磁刺激
CTB公司
神经可塑性
神经科学
脑-机接口
物理医学与康复
医学
运动皮层
脑刺激
脑电图
刺激
康复
电动机控制
计算机科学
初级运动皮层
心理学
多发性硬化
运动区
电动机系统
刺激(心理学)
接口(物质)
神经生理学
生物医学工程
作者
Yurui Tang,Yuchun Wang,Weiqiang Zhang,Xiaohui Liu,Yang Li,Weimin Hu,Ling Ding,Fanfan Feng,Xianggui Chen,Jianfeng Feng,Shumao Xu,Shugeng Chen,Jing Wang
标识
DOI:10.1038/s44385-025-00055-5
摘要
Stroke often causes persistent upper limb and hand motor dysfunction due to disrupted neural reorganization. To address this, we developed the Magnetic NeuroRing: a portable brain-computer interface integrating real-time electroencephalogram (EEG) with closed-loop continuous theta burst stimulation (cTBS) for adaptive transcranial magnetic stimulation (TMS). A multi-channel EEG array over motor cortical regions (FC3, FC4, CP3, CP4, FT7, FT8, TP7, TP8) detects event-related desynchronization (ERD), indicating motor intent. When ERD/ERS falls below a threshold (ERD/ERS < 0 over five consecutive activations), the system delivers inhibitory cTBS to hyperactive regions, aiming to rebalance stroke-impaired interhemispheric dynamics. The lightweight, patient-specific headgear uses magnetic levitation for precise targeting and EEG-TMS synchronization. In healthy subjects, adaptive cTBS significantly modulated resting-state and task-related neural metrics, aligning with prior large-device findings and demonstrating feasibility for inducing neuroplastic changes. By bridging real-time diagnostics with targeted neuromodulation, the Magnetic NeuroRing enables dynamic, data-driven rehabilitation across clinical and home settings.
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