International audienceThis work is dedicated to the simulation of full cycles of the electrical activity of the heart and the corresponding body surface potential. The model is based on a realistic torso and heart anatomy, including ventricles and atria. One of the specificities of our approach is to model the atria as a surface, which is the kind of data typically provided by medical imaging for thin volumes. The bidomain equations are considered in their usual formulation in the ventricles, and in a surface formulation on the atria. Two ionic models are used: the Courtemanche-Ramirez-Nattel model on the atria, and the " Minimal model for human Ventricular action potentials " (MV) by Bueno-Orovio, Cherry and Fenton in the ventricles. The h...
In this study, a mathematical model is developed based on algebraic equations which is capable of ge...
Most previous electrical heart models were static, not beating ones. In this paper, we present a met...
The aim of this master thesis is to create a simple 3D electro-anatomical model of cardiac tissue th...
International audienceThis work is dedicated to the simulation of full cycles of the electrical acti...
We developed a three-dimensional finite element model of the electrical activity of the whole heart ...
This paper describes an electrical model of cardiac ventricles incorporating real geometry and motio...
simulation of electrocardiograms for full cardiac cycles in healthy and pathological condition
We developed a finite element model of the electrical activity of the whole heart embedded in the to...
An accurate understanding of cardiac function necessitates the knowledge of regulation of electromec...
Cardiovascular diseases are the leading cause of death worldwide, and are estimated to kill over 17 ...
Objectives: In this paper, we present a unified electrodynamic heart model that permits simulations ...
The cardiac electrical field produced by the depolarization of the ventricles of a human heart was s...
International audienceThis chapter presents a concise overview of various mathematical and numerical...
Comprehension of the beating of the human heart is important for cardiac research and will improve m...
In this study we present a novel computational model for unprecedented simulations of the whole card...
In this study, a mathematical model is developed based on algebraic equations which is capable of ge...
Most previous electrical heart models were static, not beating ones. In this paper, we present a met...
The aim of this master thesis is to create a simple 3D electro-anatomical model of cardiac tissue th...
International audienceThis work is dedicated to the simulation of full cycles of the electrical acti...
We developed a three-dimensional finite element model of the electrical activity of the whole heart ...
This paper describes an electrical model of cardiac ventricles incorporating real geometry and motio...
simulation of electrocardiograms for full cardiac cycles in healthy and pathological condition
We developed a finite element model of the electrical activity of the whole heart embedded in the to...
An accurate understanding of cardiac function necessitates the knowledge of regulation of electromec...
Cardiovascular diseases are the leading cause of death worldwide, and are estimated to kill over 17 ...
Objectives: In this paper, we present a unified electrodynamic heart model that permits simulations ...
The cardiac electrical field produced by the depolarization of the ventricles of a human heart was s...
International audienceThis chapter presents a concise overview of various mathematical and numerical...
Comprehension of the beating of the human heart is important for cardiac research and will improve m...
In this study we present a novel computational model for unprecedented simulations of the whole card...
In this study, a mathematical model is developed based on algebraic equations which is capable of ge...
Most previous electrical heart models were static, not beating ones. In this paper, we present a met...
The aim of this master thesis is to create a simple 3D electro-anatomical model of cardiac tissue th...