Subthalamic nucleus: a clock inside basal ganglia?

C Beurrier , L Garcia , B Bioulac , C Hammond
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引用次数: 33

Abstract

Subthalamic nucleus (STN) neurons have a pivotal role in basal ganglia, as a result of their intrinsic membrane properties, connections within the circuit and glutamatergic nature. Their innate pacemaker activity, consisting of a single-spike tonic mode of discharge, is abolished in the case of hemiballism, profoundly disrupted in the Parkinsonian state and replaced by a regular bursting mode under treatment (high-frequency stimulation, HFS). We propose that control STN activity represents a clock, an internal measure of time allowing the correct automatic execution of learned movements and, in particular, the automatic switch from one movement to the next in a sequential motor pattern. STN neuronal activity would be able to reset the frequency of oscillations of motor thalamo–cortical loops, notably in the γ band.

丘脑底核:基底神经节内的时钟?
丘脑下核(STN)神经元由于其固有的膜特性、回路内的连接和谷氨酸能特性在基底神经节中起着关键作用。他们天生的起搏器活动,由单脉冲强直放电模式组成,在偏瘫的情况下被取消,在帕金森状态下被严重破坏,并在治疗(高频刺激,HFS)下被常规的爆发模式所取代。我们提出控制STN活动代表一个时钟,一个内部时间度量,允许正确自动执行学习到的运动,特别是在顺序运动模式中从一个运动自动切换到下一个运动。STN神经元的活动将能够重置运动丘脑-皮层回路的振荡频率,特别是在γ波段。
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