Spectral Changes in Motor Thalamus Field Potentials during Movement

Bryan T Klassen, Matthew R Baker, Michael A Jensen, Gabriela Ojeda Valencia, Kai Joshua Miller
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Abstract

The motor thalamus plays a crucial role in the integration and modulation of sensorimotor information and projects to the primary motor cortex. While voltage power spectral changes in the motor cortex with movement have been well-characterized, the corresponding activity in the motor thalamus, particularly broadband (sometimes referred to as high gamma) power, remains unclear. The present study aims to characterize spectral changes in the motor thalamus during hand movements of 15 subjects undergoing awake deep brain stimulation surgery targeting the ventral intermediate (VIM) nucleus of the thalamus for disabling tremor. We analyzed power changes in subject-specific low frequency oscillations (<30 Hz) and broadband power (captured in 65-115 Hz band) of serial field potential recordings. Consistent with previous studies, we found widespread decreases in low-frequency oscillations with movement. Importantly, in most subjects we also observed a significant increase in broadband power, primarily in the inferior recording sites corresponding with estimated VIM region. One subject also performed an imagined movement task during which low frequency oscillatory power was suppressed. These electrophysiologic changes may be leveraged as biomarkers for thalamic functional mapping, DBS targeting, and closed loop applications.
运动时运动丘脑场电位的频谱变化
运动丘脑在整合和调制感觉运动信息方面起着至关重要的作用,并投射到初级运动皮层。虽然运动皮层的电压功率频谱变化已被充分描述,但运动丘脑的相应活动,尤其是宽带(有时称为高伽马)功率,仍不清楚。本研究旨在描述 15 名接受以丘脑腹侧中间核(VIM)为靶点的清醒深部脑刺激手术治疗失能性震颤的受试者手部运动时运动丘脑的频谱变化。我们分析了序列场电位记录中特定受试者低频振荡(30 Hz)和宽带功率(65-115 Hz 频段捕获)的功率变化。与之前的研究一致,我们发现低频振荡随运动而普遍下降。重要的是,在大多数受试者中,我们还观察到宽带功率显著增加,主要是在与估计的 VIM 区域相对应的下部记录点。一名受试者还完成了一项想象运动任务,其间低频振荡功率受到抑制。这些电生理变化可作为丘脑功能绘图、DBS 定位和闭环应用的生物标记。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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