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绘制人类背外侧前额叶皮层的皮质兴奋性图谱。

Mapping cortical excitability in the human dorsolateral prefrontal cortex.

作者信息

Gogulski Juha, Cline Christopher C, Ross Jessica M, Truong Jade, Sarkar Manjima, Parmigiani Sara, Keller Corey J

出版信息

bioRxiv. 2023 Nov 20:2023.01.20.524867. doi: 10.1101/2023.01.20.524867.

DOI:10.1101/2023.01.20.524867
PMID:36711689
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9882363/
Abstract

OBJECTIVE

To characterize early TEPs anatomically and temporally (20-50 ms) close to the TMS pulse (EL-TEPs), as well as associated muscle artifacts (<20 ms), across the dlPFC. We hypothesized that TMS location and angle influence EL-TEPs, and that EL-TEP amplitude is inversely related to muscle artifact. Additionally, we sought to determine an optimal group-level TMS target and angle, while investigating the potential benefits of a personalized approach.

METHODS

In 16 healthy participants, we applied single-pulse TMS to six targets within the dlPFC at two coil angles and measured EEG responses.

RESULTS

Stimulation location significantly influenced EL-TEPs, with posterior and medial targets yielding larger EL-TEPs. Regions with high EL-TEP amplitude had less muscle artifact, and vice versa. The best group-level target yielded 102% larger EL-TEP responses compared to other dlPFC targets. Optimal dlPFC target differed across subjects, suggesting that a personalized targeting approach might boost the EL-TEP by an additional 36%.

SIGNIFICANCE

Early local TMS-evoked potentials (EL-TEPs) can be probed without significant muscle-related confounds in posterior-medial regions of the dlPFC. The identification of an optimal group-level target and the potential for further refinement through personalized targeting hold significant implications for optimizing depression treatment protocols.

HIGHLIGHTS

Early local TMS-evoked potentials (EL-TEPs) varied significantly across the dlPFC as a function of TMS target.TMS targets with less muscle artifact had significantly larger EL-TEPs.Selection of a postero-medial target increased EL-TEPs by 102% compared to anterior targets.

摘要

目的

在背外侧前额叶皮质(dlPFC)中,从解剖学和时间上(20 - 50毫秒)对接近经颅磁刺激(TMS)脉冲的早期经颅磁刺激诱发电位(EL - TEPs)以及相关肌肉伪迹(<20毫秒)进行特征描述。我们假设TMS的位置和角度会影响EL - TEPs,并且EL - TEPs的幅度与肌肉伪迹呈负相关。此外,我们试图确定最佳的组水平TMS靶点和角度,同时研究个性化方法的潜在益处。

方法

在16名健康参与者中,我们以两个线圈角度对dlPFC内的六个靶点施加单脉冲TMS,并测量脑电图反应。

结果

刺激位置对EL - TEPs有显著影响,后侧和内侧靶点产生的EL - TEPs更大。EL - TEPs幅度高的区域肌肉伪迹较少,反之亦然。与其他dlPFC靶点相比,最佳组水平靶点产生的EL - TEPs反应大102%。最佳的dlPFC靶点因个体而异,这表明个性化靶向方法可能会使EL - TEPs再提高36%。

意义

在dlPFC的后内侧区域,可以探测到早期局部TMS诱发电位(EL - TEPs),而不会受到与肌肉相关的显著干扰。确定最佳的组水平靶点以及通过个性化靶向进一步优化的潜力,对优化抑郁症治疗方案具有重要意义。

要点

早期局部TMS诱发电位(EL - TEPs)在dlPFC中随TMS靶点的不同而有显著变化。肌肉伪迹较少的TMS靶点具有显著更大的EL - TEPs。与前侧靶点相比,选择后内侧靶点可使EL - TEPs增加102%。