Percutaneous pulmonary valve implantation (PPVI) is safe and effective in the treatment of dysfunctional right ventricle outflow tracts (RVOTs). Yet, a risk of peri-procedural complications, such as coronary artery (CA) compression, exists. Herein, we propose a dedicated FE modeling framework to simulate the PPVI pre-stenting step, which combines reliability in predicting CA compression, robustness, adaptability to different anatomies, computational efficiency, and full automation of the modeling pipeline.
Finite Element Modeling To Support Patient-Specific Planning Of Pulmonary Artery Pre-Stenting
Davide Astori;Alessandro Caimi;Francesco Sturla;Alberto Redaelli;Emiliano Votta
2024-01-01
Abstract
Percutaneous pulmonary valve implantation (PPVI) is safe and effective in the treatment of dysfunctional right ventricle outflow tracts (RVOTs). Yet, a risk of peri-procedural complications, such as coronary artery (CA) compression, exists. Herein, we propose a dedicated FE modeling framework to simulate the PPVI pre-stenting step, which combines reliability in predicting CA compression, robustness, adaptability to different anatomies, computational efficiency, and full automation of the modeling pipeline.File in questo prodotto:
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