Abstract 13281: Idiopathic Ventricular Fibrillation Endophenotype Determines the Yield of Ultra-Rare RYR2 Variants in Youthful Unexplained Sudden Cardiac Arrest

Abstract

Introduction: Loss-of-function variants in the RYR2-encoded cardiac calcium release channel underlie a small number of unexplained sudden cardiac arrest and death (SCA/SCD) cases. Objective: To determine if the yield of ultra-rare RYR2 variants in unexplained SCA patients with a default diagnosis of idiopathic ventricular fibrillation (IVF) depends on pre-defined IVF endophenotype and whether RYR2 variant-positive IVF cases have a discernible electrocardiographic phenotype. Methods: All SCA cases referred to Mayo Clinic’s Windland Smith Rice Genetic Heart Rhythm Clinic between 01/2000 and 04/2021 were reviewed. After exclusion of 116 cases where a probable SCA root cause was identified and/or RYR2 genetic testing was not pursued, a total of 64 unexplained SCA cases (36% female; 26 ± 11 years at the time of SCA) were included. Clinical data was extracted from the medical record and patients classified as having i) IVF (no diagnostic clues), N=38 (59%) ii) PVC-triggered ventricular fibrillation (PTVF; documented short coupled PVC-triggered ventricular arrhythmias), N=19 (30%), or iii) early repolarization syndrome (ERS; J-point elevation ≥0.1 mV in ≥2 contiguous leads, excluding leads V 1 -V 3 ), N=7 (11%). The yield of ultra-rare, non-synonymous RYR2 variants (MAF<0.0001 in the Genome Aggregation Database) and electrocardiographic profiles were then compared. Results: Overall, a qualifying, ultra-rare RYR2 non-synonymous variant was identified in 5 out of 64 (7.8%) unexplained SCA patients. Of note, the yield of ultra-rare RYR2 missense variants was significantly higher in individuals with an PTVF endophenotype than those without [4/19 (21%) versus 1/45 (2.2%), p=0.02]. Interestingly, the majority of ultra-rare RYR2 variant-positive unexplained SCA survivors [3/5 (60%)] displayed an exercise stress test pattern characterized by the onset of ventricular ectopy at ~120 bpm with suppression at heart rates ≥140 bpm. Conclusions: The burden of ultra-rare RYR2 variants is higher in unexplained SCA patients with documented PTVF. Collectively, this data suggests that i) a subset of PTVF may have an underlying genetic basis and ii) some IVF- and PTVF-associated RYR2 variants may result in an identifiable electrocardiographic profile.