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Observational Study
. 2024 Oct 10;5(4):100334.
doi: 10.1016/j.xhgg.2024.100334. Epub 2024 Jul 19.

WES-based screening of 7,000 newborns: A pilot study in Russia

Jekaterina Shubina  1 Ekaterina Tolmacheva  2 Dmitry Maslennikov  2 Taisiya Kochetkova  2 Irina Mukosey  2 Igor Sadelov  2 Andrey Goltsov  2 Ilya Barkov  2 Aleksey Ekimov  2 Margarita Rogacheva  2 Olga Stupko  2 Nadezhda Pavlova  2 Maria Kuznetsova  2 Alina Dokshukina  2 Grigory Vasiliev  2 Anna Bolshakova  2 Valeriia Kovalskaia  2 Anastasia Korovko  2 Ekaterina Pomerantseva  2 Polina Tsabai  2 Olga Buyanovskaya  2 Nadezhda Zaretskaya  2 Natalia Karetnikova  2 Elena Grebenshchikova  3 Anna Degtyareva  2 Ekaterina Bokerija  2 Alexey Kholin  2 Denis Rebrikov  4 Dmitry Degtyarev  2 Dmitriy Trofimov  2 Gennady Sukhih  2
Affiliations
Observational Study

WES-based screening of 7,000 newborns: A pilot study in Russia

Jekaterina Shubina et al. HGG Adv. .

Abstract

The effective implementation of whole-exome sequencing- and whole-genome sequencing-based diagnostics in the management of children affected with genetic diseases and the rapid decrease in the cost of next-generation sequencing (NGS) enables the expansion of this method to newborn genetic screening programs. Such NGS-based screening greatly increases the number of diseases that can be detected compared to conventional newborn screening, as the latter is aimed at early detection of a limited number of inborn diseases. Moreover, genetic testing provides new possibilities for family members of the proband, as many variants responsible for adult-onset conditions are inherited from the parents. However, the idea of NGS-based screening in healthy children raises issues of medical and ethical integrity as well as technical questions, including interpretation of the observed variants. Pilot studies have shown that both parents and medical professionals have moved forward and are enthused about these new possibilities. However, either the number of participants or the number of genes studied in previous investigations thus far has been limited to a few hundred, restricting the scope of potential findings. Our current study (NCT05325749) includes 7,000 apparently healthy infants born at our center between February 2021 and May 2023, who were screened for pathogenic variants in 2,350 genes. Clinically significant variants associated with early-onset diseases that can be treated, prevented, or where symptoms can be alleviated with timely introduced symptomatic therapy, were observed in 0.9% of phenotypically normal infants, 2.1% of the screened newborns were found to carry variants associated with reduced penetrance or monogenic diseases of adult-onset and/or variable expressivity, and 0.3% had chromosomal abnormalities. Here, we report our results and address questions regarding the interpretation of variants in newborns who were presumed to be healthy.

Keywords: NGS-based screening; WES; monogenic disorders; newborn screening; sex chromosome aneuploidies.

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Conflict of interest statement

Declaration of interests The authors declare no competing interests.

Figures

Figure 1
Figure 1
Proportion of samples that require manual variant interpretation including repeated (observed more than once in our study cohort) variants (blue) and excluding repeated variants (red) Dotted lines indicate linear approximation.
Figure 2
Figure 2
Distribution of cases reported within basic screening
Figure 3
Figure 3
Distribution of cases reported within expanded screening
Figure 4
Figure 4
Distribution of observed sex chromosome abnormalities
See this image and copyright information in PMC

References

    1. Nguengang Wakap S., Lambert D.M., Olry A., Rodwell C., Gueydan C., Lanneau V., Murphy D., Le Cam Y., Rath A. Estimating cumulative point prevalence of rare diseases: analysis of the Orphanet database. Eur. J. Hum. Genet. 2020;28:165–173. - PMC - PubMed
    1. Adhikari A.N., Gallagher R.C., Wang Y., Currier R.J., Amatuni G., Bassaganyas L., Chen F., Kundu K., Kvale M., Mooney S.D., et al. The role of exome sequencing in newborn screening for inborn errors of metabolism. Nat. Med. 2020;26:1392–1397. - PMC - PubMed
    1. Roman T.S., Crowley S.B., Roche M.I., Foreman A.K.M., O'Daniel J.M., Seifert B.A., Lee K., Brandt A., Gustafson C., DeCristo D.M., et al. Genomic Sequencing for Newborn Screening: Results of the NC NEXUS Project. Am. J. Hum. Genet. 2020;107:596–611. - PMC - PubMed
    1. Huang X., Wu D., Zhu L., Wang W., Yang R., Yang J., He Q., Zhu B., You Y., Xiao R., Zhao Z. Application of a next-generation sequencing (NGS) panel in newborn screening efficiently identifies inborn disorders of neonates. Orphanet J. Rare Dis. 2022;17:66. - PMC - PubMed
    1. Berg J.S., Agrawal P.B., Bailey D.B., Jr., Beggs A.H., Brenner S.E., Brower A.M., Cakici J.A., Ceyhan-Birsoy O., Chan K., Chen F., et al. Newborn Sequencing in Genomic Medicine and Public Health. Pediatrics. 2017;139 - PMC - PubMed

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