Selective Passive/Active Switchable Knee Prosthesis Based on Multifunctional Rotary Hydraulic Cylinder for Transfemoral Amputees
Hyunjun Shin,
Jinkuk Park,
Huitae Lee,
Sungyoon Jung,
Mankee Jeon,
Sehoon Park
Affiliations
Hyunjun Shin
Advanced Prosthesis R&D Team, Korea Orthopedics & Rehabilitation Engineering Center, 10 Beon-gil, Gyeongin-ro, Bupyeong-gu, Incheon 21417, Republic of Korea
Jinkuk Park
Advanced Prosthesis R&D Team, Korea Orthopedics & Rehabilitation Engineering Center, 10 Beon-gil, Gyeongin-ro, Bupyeong-gu, Incheon 21417, Republic of Korea
Huitae Lee
Advanced Prosthesis R&D Team, Korea Orthopedics & Rehabilitation Engineering Center, 10 Beon-gil, Gyeongin-ro, Bupyeong-gu, Incheon 21417, Republic of Korea
Sungyoon Jung
Advanced Prosthesis R&D Team, Korea Orthopedics & Rehabilitation Engineering Center, 10 Beon-gil, Gyeongin-ro, Bupyeong-gu, Incheon 21417, Republic of Korea
Mankee Jeon
Advanced Prosthesis R&D Team, Korea Orthopedics & Rehabilitation Engineering Center, 10 Beon-gil, Gyeongin-ro, Bupyeong-gu, Incheon 21417, Republic of Korea
Sehoon Park
Advanced Prosthesis R&D Team, Korea Orthopedics & Rehabilitation Engineering Center, 10 Beon-gil, Gyeongin-ro, Bupyeong-gu, Incheon 21417, Republic of Korea
Significant advances have been made in prostheses with the aim of enhancing the quality of life for transfemoral amputees. While commercially available transfemoral prostheses mainly focus on the developing passive prostheses that act only as dampers, academic research is centered round powered prostheses that can provide net-positive knee torque. Although recent active-powered prostheses have made excellent progress in terms of weight and battery life, it remains unclear if these prostheses can be effectively used in everyday life. This study presents a rotary hybrid prosthesis based on the combination of a multifunctional rotary hydraulic cylinder that is designed to operate as a brake, clutch, and damper with a 100 W active motor system. This prosthesis enables long-term level ground walking while supplying active power as needed. The passive and active components of this hybrid prosthesis are designed such that they can be decoupled when operated independently, allowing for quick switching between passive and active modes in 50–100 ms. The study outlines the aims and procedures for the design of rotary hybrid prostheses, as well as the feasibility tests for each module and the amputee’s clinical test on the developed knee prosthesis.
