Comprehensive application of multiple molecular diagnostic techniques in pre-implantation genetic testing for monogenic

BackgroundPre-implantation genetic testing for monogenic disorders (PGT-M) is an effective approach to reducing the incidence of birth defects by preventing the transmission of inherited diseases to offspring. However, there are still controversies regarding the detection methods and transplantation of embryos. This paper aims to evaluate the effectiveness of different detection technologies applied to PGT-M through a retrospective analysis of clinical detection data.MethodsThe carrier status of pathogenic mutations and chromosomal copy number variants (CNVs) in 892 embryos was characterized using next-generation sequencing (NGS), single-nucleotide polymorphism (SNP) array, and PCR-based detection technologies. Clinical data from PGT-M cases were retrospectively analyzed to assess the effectiveness of these detection methods in identifying genetic abnormalities in embryos.ResultsA total of 829 embryos were analyzed, with 63 being unsuccessful. Our study revealed that the success rate of detecting deletional mutations using Gap-PCR 84.9%, which is lower than that of SNP array (98.7%) and NGS (92.5%). However, no significant difference was observed when detecting point mutations using any of the methods. These findings suggest that, when detecting deletional mutations, SNP array and NGS are more suitable choices compared to Gap-PCR. While SNP array may have a lower resolution and success rate (80.5%) in analyzing CNVs compared to NGS (95.5%), it may still be useful for revealing certain abnormal types.ConclusionIn conclusion, this study found that SNP analysis is advantageous for identifying polygenic and deletional mutations, whereas NGS is more cost-efficient for detecting common monogenic diseases. Additionally, SNP-based haplotyping and PCR-based direct detection of mutations can be used together to enhance the accuracy and success rates of PGT-M. Our findings offer valuable insights for PGT technicians in choosing suitable detection methods for patients. Applying a single method in PGT-M will lead to a low detection success rate and false positive or false negative results due to the advantages and disadvantages of each technique. This study proposes a multi-technology comprehensive application scheme, which can improve the detection efficiency and reliability of PGT.image

Automated summary

This study evaluated the effectiveness of different detection technologies applied to pre-implantation genetic testing for monogenic disorders (PGT-M) through a retrospective analysis of clinical detection data. The study found that SNP array and NGS are more suitable choices compared to Gap-PCR for detecting deletional mutations. However, no significant difference was observed when detecting point mutations using any of the methods. The study also proposed a multi-technology comprehensive application scheme to improve the detection efficiency and reliability of PGT-M.