Abstract
We have investigated the effect of blocking the Ca/sup 2+/-channel on the transition from fibrillation to tachycardia in simulations in an anatomical model of the human ventricles, using a previously developed model of human ventricular cells where ventricular fibrillation was obtained by the process of spiral wave breakup. We show that blocking the Ca/sup 2+/-current by 75% can convert fibrillation into a periodic regime with a single stable spiral waves, which anchored to an anatomical obstacle. We show that the observed effects were due to a flattening of the restitution curve, which prevented the generation of wave breaks and stabilized the activation patterns.
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