运动相关的苍白球皮层同步变化区分了人类的动作执行和观察。

Movement-related changes in pallidocortical synchrony differentiate action execution and observation in humans.

机构信息

Department of Neurology, University of California, Los Angeles, USA.

Department of Neurosurgery, University of California, Los Angeles, USA.

出版信息

Clin Neurophysiol. 2021 Aug;132(8):1990-2001. doi: 10.1016/j.clinph.2021.03.037. Epub 2021 Apr 21.

DOI:10.1016/j.clinph.2021.03.037

PMID:33980469

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8286311/

Abstract

OBJECTIVE

Suppression of local and network alpha and beta oscillations in the human basal ganglia-thalamocortical (BGTC) circuit is a prominent feature of movement, including suppression of local alpha/beta power, cross-region beta phase coupling, and cortical and subcortical phase-amplitude coupling (PAC). We hypothesized that network-level coupling is more directly related to movement execution than local power changes, given the role of pathological network hypersynchrony in movement disorders such as Parkinson disease (PD). Understanding the specificity of these movement-related signals is important for designing novel therapeutics.

METHODS

We recorded globus pallidus internus (GPi) and motor cortical local field potentials during movement execution, passive movement observation and rest in 12 patients with PD undergoing deep brain stimulator implantation.

RESULTS

Local alpha/beta power is suppressed in the globus pallidus and motor cortex during both action execution and action observation, although less so during action observation. In contrast, pallidocortical phase synchrony and GPi and motor cortical alpha/beta-gamma PAC are suppressed only during action execution.

CONCLUSIONS

The functional dissociation across tasks in pallidocortical network activity suggests a particularly important role of network coupling in motor execution.

SIGNIFICANCE

Network level recordings provide important specificity in differentiating motor behavior and may provide significant value for future closed loop therapies.

摘要

目的

抑制人类基底节-丘脑皮质（BGTC）回路中的局部和网络α和β振荡是运动的一个突出特征，包括抑制局部α/β功率、跨区域β相耦合以及皮质和皮质下的相位-幅度耦合（PAC）。鉴于病理性网络过度同步在运动障碍（如帕金森病（PD））中的作用，我们假设网络级别的耦合与运动执行的关系比局部功率变化更为直接。了解这些与运动相关的信号的特异性对于设计新的治疗方法很重要。

方法

我们在 12 名接受深部脑刺激器植入的 PD 患者执行运动、被动观察运动和休息期间记录了苍白球内部（GPi）和运动皮质的局部场电位。

结果

尽管在被动观察运动时减少，但在执行动作和观察动作时，苍白球和运动皮质中的局部α/β功率均受到抑制。相比之下，苍白球皮质的相位同步以及 GPi 和运动皮质的α/β-γ PAC 仅在执行动作时受到抑制。

结论

任务之间在苍白球皮质网络活动中的功能分离表明网络耦合在运动执行中具有特别重要的作用。

意义

网络水平的记录提供了区分运动行为的重要特异性，并且可能为未来的闭环治疗提供重要价值。

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