Neurological rehabilitation of stroke patients via motor imaginary-based brain-computer interface technology
Neurological rehabilitation of stroke patients via motor imaginary-based brain-computer interface technology
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.
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.
基金
the National Natural Science Foundation of China,No.60970062
the Shanghai Pujiang Program,No.09PJ1410200
参考文献25
-
1Sims NR,Muyderman H.Mitochondria,oxidative metabolism and cell death in stroke.Biochim Biophys Acta.2010;1802(1):80-91.
-
2Donnan GA,Fisher M,Macleod M,et al.Stroke.Lancet.2008; 371(9624):1612-1623.
-
3Janis JD,Jonathan RW.Brain-computer interfaces in neurological rehabilitation.Lancet Neurol.2008;7(11):1032-1043.
-
4Pfurtscheller G,Guger C,Müller G,et al.Brain oscillations control hand orthosis in a tetraplegic.Neurosci Lett.2000;292(3):211-214.
-
5Kübler A,Birbaumer N.Brain-computer interfaces and communication in paralysis:extinction of goal directed thinking in completely paralysed patients? Clin Neurophysiol.2008;119(11):2658-2666.
-
6Nudo RJ.Mechanisms for recovery of motor function following cortical damage.Curr Opin Neurobiol.2006;16(6):638-644.
-
7Wolpaw JR,Tennissen AM.Activity-dependent spinal cord plasticity in health and disease.Annu Rev Neurosci.2001;24:807-843.
-
8Ziemann U,Ilic TV,Pauli C,et al.Learning modi?es subsequent induction of long-term potentiation-like and long-term depression-like plasticity in human motor cortex.J Neurosci.2004; 24(7):1666-1672.
-
9Li S,Carmichael ST.Growth-associated gene and protein expression in the region of axonal sprouting in the aged brain after stroke.Neurobiol Dis.2006;23(2):362-373.
-
10Cramer SC,Shah R,Juranek J,et al.Activity in the peri-infarct rim in relation to recovery from stroke.Stroke.2006;37(1):111-115.
-
1天津大学“纯意念控制”人工神经康复机器人问世[J].中国校外教育,2014(6):172-172.
-
2王斐,张育中,宁廷会,闻时光.脑-机接口研究进展[J].智能系统学报,2011,6(3):189-199. 被引量:15
-
3董大庆.基于USB2.0协议的神经康复采集系统的设计[J].临床医学工程,2013,20(5):527-528.
-
4方慧娟,王永骥,何际平,刘珊.基于多类最小二乘支持向量机的神经元信号识别[J].计算技术与自动化,2007,26(4):45-48.
-
5Wei-dong CHEN Jian-hui ZHANG Ji-cai ZHANG Yi LI Yu QI Yu SU Bian WU Shao-min ZHANG Jian-hua DAI Xiao-xiang ZHENG Dong-rong XU.A P300 based online brain-computer interface system for virtual hand control[J].Journal of Zhejiang University-Science C(Computers and Electronics),2010,11(8):587-597. 被引量:3
-
6冯国梧.“纯意念控制”人工神经康复机器人问世[J].科技致富向导,2014(18):6-6.
-
7Hong-Sheng Du Jing-Jian Ma MU Li.High-quality Health Information Provision for Stroke Patients[J].Chinese Medical Journal,2016(17):2115-2122. 被引量:1
-
8张永德,刘廷荣,李华敏.Imaginary displacement method for analysis of multi-fingered robot hands grasping stability[J].Journal of Harbin Institute of Technology(New Series),1999,6(4):24-29.
-
9大脑到大脑之间的通信[J].中学科技,2010(2):20-20.
-
10Yu SU Yu QI Jian-xun LUO Bian WU Fan YANG Yi LI Yue-ting ZHUANG Xiao-xiang ZHENG Wei-dong CHEN.A hybrid brain-computer interface control strategy in a virtual environment[J].Journal of Zhejiang University-Science C(Computers and Electronics),2011,12(5):351-361. 被引量:2
