Tissue level cardiac electrophysiology is usually modelled by the bidomain equations, or the monodomain simplification of the bidomain equations. One assumption made when deriving the bidomain equations is that both the intracellular and extracellular space are in electrical equilibrium. This assumption neglects the disturbance of this equilibrium in thin regions close to the cell membrane known, as Debye layers. We first demonstrate that the governing equations at the cell, or microscale, level may be adapted to take account of these Debye layers with little additional complexity, provided the permittivity within the Debye layers satisfies certain conditions that are believed to be satisfied for biological cells. We then homogenise the mic...
The bidomain framework has been extensively used to model tissue electrophysiology in a variety of a...
Advanced multiscale models in computational electrocardiology offer a detailed representation of the...
The bidomain reaction-diffusion model is a set of equations (1), (2) that model how currents propaga...
International audienceIn the present paper, a new three-scale asymptotic homogenization method is pr...
Bidomain equations are the standard way to model the electric potential in cardiac tissue. We propos...
When modelling tissue-level cardiac electrophysiology, a continuum approximation to the discrete cel...
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. They are ...
The bidomain model is based on effective parameters to include the myocardial tissue properties into...
A novel multiple scales method is formulated that can be applied to problems which have an almost\ud...
International audienceIntroduction: The most used model in the elctrophysiology of theheart, known a...
International audienceWe present a new mathematical model of the electric activity of the heart. In ...
The bidomain model is often used to simulate the electrical activity in cardiac tissue. It has appli...
Abstract We derive the values for the intracellular and extracellular conductivities needed for bido...
A novel multiple scales method is formulated th at can be applied to problems which have an almost p...
The bidomain framework has been extensively used to model tissue electrophysiology in a variety of a...
Advanced multiscale models in computational electrocardiology offer a detailed representation of the...
The bidomain reaction-diffusion model is a set of equations (1), (2) that model how currents propaga...
International audienceIn the present paper, a new three-scale asymptotic homogenization method is pr...
Bidomain equations are the standard way to model the electric potential in cardiac tissue. We propos...
When modelling tissue-level cardiac electrophysiology, a continuum approximation to the discrete cel...
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. They are ...
The bidomain model is based on effective parameters to include the myocardial tissue properties into...
A novel multiple scales method is formulated that can be applied to problems which have an almost\ud...
International audienceIntroduction: The most used model in the elctrophysiology of theheart, known a...
International audienceWe present a new mathematical model of the electric activity of the heart. In ...
The bidomain model is often used to simulate the electrical activity in cardiac tissue. It has appli...
Abstract We derive the values for the intracellular and extracellular conductivities needed for bido...
A novel multiple scales method is formulated th at can be applied to problems which have an almost p...
The bidomain framework has been extensively used to model tissue electrophysiology in a variety of a...
Advanced multiscale models in computational electrocardiology offer a detailed representation of the...
The bidomain reaction-diffusion model is a set of equations (1), (2) that model how currents propaga...