Scroll waves of electrical excitation are self-organized reentrant waveforms circling a filament and are a suspected cause of lethal cardiac arrhythmias.
Scroll waves of electrical excitation are self-organized reentrant waveforms circling a filament and are a suspected cause of lethal cardiac arrhythmias.
Scroll waves of electrical excitation are self-organized reentrant waveforms circling a filament and are a suspected cause of lethal cardiac arrhythmias.
Omer Berenfeld , Marcel Wellner, Arkady M. Pertsov: Equilibration of scroll Wave Filaments in the Ventricular Wall and the Minimal Principle.
Here, we perform a systematic study of the dynamics of scroll wave filaments for the cases of positive and negative tension in this anatomical model. We study ...
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Here we study the relation between the geometry of myocardial fibers and the equilibrium shape of a scroll wave filament. Our theory accommodates a wide class ...
EQUILIBRATION OF SCROLL WAVE FILAMENTS IN THE VENTRICULAR WALL AND THE MINIMAL PRINCIPLE O Berenfeld, M Wellner, AM Pertsov, International Journal of ...
This work shows that a stable scroll wave filament shape as a geodesic in a 3D space with a metric determined by the inverse diffusivity tensor of the ...
Dec 22, 2023 · Minimal principle for rotor filaments, Proceedings of the. National ... theory for scroll wave filaments in anisotropic excitable tissue ...
An overview is given of the attempts to understand the behavior of scroll waves in three-dimensional excitable media using analytical methods.