The numerical simulation of thrombosis in stented aneurysms is an important issue to estimate the efficiency of a stent. In this paper, we consider a Lattice Boltzmann (LB) approach to bloodflow modeling and we implement a non-Newtonian correction in order to reproduce more realistic flow profiles. We obtain a good agreement between simulations and Casson's model of blood rheology in a simple geometry. Finally we discuss how, by using a passive scalar suspension model with aggregation on top of the LB dynamics, we can describe the clotting processes in the aneurys
Abstract Large-scale simulations of blood flow allow for the optimal evaluation of endothelial shear...
The effects of thrombosis greatly contribute to the incidence of mortality in the Western World. Un...
Whole blood is a complex suspension of cells, where the emergent rheology and transport phenomena ar...
The numerical simulation of thrombosis in stented aneurysms is an important issue to estimate the ef...
We describe the clotting process in stented aneurysms with a lattice Boltzmann (LB) model. In additi...
AbstractA lattice Boltzmann simulation of blood flow using the Carreau–Yasuda model to calculate the...
none1noIn this paper, the lattice Boltzmann (LB) method is used in order to simulate non-Newtonian b...
We present a qualitative analysis of the flow pattern in cerebral aneurysms and the effect on the ve...
AbstractIn the present paper, three non-Newtonian models for blood are used in a lattice Boltzmann f...
AbstractA lattice Boltzmann model for blood flows is proposed. The lattice Boltzmann Bi-viscosity co...
AbstractEfficient flow of red blood cells (RBCs) and white blood cells (WBCs) through the microcircu...
A lattice Boltzmann method for simulating the viscous flow in large distensible blood vessels is pre...
The treatment of cerebral aneurisms with a porous stent has recently been proposed as a minimally in...
AbstractComputer simulations play an increasingly important role in the area of medical physics, fro...
AbstractIn this paper we describe an extension of the lattice Boltzmann method to simulate blood clo...
Abstract Large-scale simulations of blood flow allow for the optimal evaluation of endothelial shear...
The effects of thrombosis greatly contribute to the incidence of mortality in the Western World. Un...
Whole blood is a complex suspension of cells, where the emergent rheology and transport phenomena ar...
The numerical simulation of thrombosis in stented aneurysms is an important issue to estimate the ef...
We describe the clotting process in stented aneurysms with a lattice Boltzmann (LB) model. In additi...
AbstractA lattice Boltzmann simulation of blood flow using the Carreau–Yasuda model to calculate the...
none1noIn this paper, the lattice Boltzmann (LB) method is used in order to simulate non-Newtonian b...
We present a qualitative analysis of the flow pattern in cerebral aneurysms and the effect on the ve...
AbstractIn the present paper, three non-Newtonian models for blood are used in a lattice Boltzmann f...
AbstractA lattice Boltzmann model for blood flows is proposed. The lattice Boltzmann Bi-viscosity co...
AbstractEfficient flow of red blood cells (RBCs) and white blood cells (WBCs) through the microcircu...
A lattice Boltzmann method for simulating the viscous flow in large distensible blood vessels is pre...
The treatment of cerebral aneurisms with a porous stent has recently been proposed as a minimally in...
AbstractComputer simulations play an increasingly important role in the area of medical physics, fro...
AbstractIn this paper we describe an extension of the lattice Boltzmann method to simulate blood clo...
Abstract Large-scale simulations of blood flow allow for the optimal evaluation of endothelial shear...
The effects of thrombosis greatly contribute to the incidence of mortality in the Western World. Un...
Whole blood is a complex suspension of cells, where the emergent rheology and transport phenomena ar...