利用手势识别生物反馈改善脑损伤后的精细运动功能。

Improving fine motor function after brain injury using gesture recognition biofeedback.

作者信息

Yungher Don, Craelius William

机构信息

Department of Biomedical Engineering, Rutgers, the State University of New Jersey, Piscataway, NJ 08901, USA.

出版信息

Disabil Rehabil Assist Technol. 2012 Nov;7(6):464-8. doi: 10.3109/17483107.2011.650782. Epub 2012 Jan 28.

DOI:10.3109/17483107.2011.650782

PMID:22283429

Abstract

PURPOSE

We developed a gesture recognition biofeedback (GRB) device for improving fine motor function in persons with brain injury using surface muscle pressures of the forearm to provide real-time visual biofeedback. The GRB apparatus is easy to don by moderately impaired users and does not require precise placement of sensors.

METHOD

The efficacy of GRB training with each subject was assessed by comparing its effectiveness against standard repetitive training without feedback. The outcome was measured using a nine-hole peg test (HPT) administered before and after each condition, in a cross-over study design.

RESULTS

GRB was shown to be effective for short-term improvement of fine motor function of 12 impaired participants, reducing their average time to completion of the HPT by 15.5% (S.D. 7.14%). In a subset of impaired subjects, this effect was significant in comparison to similar training without biofeedback (p < 0.05). Control subjects experienced negligible change in HPT time.

CONCLUSIONS

This pilot study of a heterogeneous group shows that GRB may offer a simple means to help impaired users re-learn specified manual tasks.

摘要

目的

我们开发了一种手势识别生物反馈（GRB）设备，通过利用前臂表面肌肉压力提供实时视觉生物反馈，来改善脑损伤患者的精细运动功能。GRB装置对于中度功能受损的使用者来说易于穿戴，并且不需要精确放置传感器。

方法

通过将GRB训练与无反馈的标准重复训练的效果进行比较，评估每个受试者GRB训练的疗效。在交叉研究设计中，使用在每种情况前后进行的九孔插板试验（HPT）来测量结果。

结果

结果显示，GRB对于12名功能受损参与者的精细运动功能的短期改善有效，将他们完成HPT的平均时间减少了15.5%（标准差7.14%）。在一部分功能受损的受试者中，与无生物反馈的类似训练相比，这种效果具有显著性（p<0.05）。对照组受试者的HPT时间变化可忽略不计。

结论

这项针对异质性群体的初步研究表明，GRB可能提供一种简单的方法来帮助功能受损的使用者重新学习特定的手动任务。

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利用手势识别生物反馈改善脑损伤后的精细运动功能。

Improving fine motor function after brain injury using gesture recognition biofeedback.

作者信息

机构信息

出版信息

PURPOSE

METHOD

RESULTS

CONCLUSIONS

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结果

结论

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