头皮下脑电图：研究人类神经生理学的下一代技术。

Sub-scalp electroencephalography: A next-generation technique to study human neurophysiology.

机构信息

Department of Neurology, Baylor College of Medicine, Houston, TX 77030, USA.

Department of Electrical and Computer Engineering, Rice University, Houston, TX 77005, USA.

出版信息

Clin Neurophysiol. 2022 Sep;141:77-87. doi: 10.1016/j.clinph.2022.07.003. Epub 2022 Jul 18.

DOI:10.1016/j.clinph.2022.07.003

PMID:35907381

Abstract

Sub-scalp electroencephalography (ssEEG) is emerging as a promising technology in ultra-long-term electroencephalography (EEG) recordings. Given the diversity of devices available in this nascent field, uncertainty persists about its utility in epilepsy evaluation. This review critically dissects the many proposed utilities of ssEEG devices including (1) seizure quantification, (2) seizure characterization, (3) seizure lateralization, (4) seizure localization, (5) seizure alarms, (6) seizure forecasting, (7) biomarker discovery, (8) sleep medicine, and (9) responsive stimulation. The different ssEEG devices in development have individual design philosophies with unique strengths and limitations. There are devices offering primarily unilateral recordings (24/7 EEG SubQ, Neuroview, Soenia® UltimateEEG™), bilateral recordings (Minder™, Epios™), and even those with responsive stimulation capability (EASEE®). We synthesize the current knowledge of these ssEEG systems. We review the (1) ssEEG devices, (2) use case scenarios, (3) challenges and (4) suggest a roadmap for ideal ssEEG designs.

摘要

头皮下脑电图 (ssEEG) 作为一种新兴的超长期脑电图 (EEG) 记录技术正在出现。鉴于该新兴领域中可用的设备种类繁多，对于其在癫痫评估中的应用仍然存在不确定性。本综述批判性地剖析了 ssEEG 设备的许多提议用途，包括 (1) 癫痫发作定量，(2) 癫痫发作特征，(3) 癫痫发作侧化，(4) 癫痫发作定位，(5) 癫痫发作警报，(6) 癫痫发作预测，(7) 生物标志物发现，(8) 睡眠医学和 (9) 反应性刺激。正在开发的不同 ssEEG 设备具有独特的设计理念，具有独特的优势和局限性。有主要提供单侧记录的设备（24/7 EEG SubQ、Neuroview、Soenia® UltimateEEG™），有双侧记录的设备（Minder™、Epios™），甚至还有具有反应性刺激能力的设备（EASEE®）。我们综合了这些 ssEEG 系统的现有知识。我们回顾了 (1) ssEEG 设备，(2) 用例场景，(3) 挑战和 (4) 为理想的 ssEEG 设计提出了路线图。

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头皮下脑电图：研究人类神经生理学的下一代技术。

Sub-scalp electroencephalography: A next-generation technique to study human neurophysiology.

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