International audienceIntroduction: The most used model in the elctrophysiology of the heart,known as the bidomain model, is the system of degenerate parabolic PDEs cou-pled with the non-linear ODE. Even though these equations provide quite ac-curate results, they are based on the fact that active cardiomyocytes are presenteverywhere in the heart, while it is known that non-small regions exist wherefibroblasts and other non-excitable cells or additional extracellular media takeplace. These regions, which play an important role in diseased hearts, are oftentaken into account through ad-hoc rough tuning of the tissue conductivities. Inthis work, we introduce a rigorous way to derive these conductivities from amicroscopic description of the he...
Tissue level cardiac electrophysiology is usually modelled by the bidomain equations, or the monodom...
We prove the existence and the uniqueness of a solution for a modified bidomain model, describing th...
In this paper, we study a mathematical model of cardiac tissue based on explicit representation of i...
Introduction: The most used model in the elctrophysiology of the heart,known as the bidomain model, ...
International audienceBidomain equations are the standard way to model the electric potential in car...
Bidomain equations are the standard way to model the electric potential in cardiac tissue. They are ...
Bidomain equations are the standard way to model the electric potential in cardiac tissue. We propos...
In this paper we study how mesoscopic heterogeneities affect electrical signal propagation in cardia...
International audienceWe present a new mathematical model of the electric activity of the heart. In ...
International audienceMathematical modelling and numerical simulation in cardiac electrophysiology h...
The standard bidomain model is based on the fact that electrically active cardiomyocytes are present...
We study, by means of the periodic unfolding technique, the homogenization of a modified bidomain mo...
Advanced multiscale models in computational electrocardiology offer a detailed representation of the...
Distinct electrophysiological phenotypes are exhibited by biological cells that have differentiated ...
Tissue level cardiac electrophysiology is usually modelled by the bidomain equations, or the monodom...
We prove the existence and the uniqueness of a solution for a modified bidomain model, describing th...
In this paper, we study a mathematical model of cardiac tissue based on explicit representation of i...
Introduction: The most used model in the elctrophysiology of the heart,known as the bidomain model, ...
International audienceBidomain equations are the standard way to model the electric potential in car...
Bidomain equations are the standard way to model the electric potential in cardiac tissue. They are ...
Bidomain equations are the standard way to model the electric potential in cardiac tissue. We propos...
In this paper we study how mesoscopic heterogeneities affect electrical signal propagation in cardia...
International audienceWe present a new mathematical model of the electric activity of the heart. In ...
International audienceMathematical modelling and numerical simulation in cardiac electrophysiology h...
The standard bidomain model is based on the fact that electrically active cardiomyocytes are present...
We study, by means of the periodic unfolding technique, the homogenization of a modified bidomain mo...
Advanced multiscale models in computational electrocardiology offer a detailed representation of the...
Distinct electrophysiological phenotypes are exhibited by biological cells that have differentiated ...
Tissue level cardiac electrophysiology is usually modelled by the bidomain equations, or the monodom...
We prove the existence and the uniqueness of a solution for a modified bidomain model, describing th...
In this paper, we study a mathematical model of cardiac tissue based on explicit representation of i...