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人类丘脑底核θ波和β波振荡在感觉运动冲突期间同步神经元放电。

Human Subthalamic Nucleus Theta and Beta Oscillations Entrain Neuronal Firing During Sensorimotor Conflict.

作者信息

Zavala Baltazar, Damera Srikanth, Dong Jian Wilson, Lungu Codrin, Brown Peter, Zaghloul Kareem A

机构信息

Surgical Neurology Branch.

Experimental Neurology Group, Nuffield Department of Clinical Neurology, University of Oxford, John Radcliffe Hospital, Oxford OX3 9DU, UK.

出版信息

Cereb Cortex. 2017 Jan 1;27(1):496-508. doi: 10.1093/cercor/bhv244.

DOI:10.1093/cercor/bhv244
PMID:26494798
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5390852/
Abstract

Recent evidence has suggested that prefrontal cortical structures may inhibit impulsive actions during conflict through activation of the subthalamic nucleus (STN). Consistent with this hypothesis, deep brain stimulation to the STN has been associated with altered prefrontal cortical activity and impaired response inhibition. The interactions between oscillatory activity in the STN and its presumably antikinetic neuronal spiking, however, remain poorly understood. Here, we simultaneously recorded intraoperative local field potential and spiking activity from the human STN as participants performed a sensorimotor action selection task involving conflict. We identified several STN neuronal response types that exhibited different temporal dynamics during the task. Some neurons showed early, cue-related firing rate increases that remained elevated longer during high conflict trials, whereas other neurons showed late, movement-related firing rate increases. Notably, the high conflict trials were associated with an entrainment of individual neurons by theta- and beta-band oscillations, both of which have been observed in cortical structures involved in response inhibition. Our data suggest that frequency-specific activity in the beta and theta bands influence STN firing to inhibit impulsivity during conflict.

摘要

最近的证据表明,前额叶皮质结构可能通过激活丘脑底核(STN)来抑制冲突期间的冲动行为。与这一假设一致,对STN进行深部脑刺激与前额叶皮质活动改变和反应抑制受损有关。然而,STN中的振荡活动与其可能的抗运动神经元放电之间的相互作用仍知之甚少。在这里,当参与者执行一项涉及冲突的感觉运动动作选择任务时,我们同时记录了人类STN的术中局部场电位和放电活动。我们识别出了几种在任务期间表现出不同时间动态的STN神经元反应类型。一些神经元在高冲突试验中显示出与线索相关的早期放电率增加,且持续升高的时间更长,而其他神经元则显示出与运动相关的晚期放电率增加。值得注意的是,高冲突试验与单个神经元被θ和β波段振荡夹带有关,这两种振荡在参与反应抑制的皮质结构中均有观察到。我们的数据表明,β和θ波段的频率特异性活动会影响STN放电,以在冲突期间抑制冲动性。

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