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Mechanism of Kinect-based virtual reality training for motor functional recovery of upper limbs after subacute stroke 被引量:15
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作者 Xiao Bao Yurong Mao +6 位作者 Qiang Lin yunhai qiu Shaozhen Chen Le Li Ryan S.Cates Shufeng Zhou Dongfeng Huang 《Neural Regeneration Research》 SCIE CAS CSCD 2013年第31期2904-2913,共10页
The Kinect-based virtual reality system for the Xbox 360 enables users to control and interact with the game console without the need to touch a game controller, and provides rehabilitation training for stroke patient... The Kinect-based virtual reality system for the Xbox 360 enables users to control and interact with the game console without the need to touch a game controller, and provides rehabilitation training for stroke patients with lower limb dysfunctions. However, the underlying mechanism remains un- clear. In this study, 18 healthy subjects and five patients after subacute stroke were included. The five patients were scanned using functional MRI prior to training, 3 weeks after training and at a 12-week follow-up, and then compared with healthy subjects. The FugI-Meyer Assessment and Wolf Motor Function Test scores of the hemiplegic upper limbs of stroke patients were significantly increased 3 weeks after training and at the 12-week follow-up. Functional MRI results showed that contralateral primary sensorimotor cortex was activated after Kinect-based virtual reality training in the stroke patients compared with the healthy subjects. Contralateral primary sensorimotor cortex, the bilateral supplementary motor area and the ipsilateral cerebellum were also activated during hand-clenching in all 18 healthy subjects. Our findings indicate that Kinect-based virtual reality training could promote the recovery of upper limb motor function in subacute stroke patients, and brain reorganization by Kinect-based virtual reality training may be linked to the contralateral sen- sorimotor cortex. 展开更多
关键词 neural regeneration neurological rehabilitation rehabilitation training neural plasticity virtual reality functional MRI stroke Kinect-based virtual reality training upper limb cerebral cortex brain activation region of interest grants-supported paper NEUROREGENERATION
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