用于实时癫痫发作检测与控制的闭环脑机接口。

A closed-loop brain computer interface for real-time seizure detection and control.

作者信息

Liang Sheng-Fu, Shaw Fu-Zen, Young Chung-Ping, Chang Da-Wei, Liao Yi-Cheng

机构信息

Department of Computer Science and Information Engineering & the Institute of Medical Informatics, National Cheng Kung University, Tainan 701, Taiwan.

出版信息

Annu Int Conf IEEE Eng Med Biol Soc. 2010;2010:4950-3. doi: 10.1109/IEMBS.2010.5627243.

DOI:10.1109/IEMBS.2010.5627243

PMID:21096670

Abstract

The worldwide prevalence of epilepsy is approximately 1%, and 25% of epilepsy patients cannot be treated sufficiently by available therapies. Brain stimulation with closed-loop seizure control has recently been proposed as an innovative and effective alternative. In this paper, a portable closed-loop brain computer interface for seizure control was developed and shown with several aspects of advantages, including high seizure detection rate (92-99% during wake-sleep states), low false detection rate (1.2-2.5%), and small size. The seizure detection and electrical stimulation latency was not greater than 0.6 s after seizure onset. A wireless communication feature also provided flexibility for subjects freeing from the hassle of wires. Experimental data from freely moving rats supported the functional possibility of a real-time closed-loop seizure controller.

摘要

癫痫在全球的患病率约为1%，且25%的癫痫患者无法通过现有疗法得到充分治疗。最近，闭环癫痫控制的脑刺激被提议作为一种创新且有效的替代方法。在本文中，研发了一种用于癫痫控制的便携式闭环脑机接口，并展示了其在多个方面的优势，包括高癫痫检测率（清醒 - 睡眠状态下为92 - 99%）、低误检率（1.2 - 2.5%）和小尺寸。癫痫发作检测和电刺激潜伏期在发作开始后不大于0.6秒。无线通信功能也为受试者提供了灵活性，使其摆脱了线缆的困扰。自由活动大鼠的实验数据支持了实时闭环癫痫控制器的功能可能性。

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用于实时癫痫发作检测与控制的闭环脑机接口。

A closed-loop brain computer interface for real-time seizure detection and control.

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