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Effects of Prosthetic Mass Distribution on Musculoskeletal System during Amputee Gait  

Bae, Tae-Soo (재활공학연구소, 인체공학팀)
Choi, Hwan (고려대학교 제어시스템공학)
Kim, Shin-Ki (재활공학연구소, 인체공학팀)
Mun, Mu-Seong (재활공학연구소, 인체공학팀)
Publication Information
Journal of the Korean Society for Precision Engineering / v.24, no.8, 2007 , pp. 130-137 More about this Journal
Abstract
The optimized prosthetic mass distribution was a controversial problem in the previous studies because they are not supported by empirical evidence. The purpose of the present study was to evaluate the effect of prosthetic mass properties by modeling musculoskeletal system, based on the gait analysis data from two above-knee amputees. The joint torque at hip joint was calculated using inverse dynamic analysis as the mass was changed in knee and foot prosthetic components with the same joint kinematics. The results showed that the peak flexion and abduction torque at the hip joint were 5 Nm and 15 Nm when the mass of the knee component was increased, greater than the peak flexion and abduction torque of the control group at the hip joint, respectively. On the other hand, when the mass of the foot component was increased, the peak flexion and abduction torque at the hip joint were 20 Nm and 15 Nm, greater than the peak flexion and abduction torque of the control, respectively. The hip flexion torque was 4.71-fold greater and 7.92-fold greater than the hip abduction torque for the knee mass increase and the foot mass increase on the average, respectively. Therefore, we could conclude that the effect of foot mass increase was more sensitive than that of knee mass increase for the hip flexion torque. On the contrary, the mass properties of the knee and foot components were not sensitive for the hip abduction torque. In addition, optimized prosthetic mass and appropriate mass distributions were needed to promote efficiency of rehabilitation therapy with consideration of musculoskeletal systems of amputees.
Keywords
Prosthetic gait; Prosthetic mass distribution; Musculoskeletal model; Dynamic simulation;
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