Huanchen Yan scite author profile

Background: Increased nuchal translucency (NT) is an important biomarker associated with increased risk of fetal structural anomalies. It is known to be contributed by a wide range of genetic etiologies from single-nucleotide variants to those affecting millions of base pairs. Currently, prenatal diagnosis is routinely performed by karyotyping and chromosomal microarray analysis (CMA); however, both of them have limited resolution. The diversity of the genetic etiologies warrants an integrated assay such as genome sequencing (GS) for comprehensive detection of genomic variants. Herein, we aim to evaluate the feasibility of applying GS in prenatal diagnosis for the fetuses with increased NT. Methods: We retrospectively applied GS (> 30-fold) for fetuses with increased NT (≥3.5 mm) who underwent routine prenatal diagnosis. Detection of single-nucleotide variants, copy number variants, and structural rearrangements was performed simultaneously, and the results were integrated for interpretation in accordance with the guidelines of the American College of Medical Genetics and Genomics. Pathogenic or likely pathogenic (P/LP) variants were selected for validation and parental confirmation, when available. Results: Overall, 50 fetuses were enrolled, including 34 cases with isolated increased NT and 16 cases with other fetal structural malformations. Routine CMA and karyotyping reported eight P/LP CNVs, yielding a diagnostic rate of 16.0% (8/50). In comparison, GS provided a twofold increase in diagnostic yield (32.0%, 16/50), including one mosaic turner syndrome, eight cases with microdeletions/microduplications, and seven cases with P/LP point mutations. Moreover, GS identified two cryptic insertions and two inversions. Follow-up study further demonstrated the potential pathogenicity of an apparently balanced insertion that disrupted an OMIM autosomal dominant disease-causing gene at the insertion site. Conclusions: Our study demonstrates that applying GS in fetuses with increased NT can comprehensively detect and delineate the various genomic variants that are causative to the diseases. Importantly, prenatal diagnosis by GS doubled the diagnostic yield compared with routine protocols. Given a comparable turnaround time and less DNA required, our study provides strong evidence to facilitate GS in prenatal diagnosis, particularly in fetuses with increased NT.

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Genetic Examination for Fetuses with Increased Fetal Nuchal Translucency by Genomic Technology

Xue¹,

Yan²,

Chen³

et al. 2020

Cytogenet Genome Res

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This study aims to investigate the value of chromosomal microarray analysis (CMA) and whole exome sequencing (WES) in fetuses with increased nuchal translucency (defined as NT above the 95th centile for the crown-rump length). A total of 374 singleton pregnancies with gestational ages ranging from 11 to 13 + 6 weeks were investigated. Ultrasound displayed increased NT and no detectable structural malformations in these fetuses. Pregnancies were divided into 4 groups according to the NT values: 95th centile-3.4 mm (114 cases); 3.5-4.4 mm (150 cases); 4.5-5.4 mm (55 cases); and ≥5.5 mm (55 cases). The possible chromosomal anomalies were all analyzed by CMA first. Furthermore, 24 cases with increased NT but negative CMA results were investigated by WES, and the outcomes were followed up. Among all the 374 cases, causative genetic defects were detected in 100/374 (26.7%) of the cases along with 9 variants of unknown significance (VOUS) by CMA. CMA testing yielded 30 pathogenic variants (30/55), accounting for a detection rate of 54.5%, and 1 VOUS in the group of NT ≥5.5 mm, indicating the highest detection rate in the 4 groups. The 24 cases of the CMA negative sub-cohort with WES analysis further yielded 2 VOUS and 3 likely pathogenic variants, including 2 dominant de novo mutations in SOS1 and ECE1 and 1 recessive inherited compound heterozygous mutation in PIGN, which are associated with cardiac defects. All 3 cases opted for termination of pregnancy (TOP). In addition, 2 cases with increased NT were negative by both CMA and WES analysis, and fetal demise occurred. In conclusion, for the investigation of fetuses with increased NT exome sequencing is suggested to be considered in cases with negative CMA findings. However, appropriate genetic counseling should be given to optimizing its utilization in prenatal diagnosis.

