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Heel-region properties of prosthetic feet and shoes
KLUTE GK; BERGE JS; SEGAL AD
J REHABIL RES DEV , 2004, vol. 41, n° 4, p. 535-545 Doc n°: 115775 Localisation : Documentation IRR Descripteurs : EC16 -PROTHESE DE MEMBRE INFERIEUR The properties of the prosthetic components prescribed to amputees have the potential to ameliorate or exacerbate their comfort, mobility, and health. To measure the difference in heel-region structural properties of currently available prosthetic feet and shoes, we simulated the period of initial heel-ground contact with a pendulum apparatus. The energy dissipation capacity of the various prosthetic feet ranged from 33.6% to 52.6% of the input energy. Donning a shoe had a large effect. Energy dissipation of a Seattle Lightfoot 2 prosthetic foot was 45.3%, while addition of a walking, running, and orthopedic shoe increased energy dissipation to 63.0%, 73.0%, and 82.4%, respectively. The force versus deformation response to impact was modeled as a hardening spring in parallel with a position-dependent damping element. A nonlinear least-squares curve fit produced model coefficients useful for predicting the heel-region impact response of both prosthetic feet and shoes. Langue : ANGLAIS |
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