第12届年度脑深部电刺激智囊团会议论文集：前沿技术与新应用

Proceedings of the 12th annual deep brain stimulation think tank: cutting edge technology meets novel applications.

作者信息

Martinez-Nunez Alfonso Enrique, Rozell Christopher J, Little Simon, Tan Huiling, Schmidt Stephen L, Grill Warren M, Pajic Miroslav, Turner Dennis A, de Hemptinne Coralie, Machado Andre, Schiff Nicholas, Holt-Becker Abbey S, Raike Robert S, Malekmohammadi Mahsa, Pathak Yagna J, Himes Lyndahl, Greene David, Krinke Lothar, Arlotti Mattia, Rossi Lorenzo, Robinson Jacob, Bahners Bahne H, Litvak Vladimir, Milosevic Luka, Ghatan Saadi, Schaper Frederic L W V J, Fox Michael D, Gregg Nicholas M, Kubu Cynthia, Jordano James J, Cascella Nicola G, Nho YoungHoon, Halpern Casey H, Mayberg Helen S, Choi Ki Sueng, Song Haneul, Cha Jungho, Alagapan Sankar, Dosenbach Nico U F, Gordon Evan M, Ren Jianxun, Liu Hesheng, Kalia Lorraine V, Kusyk Dorian, Ramirez-Zamora Adolfo, Foote Kelly D, Okun Michael S, Wong Joshua K

机构信息

Norman Fixel Institute for Neurological Diseases, University of Florida, Gainesville, FL, United States.

School of Electrical and Computer Engineering, Georgia Institute of Technology, Atlanta, GA, United States.

出版信息

Front Hum Neurosci. 2025 Feb 25;19:1544994. doi: 10.3389/fnhum.2025.1544994. eCollection 2025.

DOI:10.3389/fnhum.2025.1544994

PMID:40070487

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11893992/

Abstract

The Deep Brain Stimulation (DBS) Think Tank XII was held on August 21st to 23rd. This year we showcased groundbreaking advancements in neuromodulation technology, focusing heavily on the novel uses of existing technology as well as next-generation technology. Our keynote speaker shared the vision of using neuro artificial intelligence to predict depression using brain electrophysiology. Innovative applications are currently being explored in stroke, disorders of consciousness, and sleep, while established treatments for movement disorders like Parkinson's disease are being refined with adaptive stimulation. Neuromodulation is solidifying its role in treating psychiatric disorders such as depression and obsessive-compulsive disorder, particularly for patients with treatment-resistant symptoms. We estimate that 300,000 leads have been implanted to date for neurologic and neuropsychiatric indications. Magnetoencephalography has provided insights into the post-DBS physiological changes. The field is also critically examining the ethical implications of implants, considering the long-term impacts on clinicians, patients, and manufacturers.

摘要

深部脑刺激（DBS）智囊团第十二届会议于8月21日至23日举行。今年，我们展示了神经调节技术的突破性进展，重点关注现有技术的新用途以及下一代技术。我们的主旨演讲者分享了利用神经人工智能通过脑电生理学预测抑郁症的愿景。目前正在探索中风、意识障碍和睡眠方面的创新应用，同时针对帕金森病等运动障碍的现有治疗方法正在通过适应性刺激进行改进。神经调节在治疗抑郁症和强迫症等精神疾病方面的作用正在巩固，特别是对于有治疗抵抗症状的患者。据我们估计，迄今为止，已为神经和神经精神适应症植入了30万根电极。脑磁图已为DBS后的生理变化提供了见解。该领域也在严格审查植入物的伦理影响，考虑其对临床医生、患者和制造商的长期影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7b14/11893992/81aee066b473/fnhum-19-1544994-g001.jpg

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第12届年度脑深部电刺激智囊团会议论文集：前沿技术与新应用

Proceedings of the 12th annual deep brain stimulation think tank: cutting edge technology meets novel applications.

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