Institut de Biomécanique Humaine Georges Charpak (IBHGC)
Parcourir par
L'Institut de Biomécanique Humaine Georges Charpak fait suite au Laboratoire de Biomécanique (LBM) de l’ENSAM crée en 1979 et est situé sur le Campus parisien d’ARTS ET MÉTIERS ParisTech.
L'Institut est certifié ISO 9001 depuis le 27 juillet 2009 dans un périmètre couvrant Recherche, Formation, Relations Industrielles et Valorisation. La recherche partenariale ou les prestations de valorisation sont gérées dans le cadre de l'Institut Carnot ARTS.
Voir le site du laboratoire :
http://biomecanique.ensam.eu/
Soumissions récentes
-
(Springer, 2020)Objective To quantify muscle characteristics (volumes and fat infiltration) and identify their relationship to sagittal malalignment and compensatory mechanism recruitment. Methods Female adult spinal deformity patients ...
-
(Springer, 2020)Purpose This in vitro biomechanical study compares residual lumbar range of motion (ROM) and rod strain after lumbopelvic instrumentation using 2 rods, 4 rods and interbody cages. Methods Seven human cadaveric specimens ...
-
(Elsevier, 2020)Introduction In children treated for idiopathic equinovarus clubfoot (EVCF), the relation between morphologic defects on clinical examination and standard X-ray on the one hand and functional abnormalities on the other is ...
-
(Tempus Publications, 2020)This paper presents the development of a prosthetic foot designed by engineering-school students. A complete workflow from needs definition to the production and testing was performed. The standards for adults were adapted ...
-
(Informa UK Limited, 2020)Study of variability induced by the methology choice on the X-factor computation of the golf swing. Based on optoelectronic measurements. Variability of the choice of upper limb, plane of projection and instant of computation.
-
(Elsevier, 2021)Whole-Body Vibration (WBV) is an occupational hazard affecting employees working with transportation, construction or heavy machinery. To minimize vibration-induced pathologies, ISO identified WBV exposure limits based on ...
-
(Springer, 2020)Purpose: To evaluate the 3D deformity of the acetabula and lower limbs in subjects with adolescent idiopathic scoliosis (AIS) and their relationship with spino-pelvic alignment. Methods: Two hundred and seventy-four subjects ...