P312The selective late sodium current inhibitor eleclazine attenuates ventricular fibrillation spectral characteristics modifications produced by acute myocardial stretch

P1602Basic electrophysiological modifications induced by carvedilol in unstrectched and stretched ventricular myocardium

Abstract Background Acute regional ventricular stretch (ARVS) is a pathophysiologic event that may occur in certain situations, originating arrhythmogenic effects through the mechanoelectrical feedback. Mechanical effects of stretch originate calcium-related changes as sarcoplasmic recticulum Ca2+ overload that can trigger Ca2+ diastolic leaks (store-overload-induced Ca2+ release, SOICR), mediated by the cardiac ryanodine receptor (RyR2). SOICR seems to be implicated in the mechanisms underlying stretch-induced arrhythmias. Carvedilol can inhibit the overload of Ca2+ through blocking of beta-adrenergic receptors, and also suppress the release of Ca2+ induced by the SOICR. Purpose The aim of…

P3492Carvedilol and its analogue VK-II-86 attenuate stretch-induced manifestations of mechanoelectric feedback

Abstract Background Mechanical stretch modifies Ca2+ handling and myocardial electrophysiology, favoring arrhythmogenesis. The store-overload-induced Ca2+ release (SOICR) through the ryanodine receptor (RyR2) seems to be implicated in this deleterious effect. Carvedilol and its analogue VK-II-86 (which does not have significant beta-blocking effects) suppress SOCIR by directly reducing the open duration of the cardiac RyR2, and could modulate calcium-related changes produced by myocardial stretch. Purpose The aim of this study was to investigate, by the ventricular fibrillation (VF) spectral analysis, whether carvedilol and VK-II-86 prevents stretch-induced arrhythmogenic effects. Methods T…

P525Ranolazine attenuates stretch-induced modifications of the electrical characteristics of atrial fibrillation in HL-1 cells