Neurological rehabilitation of stroke patients via motor imaginary-based brain-computer interface technology

被引:0
|
作者
Hongyu Sun1
机构
来源
NeuralRegenerationResearch | 2011年 / 6卷 / 28期
基金
中国国家自然科学基金;
关键词
brain-computer interface; motor cortex; neuronal plasticity; rehabilitation; stroke; neural regeneration;
D O I
暂无
中图分类号
R743.3 [急性脑血管疾病(中风)];
学科分类号
1002 ;
摘要
The present study utilized motor imaginary-based brain-computer interface technology combined with rehabilitation training in 20 stroke patients.Results from the Berg Balance Scale and the Holden Walking Classification were significantly greater at 4 weeks after treatment (P < 0.01),which suggested that motor imaginary-based brain-computer interface technology improved balance and walking in stroke patients.
引用
收藏
页码:2198 / 2202
页数:5
相关论文
共 50 条
  • [1] Neurological rehabilitation of stroke patients via motor imaginary-based brain-computer interface technology
    Sun, Hongyu
    Xiang, Yang
    Yang, Mingdao
    NEURAL REGENERATION RESEARCH, 2011, 6 (28) : 2198 - 2202
  • [2] Brain-computer interface in stroke rehabilitation
    Ang, Kai Keng
    Guan, Cuntai
    Journal of Computing Science and Engineering, 2013, 7 (02) : 139 - 146
  • [3] High Classification Accuracy of a Motor Imagery Based Brain-Computer Interface for Stroke Rehabilitation Training
    Irimia, Danut C.
    Oliner, Rupert
    Poboroniuc, Marian S.
    Ignat, Bogdan E.
    Guger, Christoph
    FRONTIERS IN ROBOTICS AND AI, 2018, 5
  • [4] Channel selection in motor imaginary-based brain-computer interfaces: a particle swarm optimization algorithm
    Zhang, Lei
    Wei, Qingguo
    JOURNAL OF INTEGRATIVE NEUROSCIENCE, 2019, 18 (02) : 141 - 152
  • [5] Brain-Computer Interface Based Stroke Rehabilitation For Hemiplegia
    Triponyuwasin, Preechapawan
    Wongsawat, Yodchanan
    2014 7TH BIOMEDICAL ENGINEERING INTERNATIONAL CONFERENCE (BMEICON), 2014,
  • [6] A Randomized Controlled Trial of EEG-Based Motor Imagery Brain-Computer Interface Robotic Rehabilitation for Stroke
    Ang, Kai Keng
    Chua, Karen Sui Geok
    Phua, Kok Soon
    Wang, Chuanchu
    Chin, Zheng Yang
    Kuah, Christopher Wee Keong
    Low, Wilson
    Guan, Cuntai
    CLINICAL EEG AND NEUROSCIENCE, 2015, 46 (04) : 310 - 320
  • [7] Brain-computer interface treatment for gait rehabilitation in stroke patients
    Sebastian-Romagosa, Marc
    Cho, Woosang
    Ortner, Rupert
    Sieghartsleitner, Sebastian
    Von Oertzen, Tim J.
    Kamada, Kyousuke
    Laureys, Steven
    Allison, Brendan Z.
    Guger, Christoph
    FRONTIERS IN NEUROSCIENCE, 2023, 17
  • [8] Neurophysiological substrates of stroke patients with motor imagery-based brain-computer interface training
    Li, Mingfen
    Liu, Ye
    Wu, Yi
    Liu, Sirao
    Jia, Jie
    Zhang, Liqing
    INTERNATIONAL JOURNAL OF NEUROSCIENCE, 2014, 124 (06) : 403 - 415
  • [9] Brain-Computer Interface-Driven Functional Electrical Stimulation for Motor Rehabilitation following Stroke
    Krueger, Johanna
    Reichert, Christoph
    Duerschmid, Stefan
    Krauth, Richard
    Vogt, Susanne
    Huchtemann, Tessa
    Lindquist, Sabine
    Lamprecht, Juliane
    Sailer, Michael
    Heinze, Hans-Jochen
    Hinrichs, Hermann
    Sweeney-Reed, Catherine M.
    KLINISCHE NEUROPHYSIOLOGIE, 2020, 51 (03) : 144 - 155
  • [10] Brain-computer interface robotics for hand rehabilitation after stroke: a systematic review
    Baniqued, Paul Dominick E.
    Stanyer, Emily C.
    Awais, Muhammad
    Alazmani, Ali
    Jackson, Andrew E.
    Mon-Williams, Mark A.
    Mushtaq, Faisal
    Holt, Raymond J.
    JOURNAL OF NEUROENGINEERING AND REHABILITATION, 2021, 18 (01)
12345