Institut de Biomécanique Humaine Georges Charpak (IBHGC)

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Auteurs Dates de publication Campus/Instituts Hal Statut

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

3D quasi-automatic spine length assessment using low dose biplanar radiography after surgical correction in thoracic idiopathic scoliosis

Article dans une revue avec comité de lecture

LANGLAIS, T; VERGARI, Claudio; XAVIER, F; AL HAWSAWI, M; GAJNY, Laurent; VIALLE, Raphaël; SKALLI, Wafa; PIETTON, Raphaël (Elsevier BV, 2022-01)

Background: As a leading cause of disability with a high societal and economic cost, it is crucial to better understand risk factors of neck pain and surgical complications. Getting subject-specific external loading is ...
Estimating pulmonary function after surgery for adolescent idiopathic scoliosis using biplanar radiographs of the chest with 3D reconstruction

Article dans une revue avec comité de lecture

PIETTON, Raphaël; BOULOUSSA, Houssam; LANGLAIS, Tristan; TAYTARD, Jessica; BEYDON, Nicole; SKALLI, Wafa; VERGARI, Claudio; VIALLE, Raphaël (The British Editorial Society of Bone & Joint Surgery, 2022)

Aims This study addressed two questions: first, does surgical correction of an idiopathic scoliosis increase the volume of the rib cage, and second, is it possible to evaluate the change in lung function after corrective ...
Calibration of the fat and muscle hyperelastic material parameters for the assessment of the internal tissue deformation in relation to pressure ulcer prevention

Communication avec acte

MUKHINA, Ekaterina; ROHAN, Pierre-Yves; CONNESSON, Nathanael; PAYAN, Yohan (Taylor and Francis, 2020)

Presented work shows the possibility of using the US data for the assessment of the soft tissues’ material properties. This is clinically relevant, since US allows to obtain a subject-specific anatomical data, while being ...
Femoral residuum/socket kinematics using fusion between 3D motion capture and stereo radiography

Communication avec acte

PANHELLEUX, Brieuc; FOUGERON, Nolwenn; RUYSSEN, Nicolas; ROHAN, Pierre-Yves; BONNET, Xavier; PILLET, Hélène (Taylor and Francis, 2020)

Measurement of femur motion relative to the socket in gait in TF amputated patients can be a good indicator of prosthesis outcome. Our model, using low dose bi- planar radiography and motion capture, gives a prediction of ...
Prediction of muscle forces in residual limb during walking: comparison of transfemoral and Gritti–Stokes amputations

Communication avec acte

FOUGERON, Nolwenn; BONNET, Xavier; PANHELLEUX, Brieuc; ROSE, Jean-Loïc; ROHAN, Pierre-Yves; PILLET, Hélène (Taylor and Francis, 2020)

Evaluation of muscle forces is relevant to understand walking strategies of amputated subjects. Such results could be implemented in finite element modelling to study the interaction between the residual limb and the socket ...
Cortex tissue relaxation and slow to medium load rates dependency can be captured by a two-phase flow poroelastic model

Article dans une revue avec comité de lecture

URCUN, Stéphane; ROHAN, Pierre-Yves; SCIUMÈ, Giuseppe; BORDAS, Stéphane P.A. (Elsevier BV, 2021)

This paper investigates the complex time-dependent behavior of cortex tissue, under adiabatic condition, using a two-phase flow poroelastic model. Motivated by experiments and Biot’s consolidation theory, we tackle ...
Digital twinning of Cellular Capsule Technology: Emerging outcomes from the perspective of porous media mechanics

Article dans une revue avec comité de lecture

URCUN, Stéphane; ROHAN, Pierre-Yves; SKALLI, Wafa; NASSOY, Pierre; BORDAS, Stéphane P. A.; SCIUMÈ, Giuseppe (Public Library of Science (PLoS), 2021)

Spheroids encapsulated within alginate capsules are emerging as suitable in vitro tools to investigate the impact of mechanical forces on tumor growth since the internal tumor pressure can be retrieved from the deformation ...