人类单个机械感受器输入的大脑定位功能。

Cerebral localisation function from the input of single mechanoreceptive units in man.

作者信息

Schady W J, Torebjörk H E, Ochoa J L

出版信息

Acta Physiol Scand. 1983 Nov;119(3):277-85. doi: 10.1111/j.1748-1716.1983.tb07338.x.

DOI:10.1111/j.1748-1716.1983.tb07338.x

Abstract

The accuracy of the cerebral localisation function from the input of single mechanoreceptive units was studied in the hand and forearm of human subjects by means of microneurography and intraneural microstimulation (INMS). The mean distance separating the projected field of a sensation evoked by INMS at liminal amplitude from the receptive field of the activated unit (interfield distance, or IFD) was found to vary from 2.6 mm for SA I units in the fingertips to 23.4 mm for SA I units in the forearm. A less pronounced proximodistal IFD gradient was found for quickly adapting units. IFD values for each skin region were comparable with those obtained by a point localisation test directly on the skin. This indicates that functional gradients exist for inputs from single mechanoreceptive units, and that stimulus localisation hardly improves when numerous units are coactivated.

摘要

通过微神经图和神经内微刺激（INMS），研究了人类受试者手部和前臂中单个机械感受单元输入的大脑定位功能的准确性。发现阈下幅度的INMS诱发感觉的投射场与激活单元的感受野之间的平均距离（场间距离，或IFD），从指尖SA I单元的2.6毫米到前臂SA I单元的23.4毫米不等。对于快速适应单元，发现近远场IFD梯度不太明显。每个皮肤区域的IFD值与直接在皮肤上进行的点定位测试所获得的值相当。这表明单个机械感受单元的输入存在功能梯度，并且当大量单元共同激活时，刺激定位几乎没有改善。

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人类单个机械感受器输入的大脑定位功能。

Cerebral localisation function from the input of single mechanoreceptive units in man.

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