Decoding the Spike-Band Subthreshold Motor Cortical Activity.

IF 1.1 4区心理学 Q4 NEUROSCIENCES Journal of Motor Behavior Pub Date : 2024-01-01 Epub Date: 2023-11-14 DOI:10.1080/00222895.2023.2280263

Murat Okatan, Mehmet Kocatürk

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引用次数: 0

Abstract

Intracortical Brain-Computer Interfaces (iBCI) use single-unit activity (SUA), multiunit activity (MUA) and local field potentials (LFP) to control neuroprosthetic devices. SUA and MUA are usually extracted from the bandpassed recording through amplitude thresholding, while subthreshold data are ignored. Here, we show that subthreshold data can actually be decoded to determine behavioral variables with test set accuracy of up to 100%. Although the utility of SUA, MUA and LFP for decoding behavioral variables has been explored previously, this study investigates the utility of spike-band subthreshold activity exclusively. We provide evidence suggesting that this activity can be used to keep decoding performance at acceptable levels even when SUA quality is reduced over time. To the best of our knowledge, the signals that we derive from the subthreshold activity may be the weakest neural signals that have ever been extracted from extracellular neural recordings, while still being decodable with test set accuracy of up to 100%. These results are relevant for the development of fully data-driven and automated methods for amplitude thresholding spike-band extracellular neural recordings in iBCIs containing thousands of electrodes.

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解码尖峰带阈下运动皮层活动。

皮层内脑机接口(iBCI)使用单单位活动(SUA)、多单位活动(MUA)和局部场电位(LFP)来控制神经假体装置。通常通过幅度阈值法从带通记录中提取SUA和MUA，而忽略亚阈值数据。在这里，我们展示了亚阈值数据实际上可以被解码，以确定行为变量，测试集的准确率高达100%。虽然SUA, MUA和LFP在解码行为变量方面的效用已经被探索过，但本研究只研究了尖峰带阈下活动的效用。我们提供的证据表明，即使SUA质量随着时间的推移而降低，该活动也可以用于将解码性能保持在可接受的水平。据我们所知，我们从阈下活动中获得的信号可能是迄今为止从细胞外神经记录中提取的最弱的神经信号，同时仍然可以解码，测试集的准确率高达100%。这些结果与开发完全数据驱动和自动化的方法有关，用于在包含数千个电极的ibci中进行幅度阈值峰值带细胞外神经记录。

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

Journal of Motor Behavior 医学-神经科学

CiteScore

3.10

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Motor Behavior, a multidisciplinary journal of movement neuroscience, publishes articles that contribute to a basic understanding of motor control. Articles from different disciplinary perspectives and levels of analysis are encouraged, including neurophysiological, biomechanical, electrophysiological, psychological, mathematical and physical, and clinical approaches. Applied studies are acceptable only to the extent that they provide a significant contribution to a basic issue in motor control. Of special interest to the journal are those articles that attempt to bridge insights from different disciplinary perspectives to infer processes underlying motor control. Those approaches may embrace postural, locomotive, and manipulative aspects of motor functions, as well as coordination of speech articulators and eye movements. Articles dealing with analytical techniques and mathematical modeling are welcome.