时相特异性微刺激可差异化调制β振荡并影响行为。

Phase-Specific Microstimulation Differentially Modulates Beta Oscillations and Affects Behavior.

机构信息

Department of Medical Neurobiology, Institute of Medical Research-Israel Canada, The Hebrew University-Hadassah Medical School, Jerusalem 9112102, Israel; Edmond and Lily Safra Centre for Brain Sciences, The Hebrew University of Jerusalem, Jerusalem 9190401, Israel.

出版信息

Cell Rep. 2020 Feb 25;30(8):2555-2566.e3. doi: 10.1016/j.celrep.2020.02.005.

DOI:10.1016/j.celrep.2020.02.005

PMID:32101735

Abstract

It is widely accepted that Beta-band oscillations play a role in sensorimotor behavior. To further explore this role, we developed a hybrid platform to combine neural operant conditioning and phase-specific intracortical microstimulation (ICMS). We trained monkeys, implanted with 96 electrode arrays in the motor cortex, to volitionally enhance local field potential (LFP) Beta-band (20-30 Hz) activity at selected sites using a brain-machine interface. We find that Beta oscillations of LFP and single-unit spiking activity increase dramatically with brain-machine interface training and that pre-movement Beta power is anti-correlated with task performance. We also find that phase-specific ICMS modulates the power and phase of oscillations, shifting local networks between oscillatory and non-oscillatory states. Furthermore, ICMS induces phase-dependent effects in animal reaction times and success rates. These findings contribute to unraveling the functional role of cortical oscillations and to the future development of clinical tools for ameliorating abnormal neuronal activities in brain disease.

摘要

人们普遍认为β波段振荡在感觉运动行为中起作用。为了进一步探索这种作用，我们开发了一种混合平台，将神经操作性条件作用与特定相位的皮质内微刺激（ICMS）相结合。我们训练猴子，在运动皮层中植入 96 个电极阵列，使用脑机接口自愿增强选定部位的局部场电位（LFP）β波段（20-30 Hz）活动。我们发现，随着脑机接口训练，LFP 和单个单元尖峰活动的β振荡显著增加，并且运动前β功率与任务表现呈负相关。我们还发现，特定相位的 ICMS 调节了振荡的功率和相位，将局部网络从振荡状态转变为非振荡状态。此外，ICMS 诱导动物反应时间和成功率的相位依赖性效应。这些发现有助于揭示皮层振荡的功能作用，并为未来开发改善脑部疾病中异常神经元活动的临床工具做出贡献。

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时相特异性微刺激可差异化调制β振荡并影响行为。

Phase-Specific Microstimulation Differentially Modulates Beta Oscillations and Affects Behavior.

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