Identifying the genetic causes for prenatally diagnosed structural congenital anomalies (SCAs) by whole-exome sequencing (WES)

Leung, Gordon K. C.; Mak, Christopher Chun Yu; Fung, Jasmine Lee Fong; Wong, Wilfred Hing Sang; Tsang, Mandy Ho Yin; Yu, Mullin H.C.; Pei, Steven L. C.; Yeung, Kit San; Mok, Gary; Lee, C P; Hui, Pui Wah; Tang, Mónica; Chan, Kelvin Y.K.; Liu, Anthony Pak-Yin; Yang, Wanling; Sham, Pak C.; Kan, Anita Sik Yau; Chung, Brian Hon Yin

doi:10.1186/s12920-018-0409-z

Cited by 37 publications

(44 citation statements)

References 35 publications

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“…Over the last 5 years, CMA has increasingly replaced conventional karyotyping for the analysis of invasively obtained samples. The Noninvasive Prenatal Test (NIPT) has a very high uptake in both average and low risk pregnancies, and whole exome sequencing is slowly being introduced in the prenatal setting for certain ultrasonographic anomalies 39 . While invasive prenatal testing suffered a steep decline with the introduction of NIPT, the expansion of NIPT to karyotype resolution has partially reversed this trend, as NIPT‐positive cases need to obtain a confirmatory invasive test.…”

Section: Discussionmentioning

confidence: 99%

Prenatally detected copy number variants in a national cohort: A postnatal follow‐up study

et al. 2020

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Objective Belgian genetic centers established a database containing data on all chromosomal microarrays performed in a prenatal context. A study was initiated to evaluate postnatal development in children diagnosed prenatally with a non‐benign copy number variant (CNV). Methods All children diagnosed with a prenatally detected non‐benign CNV in a Belgian genetic center between May 2013 and February 2015 were included in the patient population. The control population consisted of children who had undergone an invasive procedure during pregnancy, with no or only benign CNVs. Child development was evaluated at 36 months using three (3) questionnaires: Ages and Stages Questionnaire Third edition, Ages and Stages Questionnaire Social‐Emotional Second Edition and a general questionnaire. Results A significant difference in communication and personal‐social development was detected between children with a reported susceptibility CNV and both children with an unreported susceptibility CNV and the control population. The outcome of children with a particular CNV is discussed in a case‐by‐case manner. Conclusion Our postnatal follow‐up project of children with a prenatally detected non‐benign CNV is the first nationwide project of its kind. A higher number of cases for each CNV category is however needed to confirm our findings.

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Section: Discussionmentioning

confidence: 99%

Prenatally detected copy number variants in a national cohort: A postnatal follow‐up study

et al. 2020

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“…Owing to the breakthrough of molecular technologies such as next-generation sequencing and its reduction of costs over the years, whole-exome sequencing (or exome sequencing, WES) has been applied for both research purposes and clinical use (Drury et al, 2015;Fu et al, 2018;Leung et al, 2018;Normand et al, 2018;Lord et al, 2019;Petrovski et al, 2019). Emerging studies show WES has the ability to provide genetic diagnoses ranging from 9.1% to 32% for the fetuses with a structural anomaly (Drury et al, 2015;Fu et al, 2018;Leung et al, 2018;Normand et al, 2018;Lord et al, 2019;Petrovski et al, 2019), while among these cases, WES yielded diagnoses in 3.2% to 21% of the fetuses with increased NT with/without structural malformations (Drury et al, 2015;Lord et al, 2019;Petrovski et al, 2019). However, most of these studies were conducted on prenatal cohorts after the exclusion of abnormal karyotypes and/or CMA results attributed to the cost and the limited ability of WES in CNV detection (Belkadi et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

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

Choy

Wang

Shi

et al. 2019

Preprint

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1 Background: 2 Increased Nuchal Translucency (NT) is an important biomarker associated with increased 3 risk of fetal structural anomalies. It is known to be contributed by a wide range of genetic 4 etiologies from single nucleotide variants to those affecting millions of base-pairs. 5 Currently, prenatal diagnosis is routinely performed by karyotyping and chromosomal 6 microarray analysis (CMA), however, both of them have limited resolution. The diversity 7 of the genetic etiologies warrants an integrated assay such as genome sequencing (GS) 8for comprehensive detection of genomic variants. Herein, we aim to evaluate the 9 feasibility of applying GS in prenatal diagnosis for the fetuses with increased NT.

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“…Adding rapid ES (rES) to the standard diagnostic procedures can reveal an additional 6% to 80% of causes, with a higher yield in fetuses with multiple congenital anomalies or clinical suspicion of a syndrome. 3,4 However, although ES may improve diagnostic yield, implementing prenatal ES is challenging due to uncertainties about the fetal phenotype, ethical counseling issues, the difficulty of variant interpretation, the need to make choices about reporting variants of unknown clinical significance, and the need for short turnaround times. 3,5,6 In this prospective study, we offered rES as a diagnostic test in standard prenatal care in addition to quantitative fluorescentpolymerase chain reaction (QF-PCR) and single nucleotide polymorphism-array (SNP-array) during pregnancy.…”

mentioning

confidence: 99%

A prospective study on rapid exome sequencing as a diagnostic test for multiple congenital anomalies on fetal ultrasound

et al. 2020

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Objective Conventional genetic tests (quantitative fluorescent‐PCR [QF‐PCR] and single nucleotide polymorphism‐array) only diagnose ~40% of fetuses showing ultrasound abnormalities. Rapid exome sequencing (rES) may improve this diagnostic yield, but includes challenges such as uncertainties in fetal phenotyping, variant interpretation, incidental unsolicited findings, and rapid turnaround times. In this study, we implemented rES in prenatal care to increase diagnostic yield. Methods We prospectively studied 55 fetuses. Inclusion criteria were: (a) two or more independent major fetal anomalies, (b) hydrops fetalis or bilateral renal cysts alone, or (c) one major fetal anomaly and a first‐degree relative with the same anomaly. In addition to conventional genetic tests, we performed trio rES analysis using a custom virtual gene panel of ~3850 Online Mendelian Inheritance in Man (OMIM) genes. Results We established a genetic rES‐based diagnosis in 8 out of 23 fetuses (35%) without QF‐PCR or array abnormalities. Diagnoses included MIRAGE (SAMD9), Zellweger (PEX1), Walker‐Warburg (POMGNT1), Noonan (PTNP11), Kabuki (KMT2D), and CHARGE (CHD7) syndrome and two cases of Osteogenesis Imperfecta type 2 (COL1A1). In six cases, rES diagnosis aided perinatal management. The median turnaround time was 14 (range 8‐20) days. Conclusion Implementing rES as a routine test in the prenatal setting is challenging but technically feasible, with a promising diagnostic yield and significant clinical relevance.

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Identifying the genetic causes for prenatally diagnosed structural congenital anomalies (SCAs) by whole-exome sequencing (WES)

Cited by 37 publications

References 35 publications

Prenatally detected copy number variants in a national cohort: A postnatal follow‐up study

Prenatally detected copy number variants in a national cohort: A postnatal follow‐up study

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

A prospective study on rapid exome sequencing as a diagnostic test for multiple congenital anomalies on fetal ultrasound

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