In cardiovascular mechanics, reaching consensus in simulation results within a physiologically relevant range of parameters is essential for reproducibility purposes. Although currently available benchmarks contain some of the features that cardiac mechanics models typically include, some important modeling aspects are missing. Therefore, we propose a new set of cardiac benchmark problems and solutions for assessing passive and active material behavior, viscous effects, and pericardial boundary condition. The problems proposed include simplified analytical fiber definitions and active stress models on a monoventricular and biventricular domains, allowing straightforward testing and validation with already developed solvers.
A software benchmark for cardiac elastodynamics / Aróstica, Reidmen; Nolte, David; Brown, Aaron; Gebauer, Amadeus; Karabelas, Elias; Jilberto, Javiera; Salvador, Matteo; Bucelli, Michele; Piersanti, Roberto; Osouli, Kasra; Augustin, Christoph; Finsberg, Henrik; Shi, Lei; Hirschvogel, Marc; Pfaller, Martin; Africa, Pasquale Claudio; Gsell, Matthias; Marsden, Alison; Nordsletten, David; Regazzoni, Francesco; Plank, Gernot; Sundnes, Joakim; Dede', Luca; Peirlinck, Mathias; Vedula, Vijay; Wall, Wolfgang; Bertoglio, Cristóbal. - In: COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING. - ISSN 0045-7825. - 435:(2025). [10.1016/j.cma.2024.117485]
A software benchmark for cardiac elastodynamics
Africa, Pasquale Claudio;Dede', Luca;
2025-01-01
Abstract
In cardiovascular mechanics, reaching consensus in simulation results within a physiologically relevant range of parameters is essential for reproducibility purposes. Although currently available benchmarks contain some of the features that cardiac mechanics models typically include, some important modeling aspects are missing. Therefore, we propose a new set of cardiac benchmark problems and solutions for assessing passive and active material behavior, viscous effects, and pericardial boundary condition. The problems proposed include simplified analytical fiber definitions and active stress models on a monoventricular and biventricular domains, allowing straightforward testing and validation with already developed solvers.| File | Dimensione | Formato | |
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