Mechanical finite element model of the human heart discretized

Download scientific diagram | Mechanical finite element model of the human heart discretized with 449,560 linear tetrahedral elements, 12,915 linear quadrilateral shells, 7577 linear triangular shells, 636 linear truss elements, 16,824 rigid triangular elements, 130,290 nodes, and 443,564 mechanical degrees of freedom.  from publication: Human Cardiac Function Simulator for the Optimal Design of a Novel Annuloplasty Ring with a Sub-valvular Element for Correction of Ischemic Mitral Regurgitation | Ischemic mitral regurgitation is associated with substantial risk of death. We sought to: (1) detail significant recent improvements to the Dassault Systèmes human cardiac function simulator (HCFS); (2) use the HCFS to simulate normal cardiac function as well as pathologic | Cardiac Function, Optimal Design and Correction | ResearchGate, the professional network for scientists.

Mechanical finite element model of the human heart discretized with

PDF) Human Cardiac Function Simulator for the Optimal Design of a Novel Annuloplasty Ring with a Sub-valvular Element for Correction of Ischemic Mitral Regurgitation

Arnaud TOUTAIN, Ecole Nationale Supérieure d'Arts et Métiers, Paris, ENSAM, Institut de Biomecanique Humaine Georges Charpak (IBHGC)

Mechanical finite element model of the human heart discretized with

PDF) Human Cardiac Function Simulator for the Optimal Design of a Novel Annuloplasty Ring with a Sub-valvular Element for Correction of Ischemic Mitral Regurgitation

Mechanical finite element model of the human heart discretized with

Electrical finite element model of the human heart discretized with

Nuno REBELO, Principal

Electrical finite element model of the human heart discretized with

Nuno REBELO, Principal

Echocardiographic parameters used for description of mitral apparatus

Partial LVAD Restores Ventricular Outputs and Normalizes LV but not RV Stress Distributions in the Acutely Failing Heart in Silico - Kevin L. Sack, Brian Baillargeon, Gabriel Acevedo-Bolton, Martin Genet, Nuno Rebelo

Mechanical finite element model of the human heart discretized with