Abstract
Background/Objectives: To assess the ploidy status of embryos via preimplantation genetic testing for aneuploidy (PGT-A), a biopsy of trophectoderm (TE) cells can be performed. However, this approach is considered invasive, and therefore the aim of this study was to identify the optimal sample type and sampling day for non-invasive or minimally invasive PGT-A (ni/miPGT-A) in terms of data quality and concordance rates with TE biopsies derived from the same embryos. Methods: This study was performed using 239 embryo cultures. After optimization using 96 embryos, non-invasive spent culture media (SCM) and a minimally invasive combination of blastocoel fluid and SCM (BF+SCM), along with the corresponding TE samples, were collected from 143 embryos cultured for 5 days (n = 70) or 6 days (n = 73), and all were subjected to ni/miPGT-A with whole-genome amplification followed by next-generation sequencing. Results: The amplification failure rate was lower for SCM samples than for BF+SCM (SCM: 0.7%, 1/143 vs. BF+SCM: 7.7%, 11/143; p = 0.005). The rate of ploidy concordance with TE was significantly higher for SCM samples than for BF+SCM samples (SCM: 83.7%, 118/141 vs. BF+SCM: 58%, 76/131; p < 0.001). Among SCM samples, concordance rates were higher for samples derived from embryos cultured for 6 days (87.5%, 63/72) than for 5 days (79.7%, 55/69). In the embryos cultured for 6 days, discordant cases included five (6.9%) SCM samples with falsely negative (euploid) results that were deemed to be mosaic according to TE and four (5.6%) samples falsely found to be aneuploid. Conclusions: SCM samples derived from embryos cultured for 6 days can be applied in niPGT-A with subsequent verification of aneuploid samples using TE biopsy.
Published Version
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