Pascale Fodé scite author profile

This paper reports on a functional evaluation of prosthetic feet based on gait analysis. The aim is to analyse prosthetic feet behaviour under loads applied during gait in order to quantify user benefits for each foot. Ten traumatic amputees (six trans-tibial and four trans-femoral) were tested using their own prosthetic foot. An original protocol is presented to calculate the forefoot kinematics together with the overall body kinematics and ground reaction forces during gait. In this work, sagittal motion of the prosthetic ankle and the forefoot, time-distance parameters and ground reaction forces were examined. It is shown that an analysis of not only trans-tibial but also trans-femoral amputees provides an insight in the performance of prosthetic feet. Symmetry and prosthetic propulsive force were proved to be mainly dependant on amputation level. In contrast, the flexion of the prosthetic forefoot and several timedistance parameters are highly influenced by foot design. Correlations show influential of foot and ankle kinematics on other parameters. These results suggest that prosthetic foot efficiency depends simultaneously on foot design and gait style. The evaluation, proposed in this article, associated to clinical examination should help to achieve the best prosthetic foot match to a patient.

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Vaulting quantification during level walking of transfemoral amputees

Drevelle¹,

Villa²,

Bonnet³

et al. 2014

Clinical Biomechanics

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Mechanical work performed by individual limbs of transfemoral amputees during step-to-step transitions: Effect of walking velocity

Bonnet

Villa

Fodé

et al. 2013

Proc Inst Mech Eng H

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The greater metabolic demand during the gait of people with a transfemoral amputation limits their autonomy and walking velocity. Major modifications of the kinematic and kinetic patterns of transfemoral amputee gait quantified using gait analysis may explain their greater energy cost. Donelan et al. proposed a method called the individual limb method to explore the relationships between the gait biomechanics and metabolic cost. In the present study, we applied this method to quantify mechanical work performed by the affected and intact limbs of transfemoral amputees. We compared a cohort of six active unilateral transfemoral amputees to a control group of six asymptomatic subjects. Compared to the control group, we found that there was significantly less mechanical work produced by the affected leg and significantly more work performed by the unaffected leg during the step-to-step transition. We also found that this mechanical work increased with walking velocity; the increase was less pronounced for the affected leg and substantial for the unaffected leg. Finally, we observed that the lesser work produced by the affected leg was linked to the increase in the hip flexion moment during the late stance phase, which is necessary for initiating knee flexion in the affected leg. It is possible to quantify the mechanical work performed during gait by people with a transfemoral amputation, using the individual limb method and conventional gait laboratory equipment. The method provides information that is useful for prosthetic fitting and rehabilitation.

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APSIC: Training and fitting amputees during situations of daily living

Pillet¹,

Drevelle²,

Bonnet³

et al. 2014

IRBM

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Pascale Fodé

Three-Dimensional Motions of Trunk and Pelvis During Transfemoral Amputee Gait

A Functional Evaluation of Prosthetic Foot Kinematics During Lower-Limb Amputee Gait

Vaulting quantification during level walking of transfemoral amputees

Mechanical work performed by individual limbs of transfemoral amputees during step-to-step transitions: Effect of walking velocity

APSIC: Training and fitting amputees during situations of daily living

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