局部场电位
神经科学
时间分辨率
电生理学
计算机科学
电极阵列
波形
生物
电极
物理
电信
量子力学
雷达
作者
Angelique C. Paulk,Yoav Kfir,Arjun Khanna,Martina L. Mustroph,Eric M. Trautmann,Dan J. Soper,Sergey D. Stavisky,Marleen Welkenhuysen,B. Dutta,Krishna V. Shenoy,Leigh R. Hochberg,R. Mark Richardson,Ziv M. Williams,Sydney S. Cash
标识
DOI:10.1038/s41593-021-00997-0
摘要
Recent advances in multi-electrode array technology have made it possible to monitor large neuronal ensembles at cellular resolution in animal models. In humans, however, current approaches restrict recordings to a few neurons per penetrating electrode or combine the signals of thousands of neurons in local field potential (LFP) recordings. Here we describe a new probe variant and set of techniques that enable simultaneous recording from over 200 well-isolated cortical single units in human participants during intraoperative neurosurgical procedures using silicon Neuropixels probes. We characterized a diversity of extracellular waveforms with eight separable single-unit classes, with differing firing rates, locations along the length of the electrode array, waveform spatial spread and modulation by LFP events such as inter-ictal discharges and burst suppression. Although some challenges remain in creating a turnkey recording system, high-density silicon arrays provide a path for studying human-specific cognitive processes and their dysfunction at unprecedented spatiotemporal resolution.
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