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Three‐dimensional parametric modeling of bicuspid aortopathy and comparison with computational flow predictions
Authors:Salvatore Pasta  Giovanni Gentile  Giuseppe M. Raffa  Francesco Scardulla  Diego Bellavia  Angelo Luca  Michele Pilato  Cesare Scardulla
Affiliation:1. Fondazione Ri.MED;2. Department for the Treatment and Study of Cardiothoracic Diseases and Cardiothoracic TransplantationIRCCS‐ISMETT;3. Department of Diagnostic and Therapeutic ServicesIRCCS‐ISMETT;4. Dipartimento dell'Innovazione Industriale e Digitale (DIID), Universita di Palermo, Palermo, Italy
Abstract:Bicuspid aortic valve (BAV)‐associated ascending aneurysmal aortopathy (namely “bicuspid aortopathy”) is a heterogeneous disease making surgeon predictions particularly challenging. Computational flow analysis can be used to evaluate the BAV‐related hemodynamic disturbances, which likely lead to aneurysm enlargement and progression. However, the anatomic reconstruction process is time consuming so that predicting hemodynamic and structural evolution by computational modeling is unfeasible in routine clinical practice. The aim of the study was to design and develop a parametric program for three‐dimensional (3D) representations of aneurysmal aorta and different BAV phenotypes starting from several measures derived by computed‐tomography angiography (CTA). Assuming that wall shear stress (WSS) has an important implication on bicuspid aortopathy, computational flow analyses were then performed to estimate how different would such an important parameter be, if a parametric aortic geometry was used as compared to standard geometric reconstructions obtained by CTA scans. Morphologic parameters here documented can be used to rapidly model the aorta and any phenotypes of BAV. t‐test and Bland–Altman plot demonstrated that WSS obtained by flow analysis of parametric aortic geometries was in good agreement with that obtained from the flow analysis of CTA‐related geometries. The proposed program offers a rapid and automated tool for 3D anatomic representations of bicuspid aortopathy with promising application in routine clinical practice by reducing the amount of time for anatomic reconstructions.
Keywords:Bicuspid aortic valve    Ascending thoracic aortic aneurysm    Finite‐element analysis    Aortic failure    Three‐dimensional anatomic reconstruction
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