脑-机接口
康复
运动表象
物理医学与康复
冲程(发动机)
医学
节奏
神经可塑性
干预(咨询)
脑电图
物理疗法
机械工程
精神科
内科学
工程类
作者
Sagila K. Gangadharan,Subasree Ramakrishnan,Andrew Paek,Akshay Sujatha Ravindran,A. P. Vinod,José L. Contreras-Vidal
标识
DOI:10.4103/aian.aian_1056_23
摘要
Abstract Objective: Motor imagery-based brain–computer interface (MI-BCI) is a promising novel mode of stroke rehabilitation. The current study aims to investigate the feasibility of MI-BCI in upper limb rehabilitation of chronic stroke survivors and also to study the early event-related desynchronization after MI-BCI intervention. Methods: Changes in the characteristics of sensorimotor rhythm modulations in response to a short brain–computer interface (BCI) intervention for upper limb rehabilitation of stroke-disabled hand and normal hand were examined. The participants were trained to modulate their brain rhythms through motor imagery or execution during calibration, and they played a virtual marble game during the feedback session, where the movement of the marble was controlled by their sensorimotor rhythm. Results: Ipsilesional and contralesional activities were observed in the brain during the upper limb rehabilitation using BCI intervention. All the participants were able to successfully control the position of the virtual marble using their sensorimotor rhythm. Conclusions: The preliminary results support the feasibility of BCI in upper limb rehabilitation and unveil the capability of MI-BCI as a promising medical intervention. This study provides a strong platform for clinicians to build upon new strategies for stroke rehabilitation by integrating MI-BCI with various therapeutic options to induce neural plasticity and recovery.
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