Blood velocity and pressure fields in large arteries are greatly influenced by the deformability of the vessel. Moreover, wave propagation phenomena in the cardiovascular system can only be described considering wall deformability since blood is usually described as an incompressible fluid. However, computational methods for simulating blood flow in three-dimensional models of arteries have either considered a rigid wall assumption for the vessel or significantly simplified or reduced geometries. Computing blood flow in deformable domains using standard techniques like the ALE method remains a formidable problem for large, realistic anatomic and physiologic models of the cardiovascular system.We have developed a new method to simulate blood...
New hybrid Eulerian/Lagrangian model is presented accounting for the two-way coupling between the pu...
AbstractThe mathematical modelling and numerical simulation of the human cardiovascular system is pl...
When modeling the cardiovascular system, the effect of the vessel wall on the blood flow has great r...
Abstract Blood velocity and pressure fields in large arteries are greatly influenced by the deformab...
International audienceThe aim of the paper is to use Arbitrary Lagrangian Eulerian (ALE) formulation...
Flow and pressure waves emanate from the heart and travel through the major arteries where they are ...
In cardiovascular research, FSI is expressed by the interaction of the blood with the vessel or the ...
The numerical tools to simulate blood flow in the cardiovascular system are constantly developing du...
When modelling the cardiovascular system, the effect of the vessel wall on the blood flow has great ...
Some numerical approaches to solve fluid structure interaction problems in blood flow are reviewed. ...
All fluid flow problems in the human organism involve interactions with a vessel wall. The wall is f...
Medicine is one of the branches of scientific research in which numerical simulation can give a grea...
The blood flow in arterial trees in the cardiovascular system can be simulated with the help of diff...
The blood flow in arterial trees in the cardiovascular system can be simulated with the help of diff...
In the current work, a three-dimensional geometry of a 75% stenosed blood vessel is analyzed. Large ...
New hybrid Eulerian/Lagrangian model is presented accounting for the two-way coupling between the pu...
AbstractThe mathematical modelling and numerical simulation of the human cardiovascular system is pl...
When modeling the cardiovascular system, the effect of the vessel wall on the blood flow has great r...
Abstract Blood velocity and pressure fields in large arteries are greatly influenced by the deformab...
International audienceThe aim of the paper is to use Arbitrary Lagrangian Eulerian (ALE) formulation...
Flow and pressure waves emanate from the heart and travel through the major arteries where they are ...
In cardiovascular research, FSI is expressed by the interaction of the blood with the vessel or the ...
The numerical tools to simulate blood flow in the cardiovascular system are constantly developing du...
When modelling the cardiovascular system, the effect of the vessel wall on the blood flow has great ...
Some numerical approaches to solve fluid structure interaction problems in blood flow are reviewed. ...
All fluid flow problems in the human organism involve interactions with a vessel wall. The wall is f...
Medicine is one of the branches of scientific research in which numerical simulation can give a grea...
The blood flow in arterial trees in the cardiovascular system can be simulated with the help of diff...
The blood flow in arterial trees in the cardiovascular system can be simulated with the help of diff...
In the current work, a three-dimensional geometry of a 75% stenosed blood vessel is analyzed. Large ...
New hybrid Eulerian/Lagrangian model is presented accounting for the two-way coupling between the pu...
AbstractThe mathematical modelling and numerical simulation of the human cardiovascular system is pl...
When modeling the cardiovascular system, the effect of the vessel wall on the blood flow has great r...