Recent developments of the lattice Boltzmann method for large-scale haemodynamic applications are presented, with special focus on multiscale aspects, including the self-consistent dynamics of suspended biological bodies and their coupling to surface structures, such as the glycocalyx, in the proximity of endothelium using unstructured grids. The description of such multiscale phenomena, each one treated with a suitable variation of the lattice Boltzmann method, opens up new perspectives for a fundamental understanding of the physical mechanisms underlying cardiovascular pathologies, such as plaque growth and the subsequent development of atherosclerotic diseases
We present a computational method for commodity hardware-based clinical cardiovascular diagnosis bas...
Background Systolic blood flow has been simulated in the abdominal aorta and the superior mesente...
We present a review of recent technical developments in Lattice Boltzmann Equations, as applied to s...
Recent developments of the lattice Boltzmann method for large-scale haemodynamic applications are pr...
Abstract Large-scale simulations of blood flow allow for the optimal evaluation of endothelial shear...
The lattice Boltzmann model (LBM) is a relatively new development in computational fluid dynamics. H...
Accurate and reliable modeling of cardiovascular hemodynamics has the potential to improve understan...
Accurate and reliable modeling of cardiovascular hemodynamics has the potential to improve understan...
AbstractIn this paper we describe an extension of the lattice Boltzmann method to simulate blood clo...
The study of blood dynamics requires the inclusion of several levels of description, ranging from th...
The numerical simulation of thrombosis in stented aneurysms is an important issue to estimate the ef...
While blood at the macroscopic scale is frequently treated as a continuum by techniques such as comp...
The Computational Haemodynamics Research Group (CHRG) in Technological University Dublin is developi...
In this dissertation, we have developed a fluid-structure interaction code specifically designed to ...
AbstractEfficient flow of red blood cells (RBCs) and white blood cells (WBCs) through the microcircu...
We present a computational method for commodity hardware-based clinical cardiovascular diagnosis bas...
Background Systolic blood flow has been simulated in the abdominal aorta and the superior mesente...
We present a review of recent technical developments in Lattice Boltzmann Equations, as applied to s...
Recent developments of the lattice Boltzmann method for large-scale haemodynamic applications are pr...
Abstract Large-scale simulations of blood flow allow for the optimal evaluation of endothelial shear...
The lattice Boltzmann model (LBM) is a relatively new development in computational fluid dynamics. H...
Accurate and reliable modeling of cardiovascular hemodynamics has the potential to improve understan...
Accurate and reliable modeling of cardiovascular hemodynamics has the potential to improve understan...
AbstractIn this paper we describe an extension of the lattice Boltzmann method to simulate blood clo...
The study of blood dynamics requires the inclusion of several levels of description, ranging from th...
The numerical simulation of thrombosis in stented aneurysms is an important issue to estimate the ef...
While blood at the macroscopic scale is frequently treated as a continuum by techniques such as comp...
The Computational Haemodynamics Research Group (CHRG) in Technological University Dublin is developi...
In this dissertation, we have developed a fluid-structure interaction code specifically designed to ...
AbstractEfficient flow of red blood cells (RBCs) and white blood cells (WBCs) through the microcircu...
We present a computational method for commodity hardware-based clinical cardiovascular diagnosis bas...
Background Systolic blood flow has been simulated in the abdominal aorta and the superior mesente...
We present a review of recent technical developments in Lattice Boltzmann Equations, as applied to s...