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警觉松鼠猴中投射至丘脑的前庭核神经元的自我运动信号

Self-motion signals in vestibular nuclei neurons projecting to the thalamus in the alert squirrel monkey.

作者信息

Marlinski Vladimir, McCrea Robert A

机构信息

Department of Neurobiology, Barrow Neurological Institute, 350 West Thomas Road, Phoenix, AZ 85013, USA.

出版信息

J Neurophysiol. 2009 Apr;101(4):1730-41. doi: 10.1152/jn.90904.2008. Epub 2009 Jan 28.

DOI:10.1152/jn.90904.2008
PMID:19176611
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2695649/
Abstract

Sixty vestibular nuclei neurons antidromically activated by electrical stimulation of the ventroposterior thalamus were recorded in two alert squirrel monkeys. The majority of these neurons were monosynaptically activated by vestibular nerve electrical stimulation. Forty-seven neurons responded to animal rotations around the earth-vertical axis; 16 of them also responded to translations in the horizontal plane. The mean sensitivity to 0.5-Hz rotations of 80 degrees /s velocity was 0.40 +/- 0.31 spikes.s(-1).deg(-1).s(-1). Rotational responses were in phase with stimulus velocity. Sensitivities to 0.5-Hz translations of 0.1 g acceleration varied from 92.2 to 359 spikes.s(-1).g(-1) and response phases varied from 10.1 degrees lead to -98 degrees lag. The firing behavior in 28 neurons was studied during rotation of the whole animal, of the trunk, and voluntary and involuntary rotations of the head. Two classes of vestibulothalamic neurons were distinguished. One class of neurons generated signals related to movement of the head that were similar either when the head and trunk move together or when the head moves on the stationary trunk. A fraction of these neurons fired during involuntary head movements only. A second class of neurons generated signals related to movement of the trunk. They responded when the trunk moved alone or simultaneously with the head, but did not respond to head rotations while the trunk was stationary.

摘要

在两只清醒的松鼠猴中记录到60个由丘脑腹后核电刺激逆向激活的前庭核神经元。这些神经元中的大多数通过前庭神经电刺激被单突触激活。47个神经元对动物绕地球垂直轴旋转有反应;其中16个也对水平平面内的平移有反应。对80度/秒速度的0.5赫兹旋转的平均敏感度为0.40±0.31个峰电位·秒⁻¹·度⁻¹·秒⁻¹。旋转反应与刺激速度同相。对0.1克加速度的0.5赫兹平移的敏感度在92.2至359个峰电位·秒⁻¹·克⁻¹之间变化,反应相位在超前10.1度至滞后98度之间变化。研究了28个神经元在整个动物旋转、躯干旋转以及头部的自主和非自主旋转过程中的放电行为。区分出两类前庭丘脑神经元。一类神经元产生与头部运动相关的信号,当头部和躯干一起移动或头部在静止的躯干上移动时,这些信号相似。这些神经元中的一部分仅在非自主头部运动期间放电。第二类神经元产生与躯干运动相关的信号。当躯干单独移动或与头部同时移动时它们有反应,但当躯干静止时对头部旋转没有反应。

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