AI Article Synopsis
- Copy number variation sequencing (CNV-seq) is important for prenatal diagnosis, but it struggles with detecting issues like polyploidy and maternal cell contamination, which complicates its use for analyzing products of conception (POCs).
- A study analyzed over 4,200 miscarriage cases using CNV-seq and quantitative fluorescent PCR (QF-PCR) to determine the best strategy for genetic testing; results showed that more than 60% of cases had significant chromosomal abnormalities.
- The findings suggested that starting with CNV-seq and only using QF-PCR when necessary is both cost-effective and maintains accuracy, potentially reducing costs by about 70%.
Article Abstract
Background: Copy number variation sequencing (CNV-seq) is crucial in prenatal diagnosis, but its limitations in detecting polyploidy, maternal cell contamination (MCC), and uniparental disomy (UPD) restrict its application in the analysis of products of conception (POCs). This study aimed to investigate an optimal genetic testing strategy for POCs in the era of CNV-seq.
Methods: CNV-seq and quantitative fluorescent polymerase chain reaction (QF-PCR) were performed in all 4,211 spontaneous miscarriage cases. Different testing strategies were compared and the optimal testing strategies were proposed.
Results: Of the 4,211 cases, 2561 (60.82%) exhibited clinically significant chromosomal abnormalities. CNV-seq alone, without QF-PCR, might misdiagnose 311 (7.39%) cases, including 278 polyploidy, 13 UPD, and 20 MCC. In 20 MCC cases identified by QF-PCR, CNV-seq successfully pinpointed the cause of miscarriage in 13 cases. Furthermore, in cases where QF-PCR suggested polyploidy, CNV-seq improved the diagnostic accuracy in 54 (1.28%) hypo/hypertriploidy cases. After comparing four different strategies, the sequential approach (initiating with CNV-seq followed by QF-PCR if necessary) emerged as advantageous, reducing approximately 70% of the cost associated with QF-PCR while maintaining result accuracy.
Conclusions: We propose an initial CNV-seq followed by QF-PCR if needed-an efficient and cost-effective strategy for the genetic analysis of POCs.
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| http://dx.doi.org/10.1016/j.cca.2024.117884 | DOI Listing |
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Copy number variation sequencing for the products of conception: What is the optimal testing strategy.
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Article Synopsis
- Copy number variation sequencing (CNV-seq) is important for prenatal diagnosis, but it struggles with detecting issues like polyploidy and maternal cell contamination, which complicates its use for analyzing products of conception (POCs).
- A study analyzed over 4,200 miscarriage cases using CNV-seq and quantitative fluorescent PCR (QF-PCR) to determine the best strategy for genetic testing; results showed that more than 60% of cases had significant chromosomal abnormalities.
- The findings suggested that starting with CNV-seq and only using QF-PCR when necessary is both cost-effective and maintains accuracy, potentially reducing costs by about 70%.
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