Molecular Genetic and Biochemical Characterization of Hyperphenylalaninemia Based on Expanded Neonatal Screening Data from 2023 to 2024 in the Russian Federation

Since January 2023, the Russian Federation has implemented expanded neonatal screening for 36 hereditary disorders, which has changed the diagnostic algorithm for hyperphenylalaninemia/phenylketonuria (HPA/PKU) by introducing tandem mass spectrometry (MS/MS) on the second day of life, followed by confirmatory biochemical and molecular testing in newborns at risk. We analyzed 1247 newborns aged 5–15 days with elevated phenylalanine levels (≥120 µmol/L) and a phenylalanine to tyrosine ratio of at least 1 detected during the first stage of screening using MS/MS. At the reference center, newborns underwent repeat biochemical testing and stepwise molecular analysis of HPA-associated genes. Two pathogenic variants in HPA-associated genes were identified in 538 newborns, including 534 newborns with biallelic pathogenic variants in PAH and 4 with BH4-deficient forms (PTS, QDPR). The incidence of molecularly confirmed HPA was 1:4518 newborns (95% CI: 1:4152–1:4925). The PAH variant spectrum was dominated by p.Arg408Trp (c.1222C>T) (33.4%). Genotype-based analysis indicated that 73 newborns (13.7%) were likely responsive to cofactor therapy, whereas 222 (41.6%) were potentially responsive. These findings define the molecular epidemiology of HPA in Russia and support early genetic stratification for diagnosis and treatment.