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Literature DB >> 33123633

Performance of Expanded Newborn Screening in Norway Supported by Post-Analytical Bioinformatics Tools and Rapid Second-Tier DNA Analyses.

Trine Tangeraas¹, Ingjerd Sæves¹, Claus Klingenberg^2,3, Jens Jørgensen¹, Erle Kristensen^1,3, Gunnþórunn Gunnarsdottir⁴, Eirik Vangsøy Hansen⁵, Janne Strand¹, Emma Lundman¹, Sacha Ferdinandusse⁶, Cathrin Lytomt Salvador⁷, Berit Woldseth⁷, Yngve T Bliksrud⁷, Carlos Sagredo¹, Øyvind E Olsen¹, Mona C Berge¹, Anette Kjoshagen Trømborg¹, Anders Ziegler¹, Jin Hui Zhang¹, Linda Karlsen Sørgjerd¹, Mari Ytre-Arne¹, Silje Hogner¹, Siv M Løvoll¹, Mette R Kløvstad Olavsen¹, Dionne Navarrete¹, Hege J Gaup¹, Rina Lilje⁴, Rolf H Zetterström⁸, Asbjørg Stray-Pedersen¹, Terje Rootwelt^4,9, Piero Rinaldo¹⁰, Alexander D Rowe¹, Rolf D Pettersen¹.

Abstract

In 2012, the Norwegian newborn screening program (NBS) was expanded (eNBS) from screening for two diseases to that for 23 diseases (20 inborn errors of metabolism, IEMs) and again in 2018, to include a total of 25 conditions (21 IEMs). Between 1 March 2012 and 29 February 2020, 461,369 newborns were screened for 20 IEMs in addition to phenylketonuria (PKU). Excluding PKU, there were 75 true-positive (TP) (1:6151) and 107 (1:4311) false-positive IEM cases. Twenty-one percent of the TP cases were symptomatic at the time of the NBS results, but in two-thirds, the screening result directed the exact diagnosis. Eighty-two percent of the TP cases had good health outcomes, evaluated in 2020. The yearly positive predictive value was increased from 26% to 54% by the use of the Region 4 Stork post-analytical interpretive tool (R4S)/Collaborative Laboratory Integrated Reports 2.0 (CLIR), second-tier biochemical testing and genetic confirmation using DNA extracted from the original dried blood spots. The incidence of IEMs increased by 46% after eNBS was introduced, predominantly due to the finding of attenuated phenotypes. The next step is defining which newborns would truly benefit from screening at the milder end of the disease spectrum. This will require coordinated international collaboration, including proper case definitions and outcome studies.

Entities: Chemical Disease Gene Species

Keywords: CLIR; cut-off values; dried blood spots; newborn screening; outcome; second-tier DNA testing

Year: 2020 PMID： 33123633 PMCID： PMC7570219 DOI： 10.3390/ijns6030051

Source DB: PubMed Journal: Int J Neonatal Screen ISSN： 2409-515X

57 in total

1. Linkage disequilibrium and demographic history of the isolated population of the Faroe Islands.

Authors: Tove H Jorgensen; Birte Degn; August G Wang; Maria Vang; Hugh Gurling; Gursharan Kalsi; Andrew McQuillin; Torben A Kruse; Ole Mors; Henrik Ewald
Journal: Eur J Hum Genet Date: 2002-06 Impact factor: 4.246

2. Plasma carnitine concentrations in pregnancy, cord blood, and neonates and children.

Authors: S C Winter; L S Linn; E Helton
Journal: Clin Chim Acta Date: 1995-12-15 Impact factor: 3.786

3. Neonatal screening for profound biotinidase deficiency in the Netherlands: consequences and considerations.

Authors: Rachel C Wiltink; Michelle E Kruijshaar; Rick van Minkelen; Willem Onkenhout; Frans W Verheijen; Evelien A Kemper; Francjan J van Spronsen; Ans T van der Ploeg; Klary E Niezen-Koning; Jasper J Saris; Monique Williams
Journal: Eur J Hum Genet Date: 2016-06-22 Impact factor: 4.246

4. An intronic variation in SLC52A1 causes exon skipping and transient riboflavin-responsive multiple acyl-CoA dehydrogenation deficiency.

