Congenital heart defects (CHDs) are thought to result from genetic and environmental factors that disturb cardiac embryogenesis. Because families with multiple members affected with atrial septal defects (ASDs) and atrioventricular canal defects (AVCDs) have been described, and the paramembranous ventricular septum is in part completed by the formation of the atrioventricular cushions, this project describes a genetic-epidemiologic study of ASDs, paramembranous ventricular septal defects (VSDs), and AVCDs. Three groups of subjects, each with surgically- or echocardiographically-confirmed diagnoses of ASDs, VSDs or AVCDs have been identified for study at the University of Iowa Hospitals and Clinics, and at Wolfson Children's Hospital in Jacksonville, Florida. A fourth group of older subjects with ASDs and their progeny will be studied at Iowa because of the reported high recurrence of heart disease in the offspring of subjects with ASDs. The strategy proposed calls upon the molecular genetic capacities available at the University of Iowa to carry out genome-wide searches for genetic loci involved in these defects. Several candidate regions have been identified for ASDs, VSDs and AVCDs. In addition, three well-recognized syndromes provide additional candidate regions - Down syndrome, Holt-Oram syndrome and 8p-syndrome. Parent-affected child trios will be genotyped for closely-spaced markers within these regions and linkage disequilibrium analysis will be used to narrow or exclude these candidate intervals. A genome-wide association study of the trios will employ a parsimonious technique in which DNA from cases with the same CHD phenotype will be pooled, and compared to the pooled DNA from their parents. Loci will be identified where the allele frequency distributions in the affected children and their parents are significantly different. When such loci are identified, a finer localization of the chromosomal area will be undertaken using a high-density set of short tandem repeat polymorphic markers that spans each of the candidate intervals. This study has the potential to identify new candidate loci which are risk factors for the development of congenital heart defects.
Showing the most recent 10 out of 24 publications