The classical interpretation of myocardial activation assumes that the myocardium is homogeneous and that the electrical propagation is radial. However, anatomical studies have described a layered anatomical structure resulting from a continuous anatomical helical disposition of the myocardial fibers. To further investigate the sequence of electromechanical propagation based on the helical architecture of the heart, a simplified computational model was designed. This model was then used to test four activation patterns, which were generated by propagating the action potential along the myocardial band from different activation sites.Peer Reviewe
<div><p>We describe a sequence of methods to produce a partial differential equation model of the el...
The numerical solution of the coupled system of partial differential and ordinary differential equat...
Comprehension of the beating of the human heart is important for cardiac research and will improve m...
The classical interpretation of myocardial activation assumes that the myocardium is homogeneous and...
The aim of this master thesis is to create a simple 3D electro-anatomical model of cardiac tissue th...
The cardiac electrical field produced by the depolarization of the ventricles of a human heart was s...
The study of the dissemination of the electric impulse throughout the ventricular myocardium, which ...
The electrical activity in the Purkinje network and the myocardial tissue in the ventricles of the h...
An accurate understanding of cardiac function necessitates the knowledge of regulation of electromec...
Heart ventricular mechanics has been investigated intensively in the last four decades. The passive ...
We describe a sequence of methods to produce a partial differential equation model of the electrical...
AIM: The aim of this study is to develop a coupled three-dimensional computational model of cardiac ...
We describe a sequence of methods to produce a partial differential equation model of the electrical...
The Gordian knot of anatomy has been the architectural arrangement of ventricular muscle mass, whic...
The work deals with the foundations of bioelectric phenomena cardiomyocyte, then it is also part of ...
<div><p>We describe a sequence of methods to produce a partial differential equation model of the el...
The numerical solution of the coupled system of partial differential and ordinary differential equat...
Comprehension of the beating of the human heart is important for cardiac research and will improve m...
The classical interpretation of myocardial activation assumes that the myocardium is homogeneous and...
The aim of this master thesis is to create a simple 3D electro-anatomical model of cardiac tissue th...
The cardiac electrical field produced by the depolarization of the ventricles of a human heart was s...
The study of the dissemination of the electric impulse throughout the ventricular myocardium, which ...
The electrical activity in the Purkinje network and the myocardial tissue in the ventricles of the h...
An accurate understanding of cardiac function necessitates the knowledge of regulation of electromec...
Heart ventricular mechanics has been investigated intensively in the last four decades. The passive ...
We describe a sequence of methods to produce a partial differential equation model of the electrical...
AIM: The aim of this study is to develop a coupled three-dimensional computational model of cardiac ...
We describe a sequence of methods to produce a partial differential equation model of the electrical...
The Gordian knot of anatomy has been the architectural arrangement of ventricular muscle mass, whic...
The work deals with the foundations of bioelectric phenomena cardiomyocyte, then it is also part of ...
<div><p>We describe a sequence of methods to produce a partial differential equation model of the el...
The numerical solution of the coupled system of partial differential and ordinary differential equat...
Comprehension of the beating of the human heart is important for cardiac research and will improve m...