Add to ORKGStructural heterogeneity constitutes one of the main substrates influencing impulse propagation in living tissues. In cardiac muscle, improved understanding on its role is key to advancing our interpretation of cell-to-cell coupling, and how tissue structure modulates electrical propagation and arrhythmogenesis in the intact and diseased heart. We propose fractional diffusion models as a novel mathematical description of structurally heterogeneous excitable media, as a mean of representing the modulation of the total electric field by the secondary electrical sources associated with tissue inhomogeneities. Our results, validated against in-vivo human recordings and experimental data of different animal species, indicate that structural hete...
<p>The role of cardiac tissue structure in both normal and abnormal impulse conduction has been exte...
Reentries are reexcitations of cardiac tissue after the passing of an excitation wave which can caus...
Heterogeneous repolarization causes dispersion of the T-wave and has been linked to arrhythmogenesis...
Impulse propagation in biological tissues is known to be modulated by structural heterogeneity. In c...
<p>Impulse propagation in cardiac muscle is determined not only by the excitable properties of the m...
<p>Cardiac arrhythmias triggered by both reentrant and focal sources are closely correlated with reg...
Arrhythmias in cardiac tissue are related to irregular electrical wave propagation in the heart. Car...
Microscopic structural features of cardiac tissue play a fundamental role in determining complex spa...
Space-fractional operators have been used with success in a variety of practical applications to des...
AbstractThis work presents a discrete multidomain model that describes ionic diffusion pathways betw...
We discuss here the use of non-local models in space and fractional order operators in the character...
Introduction: The most used model in the elctrophysiology of the heart,known as the bidomain model, ...
Space-fractional operators have been used with success in a variety of practical applica-tions to de...
Cardiac electrophysiology modeling deals with a complex network of excitable cells forming an intric...
<div><p>Space-fractional operators have been used with success in a variety of practical application...
<p>The role of cardiac tissue structure in both normal and abnormal impulse conduction has been exte...
Reentries are reexcitations of cardiac tissue after the passing of an excitation wave which can caus...
Heterogeneous repolarization causes dispersion of the T-wave and has been linked to arrhythmogenesis...
Impulse propagation in biological tissues is known to be modulated by structural heterogeneity. In c...
<p>Impulse propagation in cardiac muscle is determined not only by the excitable properties of the m...
<p>Cardiac arrhythmias triggered by both reentrant and focal sources are closely correlated with reg...
Arrhythmias in cardiac tissue are related to irregular electrical wave propagation in the heart. Car...
Microscopic structural features of cardiac tissue play a fundamental role in determining complex spa...
Space-fractional operators have been used with success in a variety of practical applications to des...
AbstractThis work presents a discrete multidomain model that describes ionic diffusion pathways betw...
We discuss here the use of non-local models in space and fractional order operators in the character...
Introduction: The most used model in the elctrophysiology of the heart,known as the bidomain model, ...
Space-fractional operators have been used with success in a variety of practical applica-tions to de...
Cardiac electrophysiology modeling deals with a complex network of excitable cells forming an intric...
<div><p>Space-fractional operators have been used with success in a variety of practical application...
<p>The role of cardiac tissue structure in both normal and abnormal impulse conduction has been exte...
Reentries are reexcitations of cardiac tissue after the passing of an excitation wave which can caus...
Heterogeneous repolarization causes dispersion of the T-wave and has been linked to arrhythmogenesis...