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Article Dans Une Revue International Journal for Numerical Methods in Biomedical Engineering Année : 2023

Reduced left ventricular dynamics modeling based on a cylindrical assumption

Résumé

Biomechanical modeling and simulation is expected to play a significant role in the development of the next generation tools in many fields of medicine. However, full-fledged finite element models of complex organs such as the heart can be computationally very expensive, thus limiting their practical usability. Therefore, reduced models are much valuable to be used, e.g., for pre-calibration of full-fledged models, fast predictions, real-time applications, etc.. In this work, focused on the left ventricle, we develop a reduced model by defining reduced geometry & kinematics while keeping general motion and behavior laws, allowing to derive a reduced model where all variables & parameters have a strong physical meaning. More specifically, we propose a reduced ventricular model based on cylindrical geometry & kinematics, which allows to describe the myofiber orientation through the ventricular wall and to represent contraction patterns such as ventricular twist, two important features of ventricular mechanics. Our model is based on the original cylindrical model of [Guccione, McCulloch, & Waldman 1991; Guccione, Waldman, & McCulloch 1993], albeit with multiple differences: we propose a fully dynamical formulation, integrated into an open-loop lumped circulation model, and based on a material behavior that incorporates a fine description of contraction mechanisms; moreover, the issue of the cylinder closure has been completely reformulated; our numerical approach is novel as well, with consistent spatial (finite element) and time discretizations. Finally, we analyse the sensitivity of the model response to various numerical and physical parameters, and study its physiological response.
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Dates et versions

hal-03832575 , version 1 (27-10-2022)
hal-03832575 , version 2 (22-05-2023)

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Martin Genet, Jérôme Diaz, Dominique Chapelle, Philippe Moireau. Reduced left ventricular dynamics modeling based on a cylindrical assumption. International Journal for Numerical Methods in Biomedical Engineering, 2023, ⟨10.1002/cnm.3711⟩. ⟨hal-03832575v2⟩
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