Abstract
PurposeThe aim of this study was to assess the detection efficiency and clinical application value of non-invasive prenatal testing (NIPT) for foetal copy number variants (CNVs) in clinical samples from 39,002 prospective cases.MethodsA total of 39,002 pregnant women who received NIPT by next-generation sequencing (NGS) with a sequencing depth of 6 M reads in our centre from January 2018 to April 2020 were enrolled. Chromosomal microarray analysis (CMA) was further used to diagnose suspected chromosomal aneuploidies and chromosomal microdeletion/microduplication for consistency assessment.ResultsA total of 473 pregnancies (1.213%) were positive for clinically significant foetal chromosome abnormalities by NIPT. This group comprised 99 trisomy 21 (T21, 0.254%), 30 trisomy 18 (T18, 0.077%), 25 trisomy 13 (T13, 0.064%), 155 sex chromosome aneuploidy (SCA, 0.398%), 69 rare trisomy (0.177%), and 95 microdeletion/microduplication syndrome (MMS, 0.244%) cases. Based on follow-up tests, the positive predictive values (PPVs) for the T21, T18, T13, SCA, rare trisomy, and MMS cases were calculated to be 88.89%, 53.33%, 20.00%, 40.22%, 4.88%, and 49.02%, respectively. In addition, the PPVs of CNVs of < 5 Mb, 5–10 Mb, and > 10 Mb were 54.55%, 38.46%, and 40.00%, respectively. Among the 95 cases with suspected CNVs, 25 were diagnosed as true positive and 26 cases as false positive; follow-up prenatal diagnosis by CMA was not performed for 44 cases. Moreover, among the 25 true positive cases, 10 were pathogenic, 3 were likely pathogenic, and 12 were of uncertain significance.ConclusionNIPT is not only suitable for screening T21, T18, T13, and SCA but also has potential significance for CNV detection. As combined with ultrasound, extended NIPT is effective for screening MMS. However, NIPT should not be recommended for whole-chromosome aneuploidy screening.
Highlights
Since the first detection of cell-free foetal DNA in the plasma of pregnant women in 1997 [1], noninvasive prenatal testing (NIPT) detection for foetalWang et al BMC Medical Genomics (2021) 14:292 and trisomy 13 (T13), NIPT is effective at detecting sex chromosome abnormalities (SCAs) [5, 6]
Among 38,974 cases with effective detection, 473 cases were high-risk, comprising 99 trisomy 21 (T21, 0.254%), 30 trisomy 18 (T18, 0.077%), 25 trisomy 13 (T13, 0.064%), 155 sex chromosomal aneuploidies (SCA, 0.398%), 69 rare trisomy (0.177%), and 95 microdeletion/microduplication syndrome (MMS, 0.244%) cases
Detection efficiency of T21, T18, and T13 in NIPT To evaluate the clinical efficacy of NIPT in this study, we focused on the detection efficiency of T21, T18, and T13 for overall evaluation
Summary
Wang et al BMC Medical Genomics (2021) 14:292 and T13, NIPT is effective at detecting sex chromosome abnormalities (SCAs) [5, 6]. The accuracy and reliability of MMS detection by NIPT is challenging because of the influence of some biological factors, such as a low content of cffDNA, maternal chromosomal abnormalities, and confined placental mosaicism [8]. Further sequencing or high-density single-nucleotide polymorphism-targeting methods have proven the feasibility of MMS detection by NIPT [9,10,11]. The number of clinical samples remains insufficient, and MMS classification and follow-up are not ideal, which limits the largescale application of MMS detection in NIPT
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