Jiun-Yih Kuan scite author profile

Existing robotic transtibial prostheses provide only ankle joint actuation and do not restore biarticular function of the gastrocnemius muscle. This paper presents the first powered biarticular transtibial prosthesis, which is a combination of a commercial powered ankle-foot prosthesis and a motorized robotic knee orthosis. The orthosis is controlled to emulate the human gastrocnemius based on neuromuscular models of matched nonamputees. Together with the ankle-foot prosthesis, the devices provide biarticular actuation. We evaluate differences between this biarticular condition and a monoarticular condition with the orthosis behaving as a free-joint. Six participants with transtibial amputation walk with the prosthesis on a treadmill while motion, force, and metabolic data are collected and analyzed for differences between conditions. The biarticular prosthesis reduces affectedside biological knee flexion moment impulse and hip positive work during late-stance knee flexion, compared to the monoarticular condition. The data do not support our hypothesis that metabolism decreases for all participants, but some participants demonstrate large metabolic reductions with the biarticular condition. These preliminary results suggest that a powered artificial gastrocnemius may be capable of providing large metabolic reductions compared to a monoarticular prosthesis, but further study is warranted to determine an appropriate controller for achieving more consistent metabolic benefits.

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Design of a new variable stiffness actuator and application for assistive exercise control

Huang

Kuan

Huang

2011

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An Autonomous Exoskeleton for Ankle Plantarflexion Assistance

Yang

Kuan

et al. 2019

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Design of a new hybrid control and knee orthosis for human walking and rehabilitation

Huang

Cheng

et al. 2012

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Jiun-Yih Kuan

A High-Performance Cable-Drive Module for the Development of Wearable Devices

Development and Evaluation of a Powered Artificial Gastrocnemius for Transtibial Amputee Gait

Design of a new variable stiffness actuator and application for assistive exercise control

An Autonomous Exoskeleton for Ankle Plantarflexion Assistance

Design of a new hybrid control and knee orthosis for human walking and rehabilitation

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