UNLABELLED: Calcium channel antagonism in RyR2 defects. INTRODUCTION: Recently, gain-of-function mutations of cardiac ryanodine receptor RyR2 gene have been identified as a cause of familial or catecholaminergic polymorphic ventricular tachycardia. We examined the influence of the calcium channel blockers, verapamil and magnesium, on exercise-induced ventricular arrhythmias in patients with RyR2 mutations. METHODS AND RESULTS: Six molecularly defined catecholaminergic polymorphic ventricular tachycardia patients, all carrying a RyR2 mutation and on beta-adrenergic blocker therapy, underwent exercise stress test four times: at baseline, after verapamil and magnesium sulphate infusions, and finally, without interventions. The number of isolated and successive premature ventricular complexes during exercise ranged from 40 to 374 beats (mean 165 beats) at baseline, and was reduced during verapamil by 76+/-17% (P<0.05). Premature ventricular complexes appeared later and at higher heart rate during verapamil than at baseline (119+/-21 vs. 127+/-27 min-1, P<0.05). Magnesium did not inhibit the arrhythmias. Results in the fourth exercise stress test without interventions were similar to those in the first baseline study. CONCLUSIONS: This study provides the first in vivo demonstration that a calcium channel antagonist, verapamil, can suppress premature ventricular complexes and nonsustained ventricular salvoes in catecholaminergic polymorphic ventricular tachycardia caused by RyR2 mutations. Modifying the abnormal calcium handling by calcium antagonists might have therapeutic value.
UNLABELLED: Calcium channel antagonism in RyR2 defects. INTRODUCTION: Recently, gain-of-function mutations of cardiac ryanodine receptor RyR2 gene have been identified as a cause of familial or catecholaminergic polymorphic ventricular tachycardia. We examined the influence of the calcium channel blockers, verapamil and magnesium, on exercise-induced ventricular arrhythmias in patients with RyR2 mutations. METHODS AND RESULTS: Six molecularly defined catecholaminergic polymorphic ventricular tachycardiapatients, all carrying a RyR2 mutation and on beta-adrenergic blocker therapy, underwent exercise stress test four times: at baseline, after verapamil and magnesium sulphate infusions, and finally, without interventions. The number of isolated and successive premature ventricular complexes during exercise ranged from 40 to 374 beats (mean 165 beats) at baseline, and was reduced during verapamil by 76+/-17% (P<0.05). Premature ventricular complexes appeared later and at higher heart rate during verapamil than at baseline (119+/-21 vs. 127+/-27 min-1, P<0.05). Magnesium did not inhibit the arrhythmias. Results in the fourth exercise stress test without interventions were similar to those in the first baseline study. CONCLUSIONS: This study provides the first in vivo demonstration that a calcium channel antagonist, verapamil, can suppress premature ventricular complexes and nonsustained ventricular salvoes in catecholaminergic polymorphic ventricular tachycardia caused by RyR2 mutations. Modifying the abnormal calcium handling by calcium antagonists might have therapeutic value.
Authors: Christian van der Werf; Prince J Kannankeril; Frederic Sacher; Andrew D Krahn; Sami Viskin; Antoine Leenhardt; Wataru Shimizu; Naokata Sumitomo; Frank A Fish; Zahurul A Bhuiyan; Albert R Willems; Maurits J van der Veen; Hiroshi Watanabe; Julien Laborderie; Michel Haïssaguerre; Björn C Knollmann; Arthur A M Wilde Journal: J Am Coll Cardiol Date: 2011-05-31 Impact factor: 24.094
Authors: Hiroshi Watanabe; Christian van der Werf; Ferran Roses-Noguer; Arnon Adler; Naokata Sumitomo; Christian Veltmann; Raphael Rosso; Zahurul A Bhuiyan; Hennie Bikker; Prince J Kannankeril; Minoru Horie; Tohru Minamino; Sami Viskin; Björn C Knollmann; Jan Till; Arthur A M Wilde Journal: Heart Rhythm Date: 2012-12-31 Impact factor: 6.343