In the last decade, numerical models have become an increasingly important tool in biological and medical science. Numerical simulations contribute to a deeper understanding of physiology and are a powerful tool for better diagnostics and treatment. In this paper, a nonlinear multi-scale model framework is developed for blood flow distribution in the full vascular system of an organ. We couple a quasi one-dimensional vascular graph model to represent blood flow in larger vessels and a porous media model to describe flow in smaller vessels and capillary bed. The vascular model is based on Poiseuille’s Law, with pressure correction by elasticity and pressure drop estimation at vessels' junctions. The porous capillary bed is modelled as a two-...
Consistent with its distribution and exchange functions, the vascular system of the human brain cort...
A novel multiscale mathematical and computational model of the pulmonary circulation is presented an...
An improved one-dimensional mathematical model based on Pulsed Flow Equations (PFE) is derived by in...
In the last decade, numerical models have become an increasingly important tool in biological and me...
In the last decade, numerical models have been an increasingly important tool in biological and medi...
Abstract. Blood dynamics in cardiovascular system involve length scales in vastly different ranges, ...
At its most fundamental level, cerebral blood flow (CBF) may be modeled as fluid flow driven through...
The human brain microcirculation has a multiscale architecture. At large scale, arteriolar and venul...
The aim of this thesis is to replace the intractable problem of using discrete flow models within la...
The multi-cellular hydrodynamic interactions play a critical role in the phenomenology of blood flow...
International audienceWe propose a hemodynamic reduced-order model bridging macroscopic and mesoscop...
Aging or cerebral diseases may induce architectural modifications in human brain microvascular netwo...
<div><p>Aging or cerebral diseases may induce architectural modifications in human brain microvascul...
Abstract. A prototype, multi-scale, computational hemodynamic model is presented. Applications to ao...
To address the issue of computational efficiency related to the modelling of blood flow in complex n...
Consistent with its distribution and exchange functions, the vascular system of the human brain cort...
A novel multiscale mathematical and computational model of the pulmonary circulation is presented an...
An improved one-dimensional mathematical model based on Pulsed Flow Equations (PFE) is derived by in...
In the last decade, numerical models have become an increasingly important tool in biological and me...
In the last decade, numerical models have been an increasingly important tool in biological and medi...
Abstract. Blood dynamics in cardiovascular system involve length scales in vastly different ranges, ...
At its most fundamental level, cerebral blood flow (CBF) may be modeled as fluid flow driven through...
The human brain microcirculation has a multiscale architecture. At large scale, arteriolar and venul...
The aim of this thesis is to replace the intractable problem of using discrete flow models within la...
The multi-cellular hydrodynamic interactions play a critical role in the phenomenology of blood flow...
International audienceWe propose a hemodynamic reduced-order model bridging macroscopic and mesoscop...
Aging or cerebral diseases may induce architectural modifications in human brain microvascular netwo...
<div><p>Aging or cerebral diseases may induce architectural modifications in human brain microvascul...
Abstract. A prototype, multi-scale, computational hemodynamic model is presented. Applications to ao...
To address the issue of computational efficiency related to the modelling of blood flow in complex n...
Consistent with its distribution and exchange functions, the vascular system of the human brain cort...
A novel multiscale mathematical and computational model of the pulmonary circulation is presented an...
An improved one-dimensional mathematical model based on Pulsed Flow Equations (PFE) is derived by in...