Add to ORKGWe study the drift of spiral waves in a simple model of heterogeneous excitable medium, having gradients in the distribution of ion-channel expression or cellular coupling. We report the anomalous drift of spiral waves toward regions having shorter period or stronger coupling, in reaction-diffusion models of excitable media. Such anomalous drift can promote the onset of complex spatiotemporal patterns, e. g., those responsible for life-threatening arrhythmias in the heart.We study the drift of spiral waves in a simple model of heterogeneous excitable medium, having gradients in the distribution of ion-channel expression or cellular coupling. We report the anomalous drift of spiral waves toward regions having shorter period or stronger coupl...
Many conditions remodel the heart muscle such that it results in a perturbation of cells coupling. T...
Rotating spiral waves organize excitation in vari-ous biological, physical and chemical systems. The...
Spiral waves are self-repeating waves that can form in excitable media, propagating outward from the...
We study the drift of spiral waves in a simple model of heterogeneous excitable medium, having gradi...
In relation to cardiac arrhythmias, heterogeneity of cardiac tissue is one of the most important fac...
Rotating spiral waves organize excitation in various biological, physical, and chemical systems. The...
Rotating spiral waves organize excitation in various biological, physical, and chemical systems. The...
Spiral waves occur in various types of excitable media and their dynamics determine the spatial exci...
We study numerically the dynamics of spiral waves in an excitable medium with negative restitution. ...
Heterogeneity of cardiac tissue is an important factor determining the initiation and dynamics of ca...
We report experimental results on chemical waves in 1,4-cyclohexanedione Belousov-Zhabotinsky system...
Spiral waves represent an important example of dissipative structures observed in many distributed s...
Heterogeneity of cardiac tissue is an important factor determining the initiation and dynamics of ca...
Heterogeneity of cardiac tissue is an important factor determining the initiation and dynamics of ca...
In relation to cardiac arrhythmias, heterogeneity of cardiac tissue is one of the most important fac...
Many conditions remodel the heart muscle such that it results in a perturbation of cells coupling. T...
Rotating spiral waves organize excitation in vari-ous biological, physical and chemical systems. The...
Spiral waves are self-repeating waves that can form in excitable media, propagating outward from the...
We study the drift of spiral waves in a simple model of heterogeneous excitable medium, having gradi...
In relation to cardiac arrhythmias, heterogeneity of cardiac tissue is one of the most important fac...
Rotating spiral waves organize excitation in various biological, physical, and chemical systems. The...
Rotating spiral waves organize excitation in various biological, physical, and chemical systems. The...
Spiral waves occur in various types of excitable media and their dynamics determine the spatial exci...
We study numerically the dynamics of spiral waves in an excitable medium with negative restitution. ...
Heterogeneity of cardiac tissue is an important factor determining the initiation and dynamics of ca...
We report experimental results on chemical waves in 1,4-cyclohexanedione Belousov-Zhabotinsky system...
Spiral waves represent an important example of dissipative structures observed in many distributed s...
Heterogeneity of cardiac tissue is an important factor determining the initiation and dynamics of ca...
Heterogeneity of cardiac tissue is an important factor determining the initiation and dynamics of ca...
In relation to cardiac arrhythmias, heterogeneity of cardiac tissue is one of the most important fac...
Many conditions remodel the heart muscle such that it results in a perturbation of cells coupling. T...
Rotating spiral waves organize excitation in vari-ous biological, physical and chemical systems. The...
Spiral waves are self-repeating waves that can form in excitable media, propagating outward from the...