Research on Application Protocols of Motor Imagery-Based Brain-Computer Interface for Post-Stroke Functional Rehabilitation

Research on Application Protocols of Motor Imagery-Based Brain-Computer Interface for Post-Stroke Functional Rehabilitation

Brain-Computer Interface (BCI) constitutes an external interactive control system that bypasses the peripheral neuromuscular system,establishing direct communication pathways for cortical outputs. In recent years,it has garnered significant attention within the field of neurorehabilitation. Motor Im...

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Main Authors: Jiang Shanshan, QIU Zhiqing, YOU Tingting, FU Xinyu, CHEN Guanzhou, LI Haoda, LIANG Boyuan, YU Jiani, OU Haining
Format: Article
Language:English
Published: Editorial Office of Rehabilitation Medicine 2025-01-01
Series:康复学报
Subjects:
stroke
neurological dysfunction
neurorehabilitation
brain-computer interface
motor imagery
application protocol
Online Access:http://kfxb.publish.founderss.cn/thesisDetails?columnId=85705227&Fpath=home&index=0
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author Jiang Shanshan
QIU Zhiqing
YOU Tingting
FU Xinyu
CHEN Guanzhou
LI Haoda
LIANG Boyuan
YU Jiani
OU Haining
author_facet Jiang Shanshan
QIU Zhiqing
YOU Tingting
FU Xinyu
CHEN Guanzhou
LI Haoda
LIANG Boyuan
YU Jiani
OU Haining
author_sort Jiang Shanshan
collection DOAJ
description Brain-Computer Interface (BCI) constitutes an external interactive control system that bypasses the peripheral neuromuscular system,establishing direct communication pathways for cortical outputs. In recent years,it has garnered significant attention within the field of neurorehabilitation. Motor Imagery-based BCI (MI-BCI) has demonstrated promising therapeutic potentials in post-stroke rehabilitation for motor,cognitive,and swallowing dysfunction. However,the absence of standardized application protocols for MI-BCI in addressing post-stroke disabilities substantially constrains its therapeutic efficacy and clinical implementation. This review synthesizes existing application protocols of MI-BCI in rehabilitating upper/limb motor dysfunction,cognitive impairment,and dysphagia post-stroke,with a focused analysis on critical parameters—including treatment frequency,total intervention duration,and single-session time—and their impacts on recovery outcomes. Additionally,non-invasive adjunctive interventions (e. g. ,visual/auditory feedback,proprioceptive/tactile feedback,virtual reality (VR),and non-invasive brain stimulation techniques) to enhance MI-BCI efficacy are examined. Current challenges include heterogeneous parameter configurations for key therapeutic variables and technical limitations in protocol standardization. Optimizing application protocols may resolve efficacy discrepancies in MI-BCI systems,improve procedural consistency,and enhance clinical reliability,thereby informing evidence-based practices for MI-BCI in stroke rehabilitation.
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publisher Editorial Office of Rehabilitation Medicine
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series 康复学报
spelling doaj-art-7341db22f0fa4f088ededd0a0c34b4192025-08-20T01:57:39ZengEditorial Office of Rehabilitation Medicine康复学报2096-03282025-01-011985705227Research on Application Protocols of Motor Imagery-Based Brain-Computer Interface for Post-Stroke Functional RehabilitationJiang ShanshanQIU ZhiqingYOU TingtingFU XinyuCHEN GuanzhouLI HaodaLIANG BoyuanYU JianiOU HainingBrain-Computer Interface (BCI) constitutes an external interactive control system that bypasses the peripheral neuromuscular system,establishing direct communication pathways for cortical outputs. In recent years,it has garnered significant attention within the field of neurorehabilitation. Motor Imagery-based BCI (MI-BCI) has demonstrated promising therapeutic potentials in post-stroke rehabilitation for motor,cognitive,and swallowing dysfunction. However,the absence of standardized application protocols for MI-BCI in addressing post-stroke disabilities substantially constrains its therapeutic efficacy and clinical implementation. This review synthesizes existing application protocols of MI-BCI in rehabilitating upper/limb motor dysfunction,cognitive impairment,and dysphagia post-stroke,with a focused analysis on critical parameters—including treatment frequency,total intervention duration,and single-session time—and their impacts on recovery outcomes. Additionally,non-invasive adjunctive interventions (e. g. ,visual/auditory feedback,proprioceptive/tactile feedback,virtual reality (VR),and non-invasive brain stimulation techniques) to enhance MI-BCI efficacy are examined. Current challenges include heterogeneous parameter configurations for key therapeutic variables and technical limitations in protocol standardization. Optimizing application protocols may resolve efficacy discrepancies in MI-BCI systems,improve procedural consistency,and enhance clinical reliability,thereby informing evidence-based practices for MI-BCI in stroke rehabilitation.http://kfxb.publish.founderss.cn/thesisDetails?columnId=85705227&Fpath=home&index=0strokeneurological dysfunctionneurorehabilitationbrain-computer interfacemotor imageryapplication protocol
spellingShingle Jiang Shanshan
QIU Zhiqing
YOU Tingting
FU Xinyu
CHEN Guanzhou
LI Haoda
LIANG Boyuan
YU Jiani
OU Haining
Research on Application Protocols of Motor Imagery-Based Brain-Computer Interface for Post-Stroke Functional Rehabilitation
康复学报
stroke
neurological dysfunction
neurorehabilitation
brain-computer interface
motor imagery
application protocol
title Research on Application Protocols of Motor Imagery-Based Brain-Computer Interface for Post-Stroke Functional Rehabilitation
title_full Research on Application Protocols of Motor Imagery-Based Brain-Computer Interface for Post-Stroke Functional Rehabilitation
title_fullStr Research on Application Protocols of Motor Imagery-Based Brain-Computer Interface for Post-Stroke Functional Rehabilitation
title_full_unstemmed Research on Application Protocols of Motor Imagery-Based Brain-Computer Interface for Post-Stroke Functional Rehabilitation
title_short Research on Application Protocols of Motor Imagery-Based Brain-Computer Interface for Post-Stroke Functional Rehabilitation
title_sort research on application protocols of motor imagery based brain computer interface for post stroke functional rehabilitation
topic stroke
neurological dysfunction
neurorehabilitation
brain-computer interface
motor imagery
application protocol
url http://kfxb.publish.founderss.cn/thesisDetails?columnId=85705227&Fpath=home&index=0
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AT youtingting researchonapplicationprotocolsofmotorimagerybasedbraincomputerinterfaceforpoststrokefunctionalrehabilitation
AT fuxinyu researchonapplicationprotocolsofmotorimagerybasedbraincomputerinterfaceforpoststrokefunctionalrehabilitation
AT chenguanzhou researchonapplicationprotocolsofmotorimagerybasedbraincomputerinterfaceforpoststrokefunctionalrehabilitation
AT lihaoda researchonapplicationprotocolsofmotorimagerybasedbraincomputerinterfaceforpoststrokefunctionalrehabilitation
AT liangboyuan researchonapplicationprotocolsofmotorimagerybasedbraincomputerinterfaceforpoststrokefunctionalrehabilitation
AT yujiani researchonapplicationprotocolsofmotorimagerybasedbraincomputerinterfaceforpoststrokefunctionalrehabilitation
AT ouhaining researchonapplicationprotocolsofmotorimagerybasedbraincomputerinterfaceforpoststrokefunctionalrehabilitation

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