This paper deals with the mathematical model that describes the function of the human heart. More specifically, it addresses the equations that express the electromechanical process, that is the mechanical deformation (contraction and relaxation) of the heart muscle that is induced by the electrical field that, at every heartbeat, is generated in the sino-atrial node and then propagates all across the cardiac cells. After deriving the equations of the mathematical model from basic physical principles, we proceed to their numerical approximations and discuss issues such as stability, accuracy and computational complexity. We close the paper by illustrating a few numerical results on test problems of potential interest for clinical applicatio...
The heart is a complex organ found in all vertebrates. It circulates blood throughout the body by cy...
Models of cardiac electromechanics usually contain a contraction model determining the active tensio...
In the paper the numerical model of the electrochemical and mechanical heart activity which has been...
In this paper we introduce the electromechanical mathematical model of the human heart. After derivi...
The electrical activation of the heart is the biological process that regulates the contraction of t...
In this paper, we present a mathematical model able to simulate the cardiac function. We first descr...
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...
Mathematical modelling of the human heart and its function can expand our understanding of various c...
In this Master thesis we aim at studying some physiological and computational aspects of the excitat...
Comprehension of the beating of the human heart is important for cardiac research and will improve m...
Mathematical modeling of the human heart and its function can expand our understanding of various ca...
A heartbeat is the consequence of cardiac tissue deforming in response to tension generated in cardi...
A model for the electromechanical activity of the heart tissue is introduced. We present a summary o...
We present an overview of the developments in the modeling of cardiac fluid/tissue mechanics and ele...
The heart is a complex organ found in all vertebrates. It circulates blood throughout the body by cy...
Models of cardiac electromechanics usually contain a contraction model determining the active tensio...
In the paper the numerical model of the electrochemical and mechanical heart activity which has been...
In this paper we introduce the electromechanical mathematical model of the human heart. After derivi...
The electrical activation of the heart is the biological process that regulates the contraction of t...
In this paper, we present a mathematical model able to simulate the cardiac function. We first descr...
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...
Mathematical modelling of the human heart and its function can expand our understanding of various c...
In this Master thesis we aim at studying some physiological and computational aspects of the excitat...
Comprehension of the beating of the human heart is important for cardiac research and will improve m...
Mathematical modeling of the human heart and its function can expand our understanding of various ca...
A heartbeat is the consequence of cardiac tissue deforming in response to tension generated in cardi...
A model for the electromechanical activity of the heart tissue is introduced. We present a summary o...
We present an overview of the developments in the modeling of cardiac fluid/tissue mechanics and ele...
The heart is a complex organ found in all vertebrates. It circulates blood throughout the body by cy...
Models of cardiac electromechanics usually contain a contraction model determining the active tensio...
In the paper the numerical model of the electrochemical and mechanical heart activity which has been...