Aug 1, 2021 · In this work, we simulated blood flow using computational fluid dynamics (CFD) to determine relationships between hemodynamics and aneurysmal degeneration.
Therefore, in this study, we examine the ability of CFD simulations of patient-specific aortic geometries to predict chronic aneurysmal degeneration in patients ...
In this work, we simulated blood flow using computational fluid dynamics (CFD) to determine relationships between hemodynamics and aneurysmal degeneration, ...
Hemodynamic parameters derived from CFD simulations of acute type B aortic dissections were significantly different in dissections complicated by aneurysm ...
Hemodynamic parameters derived from CFD simulations of acute type B aortic dissections were significantly different in dissections complicated by aneurysm ...
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Methods: Patients with acute type B dissection complicated by rapidly expanding aortic aneurysms. (n = 7) were compared with patients with stable aortic.
Oct 4, 2024 · As an alternative, blood flow may be simulated with computational fluid dynamics (CFD). Simulations not only represent the current physiological ...
Predicting aneurysmal degeneration of type B aortic dissection with computational fluid dynamics · Association for Computing Machinery (ACM), August 2021.
Conclusions: Hemodynamic parameters derived from CFD simulations of acute type B aortic dissections were significantly different in dissections complicated by ...
We aim to use computational fluid dynamics to investigate the hemodynamic conditions that may predispose to false lumen enlargement in this patient population.