Add to ORKGInternational audienceThe bidomain model efficiently represents macroscopic cardiac electrophysiology but neglects inhomogeneities on the cellular scale. Furthermore, it cannot represent gap junctions accurately. We introduce a microscopic model. We prove the existence of a solution of this model
he aim of this thesis is to analyze the effects of time variations of the gap junctions (GJ) conduct...
Abstract We derive the values for the intracellular and extracellular conductivities needed for bido...
This thesis is concerned with the mathematical analysis and numerical simulation of cardiac electrop...
International audienceIt has been suggested in the literature that a disorgani-sation of cardiac tis...
The bidomain model efficiently represents macroscopic cardiac electrophysiology but neglects inhomog...
Dans les dernières décennies, l'impact dû à l'altération de la microstructure du tissu cardiaque dan...
During the last decades, studies regarding the prospective impact of the alterations at the microsco...
International audienceThe usual way to model the propagation of the action potential through the car...
International audienceIt has been suggested in the literature that a disorganization of cardiac tiss...
In this paper, we study a mathematical model of cardiac tissue based on explicit representation of i...
When modelling tissue-level cardiac electrophysiology, a continuum approximation to the discrete cel...
The paper deals with a mathematical model for the electric activity of the heart at macroscopic leve...
Constant conductances are often assumed when model- ing cardiac tissue. However experimental evide...
The conduction of electrical signals through cardiac tissue is essential for maintaining the functio...
This thesis is concerned with the mathematical analysis and numerical simulation of cardiac electrop...
he aim of this thesis is to analyze the effects of time variations of the gap junctions (GJ) conduct...
Abstract We derive the values for the intracellular and extracellular conductivities needed for bido...
This thesis is concerned with the mathematical analysis and numerical simulation of cardiac electrop...
International audienceIt has been suggested in the literature that a disorgani-sation of cardiac tis...
The bidomain model efficiently represents macroscopic cardiac electrophysiology but neglects inhomog...
Dans les dernières décennies, l'impact dû à l'altération de la microstructure du tissu cardiaque dan...
During the last decades, studies regarding the prospective impact of the alterations at the microsco...
International audienceThe usual way to model the propagation of the action potential through the car...
International audienceIt has been suggested in the literature that a disorganization of cardiac tiss...
In this paper, we study a mathematical model of cardiac tissue based on explicit representation of i...
When modelling tissue-level cardiac electrophysiology, a continuum approximation to the discrete cel...
The paper deals with a mathematical model for the electric activity of the heart at macroscopic leve...
Constant conductances are often assumed when model- ing cardiac tissue. However experimental evide...
The conduction of electrical signals through cardiac tissue is essential for maintaining the functio...
This thesis is concerned with the mathematical analysis and numerical simulation of cardiac electrop...
he aim of this thesis is to analyze the effects of time variations of the gap junctions (GJ) conduct...
Abstract We derive the values for the intracellular and extracellular conductivities needed for bido...
This thesis is concerned with the mathematical analysis and numerical simulation of cardiac electrop...