A multichannel electrophysiological approach to noninvasively and precisely record human spinal cord activity.

IF 9.8 1区生物学 Q1 Agricultural and Biological Sciences

PLoS Biology Pub Date : 2024-10-31 eCollection Date: 2024-10-01 DOI:10.1371/journal.pbio.3002828

Birgit Nierula, Tilman Stephani, Emma Bailey, Merve Kaptan, Lisa-Marie Geertje Pohle, Ulrike Horn, André Mouraux, Burkhard Maess, Arno Villringer, Gabriel Curio, Vadim V Nikulin, Falk Eippert

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引用次数: 0

Abstract

The spinal cord is of fundamental importance for integrative processing in brain-body communication, yet routine noninvasive recordings in humans are hindered by vast methodological challenges. Here, we overcome these challenges by developing an easy-to-use electrophysiological approach based on high-density multichannel spinal recordings combined with multivariate spatial-filtering analyses. These advances enable a spatiotemporal characterization of spinal cord responses and demonstrate a sensitivity that permits assessing even single-trial responses. To furthermore enable the study of integrative processing along the neural processing hierarchy in somatosensation, we expand this approach by simultaneous peripheral, spinal, and cortical recordings and provide direct evidence that bottom-up integrative processing occurs already within the spinal cord and thus after the first synaptic relay in the central nervous system. Finally, we demonstrate the versatility of this approach by providing noninvasive recordings of nociceptive spinal cord responses during heat-pain stimulation. Beyond establishing a new window on human spinal cord function at millisecond timescale, this work provides the foundation to study brain-body communication in its entirety in health and disease.

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用多通道电生理方法无创、精确地记录人体脊髓活动。

脊髓对于脑-体交流中的综合处理具有根本性的重要意义，然而人类的常规无创记录却受到大量方法学挑战的阻碍。在这里，我们通过开发一种基于高密度多通道脊髓记录并结合多元空间滤波分析的易用电生理学方法来克服这些挑战。这些进展实现了脊髓反应的时空特征描述，并展示了评估单次试验反应的灵敏度。为了进一步研究躯体感觉中神经处理层次的整合处理，我们通过同时记录外周、脊髓和皮层来扩展这种方法，并提供了直接证据，证明自下而上的整合处理已经在脊髓中发生，因此是在中枢神经系统的第一次突触中继之后。最后，我们通过提供热痛刺激时脊髓痛觉反应的无创记录，证明了这种方法的多功能性。除了在毫秒级时间尺度上为人类脊髓功能建立一个新窗口外，这项工作还为研究健康和疾病中的整个脑体交流奠定了基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

PLoS Biology BIOCHEMISTRY & MOLECULAR BIOLOGY-BIOLOGY

CiteScore

15.40

自引率

2.00%

发文量

359

审稿时长

3-8 weeks

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