Newborn Screening for SCID and Other Severe Primary Immunodeficiency in the Polish-German Transborder Area: Experience From the First 14 Months of Collaboration.

Maria Giżewska,Horst Von Bernuth,Mieczysław Walczak,Mariusz Ołtarzewski,Natalia Szczerba,Jeannette Klein,Iwona Ostrowska,Matthias Nauck,Christian Meisel,Bożena Birkenfeld,Elżbieta Krzywińska-Zdeb,Hanna Romanowska,Oliver Blankenstein,Stefan Seiberling,Elżbieta Bartkowiak,Katarzyna Durda,Theresa Winter,Małgorzata Pac,Michal Patalan ,Ewa Bernatowska

doi:10.3389/fimmu.2020.01948

Abstract

In 2017, in the Polish-German transborder area of West Pomerania, Mecklenburg-Western Pomerania, and Brandenburg, in collaboration with two centers in Warsaw, a partnership in the field of newborn screening (NBS) for severe primary immunodeficiency diseases (PID), mainly severe combined immunodeficiency (SCID), was initiated. SCID, but also some other severe PID, is a group of disorders characterized by the absence of T and/or B and NK cells. Affected infants are susceptible to life-threatening infections, but early detection gives a chance for effective treatment. The prevalence of SCID in the Polish and German populations is unknown but can be comparable to other countries (1:50,000–100,000). SCID NBS tests are based on real-time polymerase chain reaction (qPCR) and the measurement of a number of T cell receptor excision circles (TREC), kappa-deleting recombination excision circles (KREC), and beta-actin (ACTB) as a quality marker of DNA. This method can also be effective in NBS for other severe PID with T- and/or B-cell lymphopenia, including combined immunodeficiency (CID) or agammaglobulinemia. During the 14 months of collaboration, 44,287 newborns were screened according to the ImmunoIVD protocol. Within 65 positive samples, seven were classified to immediate recall and 58 requested a second sample. Examination of the 58 second samples resulted in recalling one newborn. Confirmatory tests included immunophenotyping of lymphocyte subsets with extension to TCR repertoire, lymphoproliferation tests, radiosensitivity tests, maternal engraftment assays, and molecular tests. Final diagnosis included: one case of T-BlowNK+ SCID, one case of atypical Tlow BlowNK+ CID, one case of autosomal recessive agammaglobulinemia, and one case of Nijmegen breakage syndrome. Among four other positive results, three infants presented with T- and/or B-cell lymphopenia due to either the mother's immunosuppression, prematurity, or unknown reasons, which resolved or almost normalized in the first months of life. One newborn was classified as truly false positive. The overall positive predictive value (PPV) for the diagnosis of severe PID was 50.0%. This is the first population screening study that allowed identification of newborns with T and/or B immunodeficiency in Central and Eastern Europe.

Highlights

Newborn screening (NBS) tests enable identification of infants with life-threating disorders, which require early intervention shortly after birth.NBS was initially implemented in the early 1960’s in the United States for the detection and treatment of phenylketonuria [1]
We present the results of the first 14 months of the trans-border cooperation in the field of NBS for severe combined immunodeficiency (SCID) and other severe Primary immunodeficiency diseases (PID) in the area of West Pomerania, Poland, and Mecklenburg-Western Pomerania and Brandenburg in Germany
Six decades have passed since Robert Guthrie developed the population newborn screening test for PKU [1]

Summary

Introduction

Newborn screening (NBS) tests enable identification of infants with life-threating disorders, which require early intervention shortly after birth.NBS was initially implemented in the early 1960’s in the United States for the detection and treatment of phenylketonuria [1]. Newborn screening (NBS) tests enable identification of infants with life-threating disorders, which require early intervention shortly after birth. Many rare genetic diseases, including inborn errors of metabolism and endocrine disorders, were successfully implemented to newborn screening programs later on. These included bacterial inhibition tests, radioimmunoassays, immunoassays with colorimetric, fluorometric, or luminometric measurements and, starting from the late 1990’s, tandem mass spectrometry followed soon after by DNA-based technologies [2, 3]. KREC (kappa–deleting recombination circles) was proposed for a combined TREC— KREC screening approach for severe forms of T- and/or B-cells deficiencies, such as SCID, late-onset adenosine deaminase deficient SCID (ADA-SCID), combined immunodeficiency (CID), or different forms of agammaglobulinemia (XLA) [6, 7]. In ADA-SCID the purine metabolites and adenosine deaminase activity can be determined using tandem mass spectrometry [8, 9]

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Results

Conclusion