The effect of decortication was to increase the excitability of thalamic units to peripheral stimulation both in the initial and later discharges.

摘要

玻璃微电极已用于记录998个位于深度麻醉的白化大鼠腹侧基底丘脑复合体中的神经元。2. 这些神经元中，889个对同侧前肢的电刺激有反应，51个对同侧后肢的电刺激有反应。其余的神经元包括那些在躯干、头部有感受野的，以及那些对一个以上肢体的刺激有反应的。只有后一组神经元在没有故意刺激的情况下表现出任何自发活动。2. 在对同侧前肢电刺激有反应的神经元中，准确测定了505个神经元的感受野、反应模式和反应潜伏期。对手腕进行超强刺激的平均潜伏期为4.49（±0.04平均标准误）毫秒；对感受野中心进行机械刺激（对其中146个神经元）的平均潜伏期为6.58（±0.12）毫秒。反应模式分布如下：轻压，391个；重压，47个；毛发移动，40个；爪敏感，15个；关节移动，12个神经元。4. 腹侧基底丘脑复合体中的前肢代表区是按躯体定位组织的，总体外观是一个不完全闭合的拳头，手掌面朝上，拇指在中间，手腕在尾侧，指尖在头侧和背侧。5. 中央投射发生了扭曲，一些部分显示出扩大的代表区，特别是第二和第三指的指尖以及内侧腕垫。其他部分则收缩了，例如手腕、前臂和肩部。6. 感受野由整个行走垫组成的神经元，对触觉刺激的平均潜伏期比对感受野是垫上单个点的神经元要短。7. 发现神经元对一对相同的超强电刺激中的第二个刺激表现出长达50毫秒的绝对不应期，以及长达500毫秒的相对不应期。对一对触觉刺激中的第二个刺激的绝对不应期和相对不应期较短，分别为30毫秒和150毫秒。8. 去皮质的效果是增加丘脑神经元对周围刺激在初始放电和后续放电中的兴奋性。