Modélisation forme-fonction du système ostéo-articulaire de l
Simulation here confirms the assumption that shape parameters are naturally optimal within a given nonpathological forearm. We here present a preliminary quantitative approach to analysing how 3D shapes match in order to better evaluate how such a coupling impacts on a functional motion. Addressing long bone morphometry, we study the influence of the 3D shape of forearm bone structures on the limitation of rotational range during pronation-supination motion. On the basis of modelling at successive stages –shape, deformation, then motion–, simulation here confirms the assumption that shape parameters are naturally optimal within a given nonpathological forearm. While the need to focus on shaft regions is supported as regards this particular bone-joint subsystem, it is finally advised that the restriction to only bones should give way to including the interosseous ligament into a higher order of modelling.
Fractures diaphysaires des deux os de l'avant-bras chez l'adulte
Modélisation forme-fonction du système ostéo-articulaire de l'avant-bras en imagerie médicale
Christian ROUX, Professor Emeritus, PhD, IMT Atlantique, Nantes, IMT
Quantitative Shape-Function Modeling of the Forearm in Medical Imaging
Cône schématique du radius autour de l'ulna (bras droit) pendant la
PDF] Study of 3-D human movements: influence of the forearm bone morphology on the magnitude of the prosupination motion
Stéphane Allaire's research works University of Québec in Chicoutimi, Saguenay (UQAC) and other places
Cône schématique du radius autour de l'ulna (bras droit) pendant la
MOREA: a GPU-accelerated Evolutionary Algorithm for Multi-Objective Deformable Registration of 3D Medical Images
Quantitative Shape-Function Modeling of the Forearm in Medical Imaging
Christian ROUX, Professor Emeritus, PhD, IMT Atlantique, Nantes, IMT
Cône schématique du radius autour de l'ulna (bras droit) pendant la
Quantitative Shape-Function Modeling of the Forearm in Medical Imaging