The electrical activation of the heart is the biological process that regulates the contraction of the cardiac muscle, allowing it to pump blood to the whole body. In physiological conditions, the pacemaker cells of the sinoatrial node generate an action potential (a sudden variation of the cell transmembrane potential) which, following preferential conduction pathways, propagates throughout the heart walls and triggers the contraction of the heart chambers. The action potential propagation can be mathematically described by coupling a model for the ionic currents, flowing through the membrane of a single cell, with a macroscopical model that describes the propagation of the electrical signal in the cardiac tissue. The most accurate model a...
In this project, we develop a Finite Element Method (FEM) formulation that solves the cardiac electr...
This paper introduces different numerical strategies in computational electrophysiology, based on th...
Computer models have become more and more a research tool to obtain mechanistic insight in the effec...
The electrical activation of the heart is the biological process that regulates the contraction of t...
This book covers the main mathematical and numerical models in computational electrocardiology, rang...
In this Master thesis we aim at studying some physiological and computational aspects of the excitat...
The investigation and simulation of the main cardiac functions are increasingly using biophysically ...
Mathematical modelling of the human heart and its function can expand our understanding of various c...
This paper deals with the mathematical model that describes the function of the human heart. More sp...
This paper deals with mathematical models of cardiac bioelectric activity at both the cell and tissu...
Mathematical modeling of the human heart and its function can expand our understanding of various ca...
Mathematical modelling of the human heart and its function can expand our understanding of various c...
Solving the mathematical models of the electrical activity in the heart is difficult mainly due to t...
Mathematical Modeling of the bioelectric activity of the cardiac cell and of the tissue.Nmerical met...
An accurate understanding of cardiac function necessitates the knowledge of regulation of electromec...
In this project, we develop a Finite Element Method (FEM) formulation that solves the cardiac electr...
This paper introduces different numerical strategies in computational electrophysiology, based on th...
Computer models have become more and more a research tool to obtain mechanistic insight in the effec...
The electrical activation of the heart is the biological process that regulates the contraction of t...
This book covers the main mathematical and numerical models in computational electrocardiology, rang...
In this Master thesis we aim at studying some physiological and computational aspects of the excitat...
The investigation and simulation of the main cardiac functions are increasingly using biophysically ...
Mathematical modelling of the human heart and its function can expand our understanding of various c...
This paper deals with the mathematical model that describes the function of the human heart. More sp...
This paper deals with mathematical models of cardiac bioelectric activity at both the cell and tissu...
Mathematical modeling of the human heart and its function can expand our understanding of various ca...
Mathematical modelling of the human heart and its function can expand our understanding of various c...
Solving the mathematical models of the electrical activity in the heart is difficult mainly due to t...
Mathematical Modeling of the bioelectric activity of the cardiac cell and of the tissue.Nmerical met...
An accurate understanding of cardiac function necessitates the knowledge of regulation of electromec...
In this project, we develop a Finite Element Method (FEM) formulation that solves the cardiac electr...
This paper introduces different numerical strategies in computational electrophysiology, based on th...
Computer models have become more and more a research tool to obtain mechanistic insight in the effec...