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新型上肢康复机器人支持的双手协调训练的验证:一项近红外光谱研究。

Validation of bimanual-coordinated training supported by a new upper-limb rehabilitation robot: a near-infrared spectroscopy study.

作者信息

Li Chunguang, Inoue Yoshio, Liu Tao, Sun Lining

机构信息

Robotics and Microsystems Center, Soochow University, Suzhou, China.

出版信息

Disabil Rehabil Assist Technol. 2013 Jan;8(1):38-48. doi: 10.3109/17483107.2012.671439. Epub 2012 Apr 3.

DOI:10.3109/17483107.2012.671439
PMID:22471649
Abstract

PURPOSE

Our previous work proposed a rehabilitation robot to support bimanual-coordinated training not only in active-assisted and passive-driven modes but also in active-resisted mode. However, assessment of training effect was only focused on the improvements of subjects' motion-tracking precisions. This paper presents an evaluation strategy based on variations in both cerebral activation level (CAL) and motion-tracking precision.

METHOD

Fourteen healthy subjects participated in motion-tracking training in bimanual active-assisted and active-resisted modes, and in single right-limb and left-limb modes, with haemoglobin concentration and motion-tracking errors being measured simultaneously. Analyses of variance (ANOVA) of the CAL and motion-tracking errors were performed to investigate bimanual training effect and the difference between bimanual and single-limb trainings in activating the brain.

RESULTS

In the bimanual modes, both the CAL and motion-tracking precision significantly increased after training. And the CAL induced in the bimanual trainings were significantly greater than in the single-limb trainings.

CONCLUSIONS

Significant enhancement of the CAL and motion-tracking precision confirmed a positive training effect on enhancing the bimanual-coordination capability of healthy subjects. Compared to the single-limb modes, the higher CAL in the bimanual modes demonstrated the potential of the proposed bimanual training for improving the functional integrity of the two hemispheres.

摘要

目的

我们之前的工作提出了一种康复机器人,以支持双手协调训练,不仅包括主动辅助和被动驱动模式,还包括主动抗阻模式。然而,训练效果评估仅关注受试者运动跟踪精度的提高。本文提出了一种基于大脑激活水平(CAL)和运动跟踪精度变化的评估策略。

方法

14名健康受试者参与了双手主动辅助和主动抗阻模式以及单右肢和左肢模式下的运动跟踪训练,同时测量血红蛋白浓度和运动跟踪误差。对CAL和运动跟踪误差进行方差分析(ANOVA),以研究双手训练效果以及双手训练和单肢训练在激活大脑方面的差异。

结果

在双手模式下,训练后CAL和运动跟踪精度均显著提高。并且双手训练诱导的CAL显著大于单肢训练。

结论

CAL和运动跟踪精度的显著提高证实了对健康受试者双手协调能力增强的积极训练效果。与单肢模式相比,双手模式下较高的CAL表明所提出的双手训练在改善两个半球功能完整性方面的潜力。

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