Active Neural Interface Circuits and Systems for Selective Control of Peripheral Nerves: A Review

Maryam Habibollahi;Dai Jiang;Henry Thomas Lancashire;Andreas Demosthenous
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Abstract

Interfaces with peripheral nerves have been widely developed to enable bioelectronic control of neural activity. Peripheral nerve neuromodulation shows great potential in addressing motor dysfunctions, neurological disorders, and psychiatric conditions. The integration of high-density neural electrodes with stimulation and recording circuits poses a challenge in the design of neural interfaces. Recent advances in active electrode strategies have achieved improved reliability and performance by implementing in-situ control, stimulation, and recording of neural fibers. This paper presents an overview of state-of-the-art neural interface systems that comprise a range of neural electrodes, neurostimulators, and bio-amplifier circuits, with a special focus on interfaces for the peripheral nerves. A discussion on the efficacy of active electrode systems and recommendations for future directions conclude this paper.
用于选择性控制外周神经的主动神经接口电路和系统:综述。
为实现对神经活动的生物电子控制,与周围神经的接口已得到广泛开发。外周神经调控在解决运动功能障碍、神经系统疾病和精神疾病方面显示出巨大的潜力。高密度神经电极与刺激和记录电路的整合给神经接口的设计带来了挑战。有源电极策略的最新进展通过实现神经纤维的原位控制、刺激和记录,提高了可靠性和性能。本文概述了最先进的神经接口系统,包括一系列神经电极、神经刺激器和生物放大器电路,并特别关注外周神经接口。本文最后讨论了有源电极系统的功效,并对未来发展方向提出了建议。
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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