Genomic reanalysis of a pan-European rare-disease resource yields new diagnoses

Steven Laurie; Wouter Steyaert; Elke de Boer; Kiran Polavarapu; Nika Schuermans; Anna K Sommer; German Demidov; Kornelia Ellwanger; Ida Paramonov; Coline Thomas; Stefan Aretz; Jonathan Baets; Elisa Benetti; Gemma Bullich; Patrick F Chinnery; Jill Clayton-Smith; Enzo Cohen; Daniel Danis; Jean-Madeleine de Sainte Agathe; Anne-Sophie Denommé-Pichon; Jordi Diaz-Manera; Stephanie Efthymiou; Laurence Faivre; Marcos Fernandez-Callejo; Mallory Freeberg; José Garcia-Pelaez; Lena Guillot-Noel; Tobias B Haack; Mike Hanna; Holger Hengel; Rita Horvath; Henry Houlden; Adam Jackson; Lennart Johansson; Mridul Johari; Erik-Jan Kamsteeg; Melanie Kellner; Tjitske Kleefstra; Didier Lacombe; Hanns Lochmüller; Estrella López-Martín; Alfons Macaya; Anna Marcé-Grau; Aleš Maver; Heba Morsy; Francesco Muntoni; Francesco Musacchia; Isabelle Nelson; Vincenzo Nigro; Catarina Olimpio; Solve RD DITF GENTURIS; Solve-RD DITF-ITHACA; Solve-RD DITF-EURO-NMD; Solve-RD-DITF-RND; SOLVE-RD Consortium; Han Brunner; Sergi Beltran; Alexander Hoischen

doi:10.1038/s41591-024-03420-w

Genomic reanalysis of a pan-European rare-disease resource yields new diagnoses

Steven Laurie, Wouter Steyaert, Elke de Boer, Kiran Polavarapu, Nika Schuermans, Anna K Sommer, German Demidov, Kornelia Ellwanger, Ida Paramonov, Coline Thomas, Stefan Aretz, Jonathan Baets, Elisa Benetti, Gemma Bullich, Patrick F Chinnery, Jill Clayton-Smith, Enzo Cohen, Daniel Danis, Jean-Madeleine de Sainte Agathe, Anne-Sophie Denommé-PichonJordi Diaz-Manera, Stephanie Efthymiou, Laurence Faivre, Marcos Fernandez-Callejo, Mallory Freeberg, José Garcia-Pelaez, Lena Guillot-Noel, Tobias B Haack, Mike Hanna, Holger Hengel, Rita Horvath, Henry Houlden, Adam Jackson, Lennart Johansson, Mridul Johari, Erik-Jan Kamsteeg, Melanie Kellner, Tjitske Kleefstra, Didier Lacombe, Hanns Lochmüller, Estrella López-Martín, Alfons Macaya, Anna Marcé-Grau, Aleš Maver, Heba Morsy, Francesco Muntoni, Francesco Musacchia, Isabelle Nelson, Vincenzo Nigro, Catarina Olimpio, Solve RD DITF GENTURIS, Solve-RD DITF-ITHACA, Solve-RD DITF-EURO-NMD, Solve-RD-DITF-RND, SOLVE-RD Consortium, Han Brunner, Sergi Beltran^*, Alexander Hoischen^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Genetic diagnosis of rare diseases requires accurate identification and interpretation of genomic variants. Clinical and molecular scientists from 37 expert centers across Europe created the Solve-Rare Diseases Consortium (Solve-RD) resource, encompassing clinical, pedigree and genomic rare-disease data (94.5% exomes, 5.5% genomes), and performed systematic reanalysis for 6,447 individuals (3,592 male, 2,855 female) with previously undiagnosed rare diseases from 6,004 families. We established a collaborative, two-level expert review infrastructure that allowed a genetic diagnosis in 506 (8.4%) families. Of 552 disease-causing variants identified, 464 (84.1%) were single-nucleotide variants or short insertions/deletions. These variants were either located in recently published novel disease genes (n = 67), recently reclassified in ClinVar (n = 187) or reclassified by consensus expert decision within Solve-RD (n = 210). Bespoke bioinformatics analyses identified the remaining 15.9% of causative variants (n = 88). Ad hoc expert review, parallel to the systematic reanalysis, diagnosed 249 (4.1%) additional families for an overall diagnostic yield of 12.6%. The infrastructure and collaborative networks set up by Solve-RD can serve as a blueprint for future further scalable international efforts. The resource is open to the global rare-disease community, allowing phenotype, variant and gene queries, as well as genome-wide discoveries.

