Infertility is a significant problem in developed countries, primarily due to late marriage and delayed childbearing. Currently, the main method of treatment is through artificial reproduction, and the most important step is selecting suitable embryos for implantation. The traditional method of selecting embryos base on morphology does not provide information about the embryo chromosomal composition. Many studies have shown that a large proportion of early miscarriages is due to chromosomal aneuploidy. Preimplantation genetic testing for aneuploidy (PGT-A) is currently used to screen embryos for chromosomal abnormalities by analyzing cells from a trophectoderm biopsy (TE). however, TE biopsy requires skilled embryologists and has potential risks, including mosaicism and potential damage to the embryos. Therefore, Non-invasive preimplantation genetic testing for aneuploidy (niPGT-A) is being considered as an alternative to PGT-A. Initially, the process of collecting spent culture medium (SBM) was confirmed to meet recent literature standards in terms of whole genome amplification (WGA) success rate, next-generation sequencing (NGS) success rate, and chromosomal concordance rate. This collection process was then applied to clinical experimental workflow. The results showed that the SBM collected on day 5 of culture had a lower WGA success rate, NGS success rate, and chromosomal concordance rate, and extending the culture to the day 6 showed improvements. Additionally, we analyzed the correlation between embryo morphology and concordance rate. The results indicated a positive correlation between embryo expansion and concordance rate. The conclusion is that the culture time and embryo expansion affect the release of embryonic DNA. Finally, although niPGT-A cannot currently replace traditional PGT-A, it can be used as an alternative. In cases of repeated PGT-A failures, niPGT-A can be considered. It is believed that more research will be invested in the future to further improve niPGT-A.