时相靶向刺激调节人脑运动皮层的相位-幅度耦合。

Phase- targeted stimulation modulates phase-amplitude coupling in the motor cortex of the human brain.

机构信息

Functional Neurosurgery Laboratory, Department of Neurosurgery, Johns Hopkins School of Medicine, Baltimore, MD, USA.

Neuromodulation and Advanced Therapies Clinic, Department of Neurology, Johns Hopkins School of Medicine, Baltimore, MD, USA.

出版信息

Brain Stimul. 2022 Jan-Feb;15(1):152-163. doi: 10.1016/j.brs.2021.11.019. Epub 2021 Nov 30.

DOI:10.1016/j.brs.2021.11.019

PMID:34856396

Abstract

BACKGROUND

Phase-amplitude coupling (PAC) in which the amplitude of a faster field potential oscillation is coupled to the phase of a slower rhythm, is one of the most well-studied interactions between oscillations at different frequency bands. In a healthy brain, PAC accompanies cognitive functions such as learning and memory, and changes in PAC have been associated with neurological diseases including Parkinson's disease (PD), schizophrenia, obsessive-compulsive disorder, Alzheimer's disease, and epilepsy.

OBJECTIVE

/Hypothesis: In PD, normalization of PAC in the motor cortex has been reported in the context of effective treatments such as dopamine replacement therapy and deep brain stimulation (DBS), but the possibility of normalizing PAC through intervention at the cortex has not been shown in humans. Phase-targeted stimulation (PDS) has a strong potential to modulate PAC levels and potentially normalize it.

METHODS

We applied stimulation pulses triggered by specific phases of the beta oscillations, the low frequency oscillations that define phase of gamma amplitude in beta-gamma PAC, to the motor cortex of seven PD patients at rest during DBS lead placement surgery We measured the effect on PAC modulation in the motor cortex relative to stimulation-free periods.

RESULTS

We describe a system for phase-targeted stimulation locked to specific phases of a continuously updated slow local field potential oscillation (in this case, beta band oscillations) prediction. Stimulation locked to the phase of the peak of beta oscillations increased beta-gamma coupling both during and after stimulation in the motor cortex, and the opposite phase (trough) stimulation reduced the magnitude of coupling after stimulation.

CONCLUSION

These results demonstrate the capacity of cortical phase-targeted stimulation to modulate PAC without evoking motor activation, which could allow applications in the treatment of neurological disorders associated with abnormal PAC, such as PD.

摘要

背景

相位-振幅耦合（PAC）是指较快的场电位振荡的振幅与较慢节律的相位耦合，是不同频带振荡之间相互作用中研究最广泛的一种。在健康的大脑中，PAC 伴随着认知功能，如学习和记忆，PAC 的变化与包括帕金森病（PD）、精神分裂症、强迫症、阿尔茨海默病和癫痫在内的神经疾病有关。

目的

/假设：在 PD 中，已有研究报道在多巴胺替代疗法和深部脑刺激（DBS）等有效治疗的情况下，运动皮层中的 PAC 得到了正常化，但在人类中尚未证明通过皮层干预来正常化 PAC 的可能性。相位靶向刺激（PDS）具有调节 PAC 水平并使其正常化的强大潜力。

方法

我们在 DBS 导联放置手术期间，在 7 名 PD 患者的运动皮层上施加了由β节律（定义为β-γ PAC 中的γ幅度相位的低频振荡）特定相位触发的刺激脉冲。我们测量了相对于无刺激期的运动皮层 PAC 调制效果。

结果

我们描述了一种系统，用于锁定到特定相位的相位靶向刺激，该相位是连续更新的慢局部场电位振荡（在这种情况下是β波段振荡）的预测。刺激锁定在β振荡的峰值相位会增加运动皮层中的β-γ耦合，无论是在刺激期间还是之后，而相反相位（波谷）刺激会在刺激后降低耦合的幅度。

结论

这些结果表明，皮层相位靶向刺激具有调节 PAC 的能力，而不会引起运动激活，这可能允许应用于治疗与异常 PAC 相关的神经障碍，如 PD。

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时相靶向刺激调节人脑运动皮层的相位-幅度耦合。

Phase- targeted stimulation modulates phase-amplitude coupling in the motor cortex of the human brain.

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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