RA Weinert-Aplin
Energy flow analysis of amputee walking shows a proximally-directed transfer of energy in intact limbs, compared to a distally-directed transfer in prosthetic limbs at push-off
Weinert-Aplin, RA; Howard, D; Twiste, M; Jarvis, HL; Bennett, A.N.; Baker, RJ
Authors
Prof David Howard D.Howard@salford.ac.uk
Dr Martin Twiste M.Twiste@salford.ac.uk
Senior Lecturer
HL Jarvis
A.N. Bennett
RJ Baker
Abstract
Reduced capacity and increased metabolic cost of walking occurs in amputees, despite advances in prosthetic componentry. Joint powers can quantify deficiencies in prosthetic gait, but do not reveal how energy is exchanged between limb segments. This study aimed to quantify these energy exchanges during amputee walking. Optical motion and forceplate data collected during walking at a self-selected speed for cohorts of 10 controls, 10 unilateral trans-tibial, 10 unilateral trans-femoral and 10 bilateral trans-femoral amputees were used to determine the energy exchanges between lower limb segments. At push-off, consistent thigh and shank segment powers were observed between amputee groups (1.12W/kg vs. 1.05W/kg for intact limbs and 0.97W/kg vs. 0.99W/kg for prosthetic limbs), and reduced prosthetic ankle power, particularly in trans-femoral amputees (3.12W/kg vs. 0.87W/kg). Proximally-directed energy exchange was observed in the intact limbs of amputees and controls, while prosthetic limbs displayed distally-directed energy exchanges at the knee and hip. This study used energy flow analysis to show a reversal in the direction in which energy is exchanged between prosthetic limb segments at push-off. This reversal was required to provide sufficient energy to propel the limb segments and is likely a direct result of the lack of push-off power at the prosthetic ankle, particularly in trans-femoral amputees, and leads to their increased metabolic cost of walking.
Citation
Weinert-Aplin, R., Howard, D., Twiste, M., Jarvis, H., Bennett, A., & Baker, R. (2017). Energy flow analysis of amputee walking shows a proximally-directed transfer of energy in intact limbs, compared to a distally-directed transfer in prosthetic limbs at push-off. Medical Engineering and Physics, 39, 73-82. https://doi.org/10.1016/j.medengphy.2016.10.005
Journal Article Type | Article |
---|---|
Acceptance Date | Oct 23, 2016 |
Online Publication Date | Nov 8, 2016 |
Publication Date | Jan 1, 2017 |
Deposit Date | Nov 14, 2016 |
Publicly Available Date | Nov 8, 2017 |
Journal | Medical Engineering & Physics |
Print ISSN | 1350-4533 |
Electronic ISSN | 1873-4030 |
Publisher | Elsevier |
Volume | 39 |
Pages | 73-82 |
DOI | https://doi.org/10.1016/j.medengphy.2016.10.005 |
Publisher URL | http://dx.doi.org/10.1016/j.medengphy.2016.10.005 |
Additional Information | Additional Information : Source data available at: https://dx.doi.org/10.17866/rd.salford.2082871.v1. Grant Number: EP/K019759/1 |
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