Abstract 18543: Whole Exome Sequencing in Sudden Infant Death Syndrome Identifies a High Proportion of Putative Pathogenic and Functionally Significant Rare Variants Related to Inherited Cardiac Conditions

Introduction: Sudden Infant Death Syndrome (SIDS) is defined as the sudden death of an infant which remains unexplained after comprehensive clinical and pathological assessment. Prior studies have implicated inherited cardiac conditions (ICC). Hypothesis: Whole exome sequencing will identify a significant burden of putative pathogenic (PP) and rare functionally significant (RFS) cardiac genetic variants in SIDS. Methods: 96 SIDS cases with complete phenotypic data were selected from 434 cases. Prone sleeping position was excluded to enrich for genetic risk. Genomic DNA underwent target enrichment using Agilent SureSelect Human All Exon v5 kit and sequencing on Illumina HiSeq. Reads were aligned to GRCh37 reference genome with Novoalign and variants called with SAMtools. Principal component analysis identified 82 cases of North European (NE) ancestry. Variants were annotated with Annovar and compared to control data from a local exome database, 1000 Genomes and ESP. Analysis focused on 83 known ICC susceptibility genes (27 channelopathy-associated [CH]; 56 cardiomyopathy-associated [CM]). PP was defined as ultra rare nonsense or frameshift mutations or other variants previously reported as disease-associated and absent in controls. RFS was defined as variants with abnormal functional characterization and <0.5% prevalence in controls. Results: 20/82 cases (24%) carried at least 1 PP/RFS variant: 12 CH variants in 9 genes (AKAP9, ANK2, CACNB2, CAV3, KCNE2, RYR2, SCN5A, SNTA1, TRDN) in 13 cases; 7 CM variants in 5 genes (ABCC9, ACTN2, CSRP3, TCAP, TTN) in 8 cases. Variants were most commonly identified in the 3-6 months age group (p=0.009). There were no other significant phenotypic differences between variant-positive and negative cases (Table 1). Conclusions: There was an 11% yield of PP variants in non-prone sleeping SIDS cases of NE ancestry, with an additional 13% hosting RFS variants. These may provide a potential substrate in the pathophysiology of SIDS. ![][1] [1]: /embed/graphic-1.gif