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Phenotypic variability associated withWNT10Anonsense mutations

Geel

Gattas

Kesler

et al. 2010

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IL-17A and IL-17F, which are produced by Th17 cells, were elevated (IL-17A: clopidogrel, 237AE8 pg mL )1 ; control, not detected; and IL-17F: clopidogrel, 187AE3 pg mL )1 ; control, not detected). On the other hand, the serum IL-17A level was below the detection limit (< 60 pg mL )1 ), and the serum IL-17F level was elevated (clopidogrel, 265AE0 pg mL )1 ; control, 120AE2 pg mL )1 ).AGEP is a rare and severe skin eruption, of which 90% of cases are induced by drugs such as antibiotics, calcium channel blockers, carbamazepine, antimycotics, nonsteroidal antiinflammatory drugs and paracetamol, 3 but clopidogrel has not previously been reported as a cause of AGEP.The mechanism of AGEP is not fully understood, but drugspecific CD4+ T cells have been considered to be involved in neutrophil-rich inflammatory responses and to orchestrate the immune reaction directly by the production of IL-8, a chemoattractant for neutrophils. 4 On the other hand, it has also been hypothesized that AGEP might be induced indirectly via the production of IL-17, which that induces IL-8 production; 5 however, this has not yet been proven. In this report, we have presented the first case of AGEP with a positive DLST for clopidogrel, and elevated IL-17A and IL-17F in the culture supernatant. Although it is limited to a single case, our study suggests that Th17 may be involved in the pathogenesis of AGEP.

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Clinical utility of expanded non‐invasive prenatal screening and chromosomal microarray analysis in high‐risk pregnancy

Zhu

Chen

Wang

et al. 2021

Ultrasound in Obstet & Gyne

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Objective To evaluate the utility of expanded non‐invasive prenatal screening (NIPS), compared with chromosomal microarray analysis (CMA), for the detection of chromosomal abnormalities in high‐risk pregnancies. Methods This was a multicenter retrospective study of singleton pregnancies at high risk for chromosomal abnormality. Patients who underwent expanded NIPS and CMA sequentially during pregnancy from 2015 to 2019 were included in the analysis. Pregnancies with a positive result for sex chromosome aneuploidy were excluded as the full details could not be retrieved. The utility of expanded NIPS and CMA for detection of chromosomal abnormalities in this cohort was compared by assessing the concordance between the results. Results Of the 774 included high‐risk pregnancies, 550 (71.1%) had a positive NIPS result, while a positive CMA result was detected in 308 (39.8%) cases. The rate of full or partial concordance between NIPS and CMA was 82.2%, 59.6% and 25.0% for trisomies 21, 18 and 13, respectively. For rare aneuploidies and segmental imbalances, NIPS and CMA results were fully or partially concordant in 7.5% and 33.3% of cases, respectively. Copy‐number variants < 5 Mb were detected more often by CMA, with an incidence of 7.9% (61/774) compared with 3.1% (24/774) by NIPS. A genetic aberration was detected by CMA in 1 in 17 (5.8%) high‐risk pregnancies that had a negative or non‐reportable NIPS result. Conclusion CMA allows for comprehensive detection of genome‐wide chromosomal abnormalities in high‐risk pregnancies. CMA should be offered instead of expanded NIPS for high‐risk pregnancies. Copyright © 2020 ISUOG. Published by John Wiley & Sons Ltd.

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Huanchen Yan

Prenatal Diagnosis of Fetuses With Increased Nuchal Translucency by Genome Sequencing Analysis

Genetic Examination for Fetuses with Increased Fetal Nuchal Translucency by Genomic Technology

Phenotypic variability associated withWNT10Anonsense mutations

Clinical utility of expanded non‐invasive prenatal screening and chromosomal microarray analysis in high‐risk pregnancy

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