Our UK National Health Service regional genetics laboratory offers NIPD for autosomal dominant and de novo conditions (achondroplasia, thanataphoric dysplasia, Apert syndrome), paternal mutation exclusion for cystic fi brosis and a range of bespoke tests. NIPD avoids the risks associated with invasive testing, making prenatal diagnosis more accessible to families at high genetic risk. However, the challenge remains in offering defi nitive diagnosis for autosomal recessive diseases, which is complicated by the predominance of the maternal mutant allele in the cell-free DNA sample and thus requires a variety of different approaches. Validation and diagnostic implementation for NIPD of congenital adrenal hyperplasia (CAH) is further complicated by presence of a pseudogene that requires a different approach. We have used an assay targeting approximately 6700 heterozygous SNPs around the CAH gene (CYP21A2) to construct the high-risk parental haplotypes and tested this approach in fi ve cases, showing that inheritance of the parental alleles can be correctly identifi ed using NIPD. We are evaluating various measures of the fetal fraction to help determine inheritance of parental mutations. We are currently exploring the utility of an NIPD multi-disorder panel for autosomal recessive disease, to make testing more widely applicable to families with a variety of serious genetic conditions.
CITATION STYLE
Drury, S., Mason, S., McKay, F., Lo, K., Boustred, C., Jenkins, L., & Chitty, L. S. (2016). Implementing non-invasive prenatal diagnosis (Nipd) in a national health service laboratory; From dominant to recessive disorders. Advances in Experimental Medicine and Biology, 924, 71–75. https://doi.org/10.1007/978-3-319-42044-8_14
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