Abidirectional brain-computer interface for effective epilepsy control

Journal of Zhejiang University-Science C-Computers & Electronics Pub Date : 2014-10-01 DOI:10.1631/jzus.C1400152

Yu Qi, Fei-Qiang Ma, Ting-Ting Ge, Y. Wang, Jun-ming Zhu, Jian-min Zhang, Xiaoxiang Zheng, Zhaohui Wu

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引用次数: 3

Abstract

Brain-computer interfaces (BCIs) can provide direct bidirectional communication between the brain and a machine. Recently, the BCI technique has been used in seizure control. Usually, a closed-loop system based on BCI is set up which delivers a therapic electrical stimulus only in response to seizure onsets. In this way, the side effects of neurostimulation can be greatly reduced. In this paper, a new BCI-based responsive stimulation system is proposed. With an efficient morphology-based seizure detector, seizure events can be identified in the early stages which trigger electrical stimulations to be sent to the cortex of the brain. The proposed system was tested on rats with penicillin-induced epileptic seizures. Online experiments show that 83% of the seizures could be detected successfully with a short average time delay of 3.11 s. With the therapy of the BCI-based seizure control system, most seizures were suppressed within 10 s. Compared with the control group, the average seizure duration was reduced by 30.7%. Therefore, the proposed system can control epileptic seizures effectively and has potential in clinical applications.

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双向脑机接口，有效控制癫痫

脑机接口(bci)可以在大脑和机器之间提供直接的双向通信。近年来，脑机接口技术已被用于癫痫发作控制。通常，建立一个基于脑机接口的闭环系统，仅在癫痫发作时提供治疗性电刺激。这样，神经刺激的副作用可以大大减少。本文提出了一种新的基于脑接口的响应刺激系统。利用一种有效的基于形态学的癫痫发作检测器，癫痫发作事件可以在早期阶段被识别出来，从而触发电刺激，并将其发送到大脑皮层。该系统在青霉素诱导的癫痫发作大鼠身上进行了测试。在线实验表明，83%的癫痫发作可以被成功检测到，平均延迟时间很短，为3.11 s。以脑机接口为基础的癫痫控制系统治疗后，大多数癫痫发作在10 s内得到抑制。与对照组相比，平均癫痫发作时间缩短30.7%。因此，该系统能有效控制癫痫发作，具有临床应用潜力。

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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