Abstract
BackgroundPreimplantation genetic diagnosis (PGD) is a powerful tool for preventing the transmission of Mendelian disorders from generation to generation. However, PGD only can identify monogenically inherited diseases, but not other potential monogenic pathologies. We aimed to use PGD to deliver a healthy baby without congenital FVII deficiency or other common Mendelian diseases in a couple in which both individuals carried a deleterious mutation in the F7 gene.MethodsAfter both members of the couple were confirmed to be carriers of the F7 gene mutation by Sanger sequencing, expanded carrier screening (ECS) for 623 recessive inheritance diseases was performed to detect pathological mutations in other genes. PGD and preimplantational genetic screening (PGS) were employed to exclude monogenic disorders and aneuploidy for their embryos.ResultsECS using targeted capture sequencing technology revealed that the couple carried the heterozygous disease-causative mutations c.3659C > T (p.Thr1220Ile) and c.3209G > A (p.Arg1070Gln) in the CFTR gene. After PGD and PGS, one of their embryos that was free of congenital FVII deficiency, cystic fibrosis (CF) and aneuploidy was transferred, resulting in the birth of a healthy 3200 g male infant.ConclusionWe successfully implemented PGD for congenital FVII deficiency and PGD after ECS to exclude CF for the first time to the best of our knowledge. Our work significantly improved the reproductive outcome for the couple and provides a clear example of the use of ECS combined with PGD to avoid the delivery of offspring affected not only by identified monogenically inherited diseases but also by other potential monogenic pathologies and aneuploidy.
Highlights
Preimplantation genetic diagnosis (PGD) is a powerful tool for preventing the transmission of Mendelian disorders from generation to generation
Our work significantly improved the reproductive outcome for the couple and provides a clear example of the use of expanded carrier screening (ECS) combined with PGD to avoid the delivery of offspring affected by identified monogenically inherited diseases and by other potential monogenic pathologies and aneuploidy
We describe the successful application of ECS in combination with PGD and preimplantational genetic screening (PGS) to prevent the birth of offspring affected with FVII deficiency, cystic fibrosis (CF) or chromosomal abnormality
Summary
Preimplantation genetic diagnosis (PGD) is a powerful tool for preventing the transmission of Mendelian disorders from generation to generation. We aimed to use PGD to deliver a healthy baby without congenital FVII deficiency or other common Mendelian diseases in a couple in which both individuals carried a deleterious mutation in the F7 gene. More than 5000 Mendelian disorders have been identified in humans, including approximately 1300 autosomal and X-linked recessive disorders. Published data have shown that the main reasons that healthy couples seek PGD are a family history of a transmittable recessive disorder and the risk of passing disease-causative mutations to their offspring [8]. Over the last 50 years, carrier screening has progressed from addressing a small group of highly selected diseases relevant to high-risk populations to an expanded list of diseases included in preconception and prenatal screening in all healthy individuals [9,10,11]. PGD can be expanded to any recessive genetic disease with a definitive molecular diagnosis
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