摘要
In this work, we first investigated the hemodynamic parameters in the case of a normal aortic arch anatomy and in the case of aortic coarctation anatomy, both generated by using CFX-ICEM-ANSYS simulations. Then, we compared these results with those obtained for a proposed model without and with aortic coarctation, while introducing a real tridimensional magnetic resonance imaging geometry in the simulation process. The conclusion is that our proposed model reproduces, with a high agreement, the real case obtained from imaging data.
In this work, we first investigated the hemodynamic parameters in the case of a normal aortic arch anatomy and in the case of aortic coarctation anatomy, both generated by using CFX-ICEM-ANSYS simulations. Then, we compared these results with those obtained for a proposed model without and with aortic coarctation, while introducing a real tridimensional magnetic resonance imaging geometry in the simulation process. The conclusion is that our proposed model reproduces, with a high agreement, the real case obtained from imaging data.
作者
Fatima Moumen
Abed-El-Farid Djemaï
Fatima Moumen;Abed-El-Farid Djemaï(Department of Physics, Faculty of Exact and Applied Sciences, University of Oran 1 Ahmed BENBELLA, Oran, Algeria;Department of Physics Engineering, Faculty of Physics, University of Sciences and Technologies Mohamed BOUDIAF, USTO-MB, Oran, Algeria)