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Integration of whole genome sequencing into a healthcare setting: high diagnostic rates across multiple clinical entities in 3219 rare disease patients

Henrik Stranneheim, Kristina Lagerstedt‐Robinson, Måns Magnusson, Malin Kvarnung, Daniel Nilsson, Nicole Lesko, Martin Engvall, Britt‐Marie Anderlid, Henrik Arnell, Carolina Backman Johansson, Michela Barbaro, Erik Björck, Helene Bruhn, Jesper Eisfeldt, Christoph Freyer, Giedré Grigelioniené, Peter Gustavsson, Anna Hammarsjö, Maritta Hellström-Pigg, Erik Iwarsson, Anders Jemt, Mikael Laaksonen, Sara Lind Enoksson, Helena Malmgren, K Naess, Magnus Nordenskjöld, Mikael Oscarson, Maria Pettersson, Chiara Rasi, Adam Rosenbaum, Ellika Sahlin, Eliane Sardh, Tommy Stödberg, Bianca Tesi, Emma Tham, Håkan Thonberg, Virpi Töhönen, Ulrika von Döbeln, Daphne Vassiliou, Sofie Vonlanthen, Ann–Charlotte Wikström, Josephine Wincent, Ola Winqvist, Anna Wredenberg, Sofia Ygberg, Rolf Zetterström, Per Marits, Maria Soller, Ann Nordgren, Valtteri Wirta, Anna Lindstrand, Anna Wedell

2021Genome Medicine271 citationsDOIOpen Access PDF

Abstract

BACKGROUND: We report the findings from 4437 individuals (3219 patients and 1218 relatives) who have been analyzed by whole genome sequencing (WGS) at the Genomic Medicine Center Karolinska-Rare Diseases (GMCK-RD) since mid-2015. GMCK-RD represents a long-term collaborative initiative between Karolinska University Hospital and Science for Life Laboratory to establish advanced, genomics-based diagnostics in the Stockholm healthcare setting. METHODS: Our analysis covers detection and interpretation of SNVs, INDELs, uniparental disomy, CNVs, balanced structural variants, and short tandem repeat expansions. Visualization of results for clinical interpretation is carried out in Scout-a custom-developed decision support system. Results from both singleton (84%) and trio/family (16%) analyses are reported. Variant interpretation is done by 15 expert teams at the hospital involving staff from three clinics. For patients with complex phenotypes, data is shared between the teams. RESULTS: Overall, 40% of the patients received a molecular diagnosis ranging from 19 to 54% for specific disease groups. There was heterogeneity regarding causative genes (n = 754) with some of the most common ones being COL2A1 (n = 12; skeletal dysplasia), SCN1A (n = 8; epilepsy), and TNFRSF13B (n = 4; inborn errors of immunity). Some causative variants were recurrent, including previously known founder mutations, some novel mutations, and recurrent de novo mutations. Overall, GMCK-RD has resulted in a large number of patients receiving specific molecular diagnoses. Furthermore, negative cases have been included in research studies that have resulted in the discovery of 17 published, novel disease-causing genes. To facilitate the discovery of new disease genes, GMCK-RD has joined international data sharing initiatives, including ClinVar, UDNI, Beacon, and MatchMaker Exchange. CONCLUSIONS: Clinical WGS at GMCK-RD has provided molecular diagnoses to over 1200 individuals with a broad range of rare diseases. Consolidation and spread of this clinical-academic partnership will enable large-scale national collaboration.

Topics & Concepts

Whole genome sequencingUniparental disomyHuman geneticsDiseaseMedicineGenomicsMedical geneticsMedical diagnosisGenomeGeneticsBioinformaticsComputational biologyGeneBiologyInternal medicinePathologyChromosomeKaryotypeGenomics and Rare DiseasesHereditary Neurological DisordersImmunodeficiency and Autoimmune Disorders
Integration of whole genome sequencing into a healthcare setting: high diagnostic rates across multiple clinical entities in 3219 rare disease patients | Litcius