Original language	English
Pages (from-to)	478–489
Number of pages	34
Journal	Nature Medicine
Volume	31
DOIs	https://doi.org/10.1038/s41591-024-03420-w
Publication status	Published - 17 Jan 2025

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Laurie, S., Steyaert, W., de Boer, E., Polavarapu, K., Schuermans, N., Sommer, A. K., Demidov, G., Ellwanger, K., Paramonov, I., Thomas, C., Aretz, S., Baets, J., Benetti, E., Bullich, G., Chinnery, P. F., Clayton-Smith, J., Cohen, E., Danis, D., de Sainte Agathe, J.-M., ... Hoischen, A. (2025). Genomic reanalysis of a pan-European rare-disease resource yields new diagnoses. Nature Medicine, 31, 478–489. https://doi.org/10.1038/s41591-024-03420-w

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title = "Genomic reanalysis of a pan-European rare-disease resource yields new diagnoses",

abstract = "Genetic diagnosis of rare diseases requires accurate identification and interpretation of genomic variants. Clinical and molecular scientists from 37 expert centers across Europe created the Solve-Rare Diseases Consortium (Solve-RD) resource, encompassing clinical, pedigree and genomic rare-disease data (94.5% exomes, 5.5% genomes), and performed systematic reanalysis for 6,447 individuals (3,592 male, 2,855 female) with previously undiagnosed rare diseases from 6,004 families. We established a collaborative, two-level expert review infrastructure that allowed a genetic diagnosis in 506 (8.4%) families. Of 552 disease-causing variants identified, 464 (84.1%) were single-nucleotide variants or short insertions/deletions. These variants were either located in recently published novel disease genes (n = 67), recently reclassified in ClinVar (n = 187) or reclassified by consensus expert decision within Solve-RD (n = 210). Bespoke bioinformatics analyses identified the remaining 15.9% of causative variants (n = 88). Ad hoc expert review, parallel to the systematic reanalysis, diagnosed 249 (4.1%) additional families for an overall diagnostic yield of 12.6%. The infrastructure and collaborative networks set up by Solve-RD can serve as a blueprint for future further scalable international efforts. The resource is open to the global rare-disease community, allowing phenotype, variant and gene queries, as well as genome-wide discoveries.",

author = "Steven Laurie and Wouter Steyaert and {de Boer}, Elke and Kiran Polavarapu and Nika Schuermans and Sommer, {Anna K} and German Demidov and Kornelia Ellwanger and Ida Paramonov and Coline Thomas and Stefan Aretz and Jonathan Baets and Elisa Benetti and Gemma Bullich and Chinnery, {Patrick F} and Jill Clayton-Smith and Enzo Cohen and Daniel Danis and {de Sainte Agathe}, Jean-Madeleine and Anne-Sophie Denomm{\'e}-Pichon and Jordi Diaz-Manera and Stephanie Efthymiou and Laurence Faivre and Marcos Fernandez-Callejo and Mallory Freeberg and Jos{\'e} Garcia-Pelaez and Lena Guillot-Noel and Haack, {Tobias B} and Mike Hanna and Holger Hengel and Rita Horvath and Henry Houlden and Adam Jackson and Lennart Johansson and Mridul Johari and Erik-Jan Kamsteeg and Melanie Kellner and Tjitske Kleefstra and Didier Lacombe and Hanns Lochm{\"u}ller and Estrella L{\'o}pez-Mart{\'i}n and Alfons Macaya and Anna Marc{\'e}-Grau and Ale{\v s} Maver and Heba Morsy and Francesco Muntoni and Francesco Musacchia and Isabelle Nelson and Vincenzo Nigro and Catarina Olimpio and {Solve RD DITF GENTURIS} and {Solve-RD DITF-ITHACA} and {Solve-RD DITF-EURO-NMD} and Solve-RD-DITF-RND and {SOLVE-RD Consortium} and Han Brunner and Sergi Beltran and Alexander Hoischen",

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doi = "10.1038/s41591-024-03420-w",

language = "English",

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journal = "Nature Medicine",

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Laurie, S, Steyaert, W, de Boer, E, Polavarapu, K, Schuermans, N, Sommer, AK, Demidov, G, Ellwanger, K, Paramonov, I, Thomas, C, Aretz, S, Baets, J, Benetti, E, Bullich, G, Chinnery, PF, Clayton-Smith, J, Cohen, E, Danis, D, de Sainte Agathe, J-M, Denommé-Pichon, A-S, Diaz-Manera, J, Efthymiou, S, Faivre, L, Fernandez-Callejo, M, Freeberg, M, Garcia-Pelaez, J, Guillot-Noel, L, Haack, TB, Hanna, M, Hengel, H, Horvath, R, Houlden, H, Jackson, A, Johansson, L, Johari, M, Kamsteeg, E-J, Kellner, M, Kleefstra, T, Lacombe, D, Lochmüller, H, López-Martín, E, Macaya, A, Marcé-Grau, A, Maver, A, Morsy, H, Muntoni, F, Musacchia, F, Nelson, I, Nigro, V, Olimpio, C, Solve RD DITF GENTURIS, Solve-RD DITF-ITHACA, Solve-RD DITF-EURO-NMD, Solve-RD-DITF-RND, SOLVE-RD Consortium, Brunner, H, Beltran, S & Hoischen, A 2025, 'Genomic reanalysis of a pan-European rare-disease resource yields new diagnoses', Nature Medicine, vol. 31, pp. 478–489. https://doi.org/10.1038/s41591-024-03420-w

TY - JOUR

T1 - Genomic reanalysis of a pan-European rare-disease resource yields new diagnoses

