In order for computational fluid dynamics to provide quantitative parameters to aid in the clinical assessment of type B aortic dissection, the results must accurately mimic the hemodynamic environment within the aorta. The choice of inlet velocity profile (IVP) therefore is crucial; however, idealised profiles are often adopted, and the effect of IVP on hemodynamics in a dissected aorta is unclear. This study examined two scenarios with respect to the influence of IVP—using (a) patient-specific data in the form of a three-directional (3D), through-plane (TP) or flat IVP; and (b) non-patient-specific flow waveform. The results obtained from nine simulations using patient-specific data showed that all forms of IVP were able to reproduce glob...
Type-B aortic dissection is a cardiovascular disease in which a tear develops in the intimal layer o...
Objective: The interactions between aortic morphology and hemodynamics play a key role in determinin...
Aortic coarctation (CoA) accounting for 3-11% of congenital heart disease can be successfully treate...
In order for computational fluid dynamics to provide quantitative parameters to aid in the clinical ...
Quantitative assessment of the complex hemodynamic environment in type B aortic dissection (TBAD) th...
Abstract Understanding the complex interplay between morphologic and hemodynamic features in aortic ...
Type-B Aortic Dissection is a cardiovascular disease in which a tear develops in the intimal layer o...
Aortic dissection is the most common acute catastrophic event affecting the aorta. The majority of p...
Blood flow in the aorta is helical, but most computational studies ignore the presence of secondary ...
Aortic dissection is a life-threatening process in which the weakened wall develops a tear, causing ...
Type-B aortic dissection is a cardiovascular disease in which a tear develops in the intimal layer o...
Abstract:- Atherosclerosis is one of the main reasons for cardivascular disease which cause many dea...
Type-B aortic dissection is a cardiovascular disease in which a tear develops in the intimal layer o...
Objective: The interactions between aortic morphology and hemodynamics play a key role in determinin...
Aortic coarctation (CoA) accounting for 3-11% of congenital heart disease can be successfully treate...
In order for computational fluid dynamics to provide quantitative parameters to aid in the clinical ...
Quantitative assessment of the complex hemodynamic environment in type B aortic dissection (TBAD) th...
Abstract Understanding the complex interplay between morphologic and hemodynamic features in aortic ...
Type-B Aortic Dissection is a cardiovascular disease in which a tear develops in the intimal layer o...
Aortic dissection is the most common acute catastrophic event affecting the aorta. The majority of p...
Blood flow in the aorta is helical, but most computational studies ignore the presence of secondary ...
Aortic dissection is a life-threatening process in which the weakened wall develops a tear, causing ...
Type-B aortic dissection is a cardiovascular disease in which a tear develops in the intimal layer o...
Abstract:- Atherosclerosis is one of the main reasons for cardivascular disease which cause many dea...
Type-B aortic dissection is a cardiovascular disease in which a tear develops in the intimal layer o...
Objective: The interactions between aortic morphology and hemodynamics play a key role in determinin...
Aortic coarctation (CoA) accounting for 3-11% of congenital heart disease can be successfully treate...