Abstract

The ongoing development of assisted reproductive technologies has provided hope to individuals struggling with infertility, promising the potential for a healthy pregnancy. One significant innovation in field of pre-implantation genetic screening (PGS) requires the biopsy of embryos or oocytes, which has potential implications for the health and development of the resultant offspring. Therefore, a non-invasive approach to preimplantation genetic screening is highly sought after. The clinical application of non-invasive preimplantation genetic testing (ni-PGT) is currently limited, with its sensitivity and specificity requiring further investigation. In this study, we used 218 human embryos for single-cell whole genome amplification (WGA), along with ni-PGT of blastocoele fluid (BF) and spent culture medium (SCM). Whole blastocyst (WB), trophectoderm biopsy (TB), and inner cell mass (ICM) from embryo biopsies were used as controls to track genomic signal alterations. Our results showed that the overall genome similarity between SCM and ICM was higher than that of BF. Apart from the Y chromosome, both SCM and ICM demonstrated numerous variant sites across other chromosomes.Further categorization of gene variants in these two sample types revealed that missense variants were the most prevalent, single nucleotide polymorphisms were more common than insertions or deletions, and C > T was the dominant single nucleotide variants in both ICM and SCM. Lastly, we found that the mutant genes in SCM and ICM had different biological functions and pathways. This study indicates that SCM provides a more effective source of embryonic DNA for preimplantation genetic screening, offering a novel reference point for genetic screening research.

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