开发治疗共济失调的腕分离式外骨骼肌电假手。

IF 10.5 Q1 ENGINEERING, BIOMEDICAL Cyborg and bionic systems (Washington, D.C.) Pub Date : 2024-07-15 eCollection Date: 2024-01-01 DOI:10.34133/cbsystems.0141
Yuki Inoue, Yuki Kuroda, Yusuke Yamanoi, Yoshiko Yabuki, Hiroshi Yokoi
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引用次数: 0

摘要

近年来,随着电机越来越小,控制装置越来越先进,肌电假手的功能也得到了改善。人们试图通过增加腕关节的自由度来再现腕关节的旋转和弯曲。然而,由于假肢的重量和尺寸限制,仍然很难完全再现腕关节的功能。在这项研究中,我们开发了一种不会干扰腕关节运动的新型插座和假手控制系统。这样,以前使用固定腕关节假手的手部缺损者就可以自由使用剩余的腕关节功能。在将积木从较高位置移至较低位置的拾放实验中,我们证实,与传统假手相比,拟议的系统可使肘部位置更低,而且搬运的积木数量也有所增加。与使用传统假手相比,这大大减少了肘部的代偿运动,提高了使用者的表现。这项研究表明,新型肌电假手可以利用手部缺陷患者的残余功能,这在过去并没有得到利用,它的实用性和发展方向也是值得肯定的。
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Development of Wrist Separated Exoskeleton Socket of Myoelectric Prosthesis Hand for Symbrachydactyly.

In recent years, the functionality of myoelectric prosthetic hands has improved as motors have become smaller and controls have become more advanced. Attempts have been made to reproduce the rotation and flexion of the wrist by adding degrees of freedom to the wrist joint. However, it is still difficult to fully reproduce the functionality of the wrist joint owing to the weight of the prosthesis and size limitations. In this study, we developed a new socket and prosthetic hand control system that does not interfere with the wrist joint motion. This allows individuals with hand defects who previously used prosthetic hands with fixed wrist joints to freely use their remaining wrist functionality. In the pick-and-place experiment, where blocks were moved from higher to lower locations, we confirmed that the proposed system resulted in a lower elbow position compared with the traditional prosthesis, and the number of blocks transported increased. This significantly reduced the compensatory motion of the elbow and improved the user's performance compared with the use of a conventional prosthetic hand. This study demonstrates the usefulness of a new myoelectric prosthetic hand that utilizes the residual functions of people with hand deficiencies, which have not been utilized in the past, and the direction of its development.

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CiteScore
7.70
自引率
0.00%
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0
审稿时长
21 weeks
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