上肢机器人评估：一项试点研究，比较获得性脑损伤个体与健康对照者的速度依赖性阻力。

Upper limb robotic assessment: Pilot study comparing velocity dependent resistance in individuals with acquired brain injury to healthy controls.

作者信息

Seth Nitin, Johnson Denise, Allen Brian, Abdullah Hussein A

机构信息

College of Physical and Engineering Science, University of Guelph, Guelph, Canada.

Hamilton Health Sciences, Hamilton, Canada.

出版信息

J Rehabil Assist Technol Eng. 2020 Dec 4;7:2055668320929535. doi: 10.1177/2055668320929535. eCollection 2020 Jan-Dec.

DOI:10.1177/2055668320929535

PMID:33329901

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7720336/

Abstract

INTRODUCTION

Assessment of velocity dependent resistance (VDR) can provide insights into spasticity in individuals with upper motor neuron syndrome. This study investigates the relationship between Modified Ashworth scores and a biomechanical based representation of VDR using a rehabilitation robot. Comparisons in VDR are made for the upper limb (UL) between individuals with acquired brain injury and healthy controls for the para-sagittal plane.

METHODS

The system manipulates the individual's limb through five flexion and extension motions at increasing speeds to obtain force profiles at different velocities. An approximation of VDR is calculated and analyzed statistically against clinical scales and tested for interactions.

RESULTS

All individuals (aged 18-65), including healthy controls exhibited VDR greater than 0 (P < 0.05). MAS scores were found to be related to VDR (P < 0.05) with an interaction found between MAS Bicep and Tricep scores (P < 0.01). Considering this interaction, evidence of differences in VDR were found between several neighboring assessment score combinations.

CONCLUSION

The robot can detect and quantify VDR that captures information relevant to UL spasticity. Results suggests a better categorization of VDR is possible and supports further development of rehabilitation robotics for assisting spasticity assessment.

摘要

引言

评估速度依赖性阻力（VDR）有助于深入了解上运动神经元综合征患者的痉挛情况。本研究使用康复机器人，调查改良Ashworth评分与基于生物力学的VDR表示之间的关系。对矢状旁平面上获得性脑损伤患者和健康对照者的上肢（UL）的VDR进行比较。

方法

该系统通过以递增速度进行五次屈伸运动来操纵个体的肢体，以获取不同速度下的力分布。计算VDR的近似值，并根据临床量表进行统计分析，并测试相互作用。

结果

所有个体（年龄在18 - 65岁之间），包括健康对照者，其VDR均大于0（P < 0.05）。发现MAS评分与VDR相关（P < 0.05），且MAS肱二头肌和肱三头肌评分之间存在相互作用（P < 0.01）。考虑到这种相互作用，在几个相邻的评估评分组合之间发现了VDR差异的证据。

结论

该机器人可以检测和量化VDR，VDR能捕捉与上肢痉挛相关的信息。结果表明对VDR进行更好的分类是可能的，并支持进一步开发用于辅助痉挛评估的康复机器人技术。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d3b/7720336/740dbfaa3d1f/10.1177_2055668320929535-fig1.jpg

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上肢机器人评估：一项试点研究，比较获得性脑损伤个体与健康对照者的速度依赖性阻力。

Upper limb robotic assessment: Pilot study comparing velocity dependent resistance in individuals with acquired brain injury to healthy controls.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

引言

方法

结果

结论

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