To address the issue of computational efficiency related to the modelling of blood flow in complex networks, we derive a family of nonlinear lumped-parameter models for blood flow in compliant vessels departing from a well-established one-dimensional model. These 0D models must preserve important nonlinear properties of the original 1D model: the nonlinearity of the pressure-area relation and the pressure-dependent parameters characterizing the 0D models, the resistance R and the inductance L, defined in terms of a time-dependent cross-sectional area subject to pressure changes. We introduce suitable coupling conditions to join 0D vessels through 0D junctions and construct 0D networks preserving the original 1D network topology. The newly d...
Mathematical modeling at the level of the full cardiovascular system requires the numerical ap-proxi...
This paper examines the behavior of microvascular networks subjected to the coupled action of extern...
We propose a distributed lumped parameter (DLP) modeling framework to efficiently compute blood flow...
Abstract. Several lumped parameter, or zero-dimensional (0-D), models of the micro-circulation are c...
Blood flow and pulse wave propagation in the blood vessels are usually studied on the incompressible...
In the last decade, numerical models have become an increasingly important tool in biological and me...
In this paper a family of one-dimensional nonlinear systems which model the blood pulse propagation ...
The aim of this study is to evaluate the relative importance of elastic non-linearities, viscoelasti...
International audienceWe propose a hemodynamic reduced-order model bridging macroscopic and mesoscop...
Abstract. Windkessel and similar lumped models are often used to repre-sent blood ow and pressure i...
The aim of the present work is to address the closure problem for hemodynamic simulations by develop...
The human arterial system is formed by a network of vessels that can be regarded as hollow tubes of ...
The transmission of pressure and flow pulse waves in human systemic arteries is modeled using one-di...
This paper provides new results of consistence and convergence of the lumped parameters (ODE models...
In this paper, a pore-scale network modeling method, based on the flow con-tinuity residual in conju...
Mathematical modeling at the level of the full cardiovascular system requires the numerical ap-proxi...
This paper examines the behavior of microvascular networks subjected to the coupled action of extern...
We propose a distributed lumped parameter (DLP) modeling framework to efficiently compute blood flow...
Abstract. Several lumped parameter, or zero-dimensional (0-D), models of the micro-circulation are c...
Blood flow and pulse wave propagation in the blood vessels are usually studied on the incompressible...
In the last decade, numerical models have become an increasingly important tool in biological and me...
In this paper a family of one-dimensional nonlinear systems which model the blood pulse propagation ...
The aim of this study is to evaluate the relative importance of elastic non-linearities, viscoelasti...
International audienceWe propose a hemodynamic reduced-order model bridging macroscopic and mesoscop...
Abstract. Windkessel and similar lumped models are often used to repre-sent blood ow and pressure i...
The aim of the present work is to address the closure problem for hemodynamic simulations by develop...
The human arterial system is formed by a network of vessels that can be regarded as hollow tubes of ...
The transmission of pressure and flow pulse waves in human systemic arteries is modeled using one-di...
This paper provides new results of consistence and convergence of the lumped parameters (ODE models...
In this paper, a pore-scale network modeling method, based on the flow con-tinuity residual in conju...
Mathematical modeling at the level of the full cardiovascular system requires the numerical ap-proxi...
This paper examines the behavior of microvascular networks subjected to the coupled action of extern...
We propose a distributed lumped parameter (DLP) modeling framework to efficiently compute blood flow...