Add to ORKGThe usual way to model the propagation of the action potential through the cardiac tissue is to assume passive diffusive intracellular and extracellular domains, and ion channel dynamics on the cells' membrane. Gap junctions (GJ) are localised clusters of gap junction channels (GJCs) that connects electrically adjacent cells. The importance of GJCs and their modifications in the signal propagation has been demonstrated in the experimental studies (e.g. Beauchamp et al 2012). But, in the current mathematical models the behaviour of the GJCs is either neglected or assumed to be passive, i.e the conductance of GJCs is taken as a steady constant. On the other hand, the experimental results, obtained by the dual-voltage clamp technique, show tha...
The cell-to-cell propagation of the cardiac action potential allows for the electro-mechanical coupl...
When modelling tissue-level cardiac electrophysiology, a continuum approximation to the discrete cel...
Two main mechanisms have been suggested for the propagation of action potentials in cardiac muscle c...
The usual way to model the propagation of the action potential through the cardiac tissue is to assu...
Background: Velocity and pattern of propagation of cardiac AP depends on structural andfunctional pr...
he aim of this thesis is to analyze the effects of time variations of the gap junctions (GJ) conduct...
Abstract Gap junctions (GJs) formed of connexin (Cx) protein are the main conduits of electrical sig...
Constant conductances are often assumed when model- ing cardiac tissue. However experimental evidenc...
AbstractThe gap junction connecting cardiac myocytes is voltage and time dependent. This simulation ...
In this paper, we study the propagation of the cardiac action potential in a one-dimensional fiber, ...
Constant conductances are often assumed when model- ing cardiac tissue. However experimental evide...
Gap junctions are key mediators of intercellular communication in cardiac tissue, and their function...
Gap junctions are membrane channels that connect the cytoplasm of adjacent cells allowing the cell-t...
Gap junctions are key mediators of intercellular communication in cardiac tissue, and their function...
Gap junctions are membrane channels that connect the cytoplasm of adjacent cells allowing the cell-t...
The cell-to-cell propagation of the cardiac action potential allows for the electro-mechanical coupl...
When modelling tissue-level cardiac electrophysiology, a continuum approximation to the discrete cel...
Two main mechanisms have been suggested for the propagation of action potentials in cardiac muscle c...
The usual way to model the propagation of the action potential through the cardiac tissue is to assu...
Background: Velocity and pattern of propagation of cardiac AP depends on structural andfunctional pr...
he aim of this thesis is to analyze the effects of time variations of the gap junctions (GJ) conduct...
Abstract Gap junctions (GJs) formed of connexin (Cx) protein are the main conduits of electrical sig...
Constant conductances are often assumed when model- ing cardiac tissue. However experimental evidenc...
AbstractThe gap junction connecting cardiac myocytes is voltage and time dependent. This simulation ...
In this paper, we study the propagation of the cardiac action potential in a one-dimensional fiber, ...
Constant conductances are often assumed when model- ing cardiac tissue. However experimental evide...
Gap junctions are key mediators of intercellular communication in cardiac tissue, and their function...
Gap junctions are membrane channels that connect the cytoplasm of adjacent cells allowing the cell-t...
Gap junctions are key mediators of intercellular communication in cardiac tissue, and their function...
Gap junctions are membrane channels that connect the cytoplasm of adjacent cells allowing the cell-t...
The cell-to-cell propagation of the cardiac action potential allows for the electro-mechanical coupl...
When modelling tissue-level cardiac electrophysiology, a continuum approximation to the discrete cel...
Two main mechanisms have been suggested for the propagation of action potentials in cardiac muscle c...