Evaluation of the mechanical efficiency of knee braces based on computational modeling |
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Authors: | Baptiste Pierrat Jérôme Molimard Laurent Navarro Stéphane Avril Paul Calmels |
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Institution: | 1. Ecole Nationale Supérieure des Mines, CIS-EMSE, CNRS:UMR5307, LGF, F-42023 Saint-Etienne, France;2. P?le des Technologies Médicales, F-42000 Saint-Etienne, Francebaptiste.pierrat@gmail.com;4. Laboratoire de Physiologie de l'Exercice (LPE EA 4338), Université de Saint-Etienne, F-42055 Saint-Etienne, France |
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Abstract: | Knee orthotic devices are commonly prescribed by physicians and medical practitioners for preventive or therapeutic purposes on account of their claimed effect: joint stabilisation and proprioceptive input. However, the force transfer mechanisms of these devices and their level of action remain controversial. The objectives of this work are to characterise the mechanical performance of conventional knee braces regarding their anti-drawer effect using a finite element model of a braced lower limb. A design of experiment approach was used to quantify meaningful mechanical parameters related to the efficiency and discomfort tolerance of braces. Results show that the best tradeoff between efficiency and discomfort tolerance is obtained by adjusting the brace length or the strap tightening. Thanks to this computational analysis, novel brace designs can be evaluated for an optimal mechanical efficiency and a better compliance of the patient with the treatment. |
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Keywords: | knee braces knee orthoses efficiency discomfort tolerance finite element |
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