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Article type: Research Article
Authors: Cao, Wujinga; b | Yu, Hongliua; b; c; * | Zhao, Weilianga; b | Meng, Qiaolinga; b; c | Chen, Wenminga; b
Affiliations: [a] Rehabilitation Engineering and Technology Institute, University of Shanghai for Science and Technology, Shanghai, China | [b] Shanghai Engineering Research Center of Assistive Devices, Shanghai, China | [c] Key Laboratory of Neural-functional Information and Rehabilitation Engineering of the Ministry of Civil Affairs, Shanghai, China
Correspondence: [*] Corresponding author: Hongliu Yu, Rehabilitation Engineering and Technology Institute, University of Shanghai for Science and Technology, Shanghai, China. E-mail: yhl98@hotmail.com.
Abstract: BACKGROUND: The microprocessor-controlled prosthetic knees have been introduced to transfemoral amputees due to advances in biomedical engineering. A body of scientific literature has shown that the microprocessor-controlled prosthetic knees improve the gait and functional abilities of persons with transfemoral amputation. OBJECTIVE: The aim of this study was to propose a new microprocessor-controlled prosthetic knee (MPK) and compare it with non-microprocessor-controlled prosthetic knees (NMPKs) under different walking speeds. METHODS: The microprocessor-controlled prosthetic knee (i-KNEE) with hydraulic damper was developed. The comfortable self-selected walking speeds of 12 subjects with i-KNEE and NMPK were obtained. The maximum swing flexion knee angle and gait symmetry were compared in i-KNEE and NMPK condition. RESULTS: The comfortable self-selected walking speeds of some subjects were higher with i-KNEE while some were not. There was no significant difference in comfortable self-selected walking speed between the i-KNEE and the NMPK condition (P= 0.138). The peak prosthetic knee flexion during swing in the i-KNEE condition was between sixty and seventy degree under any walking speed. In the NMPK condition, the maximum swing flexion knee angle changed significantly. And it increased with walking speed. There is no significant difference in knee kinematic symmetry when the subjects wear the i-KNEE or NMPK. CONCLUSIONS: The results of this study indicated that the new microprocessor-controlled prosthetic knee was suitable for transfemoral amputees. The maximum swing flexion knee angle under different walking speeds showed different properties in the NMPK and i-KNEE condition. The i-KNEE was more adaptive to speed changes. There was little difference of comfortable self-selected walking speed between i-KNEE and NMPK condition.
Keywords: Transfemoral amputees, microprocessor-controlled prosthetic knees, gait symmetry, maximum swing flexion knee angle
DOI: 10.3233/THC-171157
Journal: Technology and Health Care, vol. 26, no. 4, pp. 581-592, 2018
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