Performance of an auto-adjusting prosthetic socket during walking with intermittent socket release.

IF 2 Q3 ENGINEERING, BIOMEDICAL Journal of Rehabilitation and Assistive Technologies Engineering Pub Date : 2022-04-28 eCollection Date: 2022-01-01 DOI:10.1177/20556683221093271
Ethan J Weathersby, Andrew C Vamos, Brian G Larsen, Jake B McLean, Ryan V Carter, Katheryn J Allyn, Daniel Ballesteros, Horace Wang, Nicholas S deGrasse, Janna L Friedly, Brian J Hafner, Joseph L Garbini, Marcia A Ciol, Joan E Sanders
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Abstract

Introduction: A challenge in the engineering of auto-adjusting prosthetic sockets is to maintain stable operation of the control system while users change their bodily position and activity. The purpose of this study was to test the stability of a socket that automatically adjusted socket size to maintain fit. Socket release during sitting was conducted between bouts of walking.

Methods: Adjustable sockets with sensors that monitored distance between the liner and socket were fabricated. Motor-driven panels and a microprocessor-based control system adjusted socket size during walking to maintain a target sensed distance. Limb fluid volume was recorded continuously. During eight sit/walk cycles, the socket panels were released upon sitting and then returned to position for walking, either the size at the end of the prior bout or a size 1.0% larger in volume.

Results: In six transtibial prosthesis users, the control system maintained stable operation and did not saturate (move to and remain at the end of the actuator's range) during 98% of the walking bouts. Limb fluid volume changes generally matched the panel position changes executed by the control system.

Conclusions: Stable operation of the control system suggests that the auto-adjusting socket is ready for testing in users' at-home settings.

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自动调节假肢插座在间歇性插座释放步行过程中的性能
引言自动调节假肢插座工程中的一个挑战是在用户改变身体位置和活动时保持控制系统的稳定运行。本研究的目的是测试一种插座的稳定性,该插座可自动调整插座尺寸以保持配合。坐着时的插座释放是在两次行走之间进行的。方法制作带传感器的可调节套筒,用于监测衬套和套筒之间的距离。电机驱动面板和基于微处理器的控制系统在行走过程中调整插座大小,以保持目标感应距离。连续记录肢体液量。在八个坐/走周期中,承窝板在坐着时被释放,然后返回到行走的位置,或者是前一轮比赛结束时的尺寸,或者是体积大1.0%的尺寸。结果在6名胫骨假体使用者中,控制系统保持了稳定的操作,并且在98%的行走过程中没有饱和(移动到致动器范围的末端并保持在致动器范围的末尾)。肢体流体体积的变化通常与控制系统执行的面板位置的变化相匹配。结论控制系统的稳定运行表明,自动调节插座可以在用户的家庭环境中进行测试。
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