通过电触觉刺激实现假手腕的替代性本体感觉反馈。

Substitutive proprioception feedback of a prosthetic wrist by electrotactile stimulation.

作者信息

Han Yichen, Lu Yinping, Zuo Yufeng, Song Hongliang, Chou Chih-Hong, Wang Xing, Li Xiangxin, Li Lei, Niu Chuanxin M, Hou Wensheng

机构信息

Biomedical Engineering Department, Bioengineering College, Chongqing University, Chongqing, China.

Laboratory of Neurorehabilitation Engineering, School of Biomedical Engineering, Shanghai Jiao Tong University, Shanghai, China.

出版信息

Front Neurosci. 2023 Feb 21;17:1135687. doi: 10.3389/fnins.2023.1135687. eCollection 2023.

DOI:10.3389/fnins.2023.1135687

PMID:36895418

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9989268/

Abstract

OBJECTIVE

Sensory feedback of upper-limb prostheses is widely desired and studied. As important components of proprioception, position, and movement feedback help users to control prostheses better. Among various feedback methods, electrotactile stimulation is a potential method for coding proprioceptive information of a prosthesis. This study was motivated by the need for proprioception information for a prosthetic wrist. The flexion-extension (FE) position and movement information of the prosthetic wrist are transmitted back to the human body through multichannel electrotactile stimulation.

APPROACH

We developed an electrotactile scheme to encode the FE position and movement of the prosthetic wrist and designed an integrated experimental platform. A preliminary experiment on the sensory threshold and discomfort threshold was performed. Then, two proprioceptive feedback experiments were performed: a position sense experiment (Exp 1) and a movement sense experiment (Exp 2). Each experiment included a learning session and a test session. The success rate (SR) and discrimination reaction time (DRT) were analyzed to evaluate the recognition effect. The acceptance of the electrotactile scheme was evaluated by a questionnaire.

MAIN RESULTS

Our results showed that the average position SRs of five able-bodied subjects, amputee 1, and amputee 2 were 83.78, 97.78, and 84.44%, respectively. The average movement SR, and the direction and range SR of wrist movement in five able-bodied subjects were 76.25, 96.67%, respectively. Amputee 1 and amputee 2 had movement SRs of 87.78 and 90.00% and direction and range SRs of 64.58 and 77.08%, respectively. The average DRT of five able-bodied subjects was less than 1.5 s and that of amputees was less than 3.5 s.

CONCLUSION

The results indicate that after a short period of learning, the subjects can sense the position and movement of wrist FE. The proposed substitutive scheme has the potential for amputees to sense a prosthetic wrist, thus enhancing the human-machine interaction.

摘要

目的

上肢假肢的感觉反馈是人们广泛期望和研究的。作为本体感觉的重要组成部分，位置和运动反馈有助于用户更好地控制假肢。在各种反馈方法中，电触觉刺激是一种编码假肢本体感觉信息的潜在方法。本研究的动机是为假肢手腕提供本体感觉信息的需求。假肢手腕的屈伸（FE）位置和运动信息通过多通道电触觉刺激传输回人体。

方法

我们开发了一种电触觉方案来编码假肢手腕的FE位置和运动，并设计了一个集成实验平台。进行了关于感觉阈值和不适阈值的初步实验。然后，进行了两个本体感觉反馈实验：位置感觉实验（实验1）和运动感觉实验（实验2）。每个实验都包括一个学习阶段和一个测试阶段。分析成功率（SR）和辨别反应时间（DRT）以评估识别效果。通过问卷调查评估电触觉方案的可接受性。

主要结果

我们的结果表明，五名健全受试者、截肢者1和截肢者2的平均位置SR分别为83.78%、97.78%和84.44%。五名健全受试者手腕运动的平均运动SR、方向和范围SR分别为76.25%、96.67%。截肢者1和截肢者2的运动SR分别为87.78%和90.00%，方向和范围SR分别为64.58%和77.08%。五名健全受试者的平均DRT小于1.5秒，截肢者的平均DRT小于3.5秒。

结论

结果表明，经过短时间的学习，受试者能够感知手腕FE的位置和运动。所提出的替代方案有可能使截肢者感知假肢手腕，从而增强人机交互。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a0de/9989268/8a806a0a41e2/fnins-17-1135687-g001.jpg

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通过电触觉刺激实现假手腕的替代性本体感觉反馈。

Substitutive proprioception feedback of a prosthetic wrist by electrotactile stimulation.

作者信息

机构信息

出版信息

OBJECTIVE

APPROACH

MAIN RESULTS

CONCLUSION

目的

方法

主要结果

结论

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