Balance between sodium and calcium currents underlying chronic atrial fibrillation termination: An in silico intersubject variability study

Article ID	Journal	Published Year	Pages	File Type
5603146	Heart Rhythm	2016	8 Pages	PDF

Abstract

Mathematical simulations based on a population of models representing intersubject variability allow the identification of ionic mechanisms underlying rotor dynamics and the definition of new personalized pharmacologic strategies. Our results suggest that the underlying mechanism of the diverging success of ICaL block as an antiarrhythmic strategy is dependent on the basal availability of sodium and calcium ion channel conductivities.

Keywords

calcium current Ionic currents Rotor dynamics Atrial fibrillation Mathematical modeling

Related Topics

Health Sciences Medicine and Dentistry Cardiology and Cardiovascular Medicine

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Balance between sodium and calcium currents underlying chronic atrial fibrillation termination: An in silico intersubject variability study

Authors

Alejandro PhD, Alfonso PhD, Miguel MS, Ursula MD, Ismael MS, Francisco MD, PhD, Maria S. PhD, Blanca PhD, Andreu M. PhD,