The key objective of this work is the design of an unconditionally stable, robust, efficient, modular, and easily expandable finite element-based simulation tool for cardiac electrophysiology. In contrast to existing formulations, we propose a global–local split of the system of equations in which the global variable is the fast action potential that is introduced as a nodal degree of freedom, whereas the local variable is the slow recovery variable introduced as an internal variable on the integration point level. Cell-specific excitation characteristics are thus strictly local and only affect the constitutive level. We illustrate the modular character of the model in terms of the FitzHugh–Nagumo model for oscillatory pacemaker cells and t...
The electrical activation of the heart is the biological process that regulates the contraction of t...
Abstract This manuscript is concerned with a novel, unified finite element approach to fully coupled...
Computational modeling of the cardiovascular system has improved remarkably with the advances in the...
The key objective of this work is the design of an unconditionally stable, robust, efficient, modula...
The objective of this work is the computational simulation of a patient-specific electrocardiogram (...
The objective of this work is the computational simulation of a patient-specific electrocardiogram (...
We propose a novel, efficient finite element solution technique to simulate the electrochemical resp...
This book covers the main mathematical and numerical models in computational electrocardiology, rang...
Computational modeling of the human heart allows us to predict how chemical, electrical, and mechani...
Computational modeling of the human heart allows us to predict how chemical, electrical, and mechani...
An accurate understanding of cardiac function necessitates the knowledge of regulation of electromec...
The heart is one the most important organs in the human body and many other live creatures. The elec...
We developed a finite element model of the electrical activity of the whole heart embedded in the to...
Computational cardiology is rapidly becoming the gold standard for innovative medical treatments and...
In this study we present a novel computational model for unprecedented simulations of the whole card...
The electrical activation of the heart is the biological process that regulates the contraction of t...
Abstract This manuscript is concerned with a novel, unified finite element approach to fully coupled...
Computational modeling of the cardiovascular system has improved remarkably with the advances in the...
The key objective of this work is the design of an unconditionally stable, robust, efficient, modula...
The objective of this work is the computational simulation of a patient-specific electrocardiogram (...
The objective of this work is the computational simulation of a patient-specific electrocardiogram (...
We propose a novel, efficient finite element solution technique to simulate the electrochemical resp...
This book covers the main mathematical and numerical models in computational electrocardiology, rang...
Computational modeling of the human heart allows us to predict how chemical, electrical, and mechani...
Computational modeling of the human heart allows us to predict how chemical, electrical, and mechani...
An accurate understanding of cardiac function necessitates the knowledge of regulation of electromec...
The heart is one the most important organs in the human body and many other live creatures. The elec...
We developed a finite element model of the electrical activity of the whole heart embedded in the to...
Computational cardiology is rapidly becoming the gold standard for innovative medical treatments and...
In this study we present a novel computational model for unprecedented simulations of the whole card...
The electrical activation of the heart is the biological process that regulates the contraction of t...
Abstract This manuscript is concerned with a novel, unified finite element approach to fully coupled...
Computational modeling of the cardiovascular system has improved remarkably with the advances in the...