International Cooperation to Enable the Diagnosis of All Rare Genetic Diseases

Kym M. Boycott; Ana Rath; Jessica X. Chong; Taila Hartley; Fowzan S. Alkuraya; Gareth Baynam; Anthony J. Brookes; Michael Brudno; Ãngel Carracedo; Johan T. den Dunnen; Stephanie O. M. Dyke; Xavier Estivill; Jack Goldblatt; Catherine Gonthier; Stephen C. Groft; Marta Gut; Ada Hamosh; Philip Hieter; Sophie Höhn; Matthew E. Hurles; Petra Kaufmann; Bartha Maria Knoppers; Jeffrey P. Krischer; Milan Maçek; Gert Matthijs; Annie Olry; Samantha Parker; Justin Paschall; Anthony Philippakis; Heidi L. Rehm; Peter N. Robinson; Pak C. Sham; Румен Стефанов; Domenica Taruscio; Divya Unni; Megan R. Vanstone; Feng Zhang; Han G. Brunner; Michael J. Bamshad; Hanns Lochmüller

doi:10.1016/j.ajhg.2017.04.003

International Cooperation to Enable the Diagnosis of All Rare Genetic Diseases

Kym M. Boycott(University of Ottawa), Ana Rath(Inserm), Jessica X. Chong(University of Washington), Taila Hartley(University of Ottawa), Fowzan S. Alkuraya(King Abdulaziz City for Science and Technology), Gareth Baynam(Services Australia), Anthony J. Brookes(University of Leicester), Michael Brudno(University of Toronto), Ãngel Carracedo(Universidade de Santiago de Compostela), Johan T. den Dunnen(Leiden University Medical Center), Stephanie O. M. Dyke(McGill University), Xavier Estivill(Hospital Universitario Dexeus), Jack Goldblatt(Services Australia), Catherine Gonthier(Inserm), Stephen C. Groft(National Institutes of Health), Marta Gut(Universitat Pompeu Fabra), Ada Hamosh(Johns Hopkins University), Philip Hieter(University of British Columbia), Sophie Höhn(Inserm), Matthew E. Hurles(Wellcome Sanger Institute), Petra Kaufmann(National Institutes of Health), Bartha Maria Knoppers(McGill University), Jeffrey P. Krischer(University of South Florida), Milan Maçek(Charles University), Gert Matthijs(KU Leuven), Annie Olry(Inserm), Samantha Parker, Justin Paschall(Wellcome Sanger Institute), Anthony Philippakis(Broad Institute), Heidi L. Rehm(Broad Institute), Peter N. Robinson(Jackson Laboratory), Pak C. Sham(University of Hong Kong), Румен Стефанов(Medical University Plovdiv), Domenica Taruscio(Istituto Superiore di Sanità), Divya Unni(Inserm), Megan R. Vanstone(University of Ottawa), Feng Zhang(WuXi AppTec (China)), Han G. Brunner(Radboud University Nijmegen), Michael J. Bamshad(Seattle Children's Hospital), Hanns Lochmüller(Newcastle University)

The American Journal of Human Genetics

May 1, 2017

10.1016/j.ajhg.2017.04.003

Cited by 450Open Access

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Abstract

Provision of a molecularly confirmed diagnosis in a timely manner for children and adults with rare genetic diseases shortens their "diagnostic odyssey," improves disease management, and fosters genetic counseling with respect to recurrence risks while assuring reproductive choices. In a general clinical genetics setting, the current diagnostic rate is approximately 50%, but for those who do not receive a molecular diagnosis after the initial genetics evaluation, that rate is much lower. Diagnostic success for these more challenging affected individuals depends to a large extent on progress in the discovery of genes associated with, and mechanisms underlying, rare diseases. Thus, continued research is required for moving toward a more complete catalog of disease-related genes and variants. The International Rare Diseases Research Consortium (IRDiRC) was established in 2011 to bring together researchers and organizations invested in rare disease research to develop a means of achieving molecular diagnosis for all rare diseases. Here, we review the current and future bottlenecks to gene discovery and suggest strategies for enabling progress in this regard. Each successful discovery will define potential diagnostic, preventive, and therapeutic opportunities for the corresponding rare disease, enabling precision medicine for this patient population.

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