Authors: Signe Mosegaard; Gitte Hoffmann Bruun; Karen Freund Flyvbjerg; Yngve Thomas Bliksrud; Niels Gregersen; Maja Dembic; Ellen Annexstad; Trine Tangeraas; Rikke Katrine Jentoft Olsen; Brage S Andresen
Journal: Mol Genet Metab Date: 2017-11-02 Impact factor: 4.797

5. A nationwide retrospective observational study of population newborn screening for medium-chain acyl-CoA dehydrogenase (MCAD) deficiency in the Netherlands.

Authors: Emmalie A Jager; Myrthe M Kuijpers; Annet M Bosch; Margot F Mulder; Estela R Gozalbo; Gepke Visser; Maaike de Vries; Monique Williams; Hans R Waterham; Francjan J van Spronsen; Peter C J I Schielen; Terry G J Derks
Journal: J Inherit Metab Dis Date: 2019-05-16 Impact factor: 4.982

6. Outcomes and genotype-phenotype correlations in 52 individuals with VLCAD deficiency diagnosed by NBS and enrolled in the IBEM-IS database.

Authors: Loren D M Pena; Sandra C van Calcar; Joyanna Hansen; Mathew J Edick; Cate Walsh Vockley; Nancy Leslie; Cynthia Cameron; Al-Walid Mohsen; Susan A Berry; Georgianne L Arnold; Jerry Vockley
Journal: Mol Genet Metab Date: 2016-05-13 Impact factor: 4.797

Review 7. Primary Carnitine Deficiency and Newborn Screening for Disorders of the Carnitine Cycle.

Authors: Nicola Longo
Journal: Ann Nutr Metab Date: 2016-12-09 Impact factor: 3.374

8. Carnitine transporter and holocarboxylase synthetase deficiencies in The Faroe Islands.

Authors: A M Lund; F Joensen; D M Hougaard; L K Jensen; E Christensen; M Christensen; B Nørgaard-Petersen; M Schwartz; F Skovby
Journal: J Inherit Metab Dis Date: 2007-04-06 Impact factor: 4.982

9. Outcomes of individuals with profound and partial biotinidase deficiency ascertained by newborn screening in Michigan over 25 years.

Authors: Allison M Jay; Robert L Conway; Gerald L Feldman; Fatimah Nahhas; Linda Spencer; Barry Wolf
Journal: Genet Med Date: 2014-08-21 Impact factor: 8.822

5. Utilizing augmented artificial intelligence for aminoacidopathies using collaborative laboratory integrated reporting- A cross-sectional study.

Authors: Zaib Un Nisa Khan; Lena Jafri; Patricia L Hall; Matthew J Schultz; Sibtain Ahmed; Aysha Habib Khan; Hafsa Majid
Journal: Ann Med Surg (Lond) Date: 2022-09-23

5 in total

Performance of Expanded Newborn Screening in Norway Supported by Post-Analytical Bioinformatics Tools and Rapid Second-Tier DNA Analyses.

1. Linkage disequilibrium and demographic history of the isolated population of the Faroe Islands.

2. Plasma carnitine concentrations in pregnancy, cord blood, and neonates and children.

3. Neonatal screening for profound biotinidase deficiency in the Netherlands: consequences and considerations.

4. An intronic variation in SLC52A1 causes exon skipping and transient riboflavin-responsive multiple acyl-CoA dehydrogenation deficiency.

5. A nationwide retrospective observational study of population newborn screening for medium-chain acyl-CoA dehydrogenase (MCAD) deficiency in the Netherlands.

6. Outcomes and genotype-phenotype correlations in 52 individuals with VLCAD deficiency diagnosed by NBS and enrolled in the IBEM-IS database.

Review 7. Primary Carnitine Deficiency and Newborn Screening for Disorders of the Carnitine Cycle.

8. Carnitine transporter and holocarboxylase synthetase deficiencies in The Faroe Islands.

9. Outcomes of individuals with profound and partial biotinidase deficiency ascertained by newborn screening in Michigan over 25 years.

10. Bacteriology in uncomplicated urinary tract infections in Norwegian general practice from 2001-2015.

Review 1. Expanded newborn bloodspot screening: developed country examples and what can be done in Turkey.

2. Neonatal Screening for Congenital Metabolic and Endocrine Disorders–Results From Germany for the Years 2006–2018.

Review 3. Newborn Screening: Review of its Impact for Cystinosis.

4. Novel mutations in the HADHB gene causing a mild phenotype of mitochondrial trifunctional protein (MTP) deficiency.

5. Utilizing augmented artificial intelligence for aminoacidopathies using collaborative laboratory integrated reporting- A cross-sectional study.