AU - Laurie, Steven

AU - Steyaert, Wouter

AU - de Boer, Elke

AU - Polavarapu, Kiran

AU - Schuermans, Nika

AU - Sommer, Anna K

AU - Demidov, German

AU - Ellwanger, Kornelia

AU - Paramonov, Ida

AU - Thomas, Coline

AU - Aretz, Stefan

AU - Baets, Jonathan

AU - Benetti, Elisa

AU - Bullich, Gemma

AU - Chinnery, Patrick F

AU - Clayton-Smith, Jill

AU - Cohen, Enzo

AU - Danis, Daniel

AU - de Sainte Agathe, Jean-Madeleine

AU - Denommé-Pichon, Anne-Sophie

AU - Diaz-Manera, Jordi

AU - Efthymiou, Stephanie

AU - Faivre, Laurence

AU - Fernandez-Callejo, Marcos

AU - Freeberg, Mallory

AU - Garcia-Pelaez, José

AU - Guillot-Noel, Lena

AU - Haack, Tobias B

AU - Hanna, Mike

AU - Hengel, Holger

AU - Horvath, Rita

AU - Houlden, Henry

AU - Jackson, Adam

AU - Johansson, Lennart

AU - Johari, Mridul

AU - Kamsteeg, Erik-Jan

AU - Kellner, Melanie

AU - Kleefstra, Tjitske

AU - Lacombe, Didier

AU - Lochmüller, Hanns

AU - López-Martín, Estrella

AU - Macaya, Alfons

AU - Marcé-Grau, Anna

AU - Maver, Aleš

AU - Morsy, Heba

AU - Muntoni, Francesco

AU - Musacchia, Francesco

AU - Nelson, Isabelle

AU - Nigro, Vincenzo

AU - Olimpio, Catarina

AU - Solve RD DITF GENTURIS

AU - Solve-RD DITF-ITHACA

AU - Solve-RD DITF-EURO-NMD

AU - Solve-RD-DITF-RND

AU - SOLVE-RD Consortium

AU - Brunner, Han

AU - Beltran, Sergi

AU - Hoischen, Alexander

PY - 2025/1/17

Y1 - 2025/1/17

N2 - Genetic diagnosis of rare diseases requires accurate identification and interpretation of genomic variants. Clinical and molecular scientists from 37 expert centers across Europe created the Solve-Rare Diseases Consortium (Solve-RD) resource, encompassing clinical, pedigree and genomic rare-disease data (94.5% exomes, 5.5% genomes), and performed systematic reanalysis for 6,447 individuals (3,592 male, 2,855 female) with previously undiagnosed rare diseases from 6,004 families. We established a collaborative, two-level expert review infrastructure that allowed a genetic diagnosis in 506 (8.4%) families. Of 552 disease-causing variants identified, 464 (84.1%) were single-nucleotide variants or short insertions/deletions. These variants were either located in recently published novel disease genes (n = 67), recently reclassified in ClinVar (n = 187) or reclassified by consensus expert decision within Solve-RD (n = 210). Bespoke bioinformatics analyses identified the remaining 15.9% of causative variants (n = 88). Ad hoc expert review, parallel to the systematic reanalysis, diagnosed 249 (4.1%) additional families for an overall diagnostic yield of 12.6%. The infrastructure and collaborative networks set up by Solve-RD can serve as a blueprint for future further scalable international efforts. The resource is open to the global rare-disease community, allowing phenotype, variant and gene queries, as well as genome-wide discoveries.

AB - Genetic diagnosis of rare diseases requires accurate identification and interpretation of genomic variants. Clinical and molecular scientists from 37 expert centers across Europe created the Solve-Rare Diseases Consortium (Solve-RD) resource, encompassing clinical, pedigree and genomic rare-disease data (94.5% exomes, 5.5% genomes), and performed systematic reanalysis for 6,447 individuals (3,592 male, 2,855 female) with previously undiagnosed rare diseases from 6,004 families. We established a collaborative, two-level expert review infrastructure that allowed a genetic diagnosis in 506 (8.4%) families. Of 552 disease-causing variants identified, 464 (84.1%) were single-nucleotide variants or short insertions/deletions. These variants were either located in recently published novel disease genes (n = 67), recently reclassified in ClinVar (n = 187) or reclassified by consensus expert decision within Solve-RD (n = 210). Bespoke bioinformatics analyses identified the remaining 15.9% of causative variants (n = 88). Ad hoc expert review, parallel to the systematic reanalysis, diagnosed 249 (4.1%) additional families for an overall diagnostic yield of 12.6%. The infrastructure and collaborative networks set up by Solve-RD can serve as a blueprint for future further scalable international efforts. The resource is open to the global rare-disease community, allowing phenotype, variant and gene queries, as well as genome-wide discoveries.

U2 - 10.1038/s41591-024-03420-w

DO - 10.1038/s41591-024-03420-w

M3 - Article

SN - 1078-8956

VL - 31

SP - 478

EP - 489

JO - Nature Medicine

JF - Nature Medicine

ER -

Genomic reanalysis of a pan-European rare-disease resource yields new diagnoses

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