Results of genetic analysis of 11 341 participants enrolled in the My Life, Our Future hemophilia genotyping initiative in the United States

Background Hemophilia A (HA) and hemophilia B (HB) are rare inherited bleeding disorders. Although causative genetic variants are clinically relevant, in 2012 only 20% of US patients had been genotyped. Objectives My Life, Our Future (MLOF) was a multisector cross‐sectional US initiative to improve...

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Published inJournal of thrombosis and haemostasis Vol. 20; no. 9; pp. 2022 - 2034
Main Authors Johnsen, Jill M., Fletcher, Shelley N., Dove, Angela, McCracken, Haley, Martin, Beth K., Kircher, Martin, Josephson, Neil C., Shendure, Jay, Ruuska, Sarah E., Valentino, Leonard A., Pierce, Glenn F., Watson, Crystal, Cheng, Dunlei, Recht, Michael, Konkle, Barbara A.
Format Journal Article
LanguageEnglish
Published 01.09.2022
Subjects
genetics
genomic structural variation
hemophilia A
hemophilia B
race factors
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Summary:Background Hemophilia A (HA) and hemophilia B (HB) are rare inherited bleeding disorders. Although causative genetic variants are clinically relevant, in 2012 only 20% of US patients had been genotyped. Objectives My Life, Our Future (MLOF) was a multisector cross‐sectional US initiative to improve our understanding of hemophilia through widespread genotyping. Methods Subjects and potential genetic carriers were enrolled at US hemophilia treatment centers (HTCs). Bloodworks performed genotyping and returned results to providers. Clinical data were ed from the American Thrombosis and Hemostasis Network dataset. Community education was provided by the National Hemophilia Foundation. Results From 2013 to 2017, 107 HTCs enrolled 11 341 subjects (68.8% male, 31.2% female) for testing for HA (n = 8976), HB (n = 2358), HA/HB (n = 3), and hemophilia not otherwise specified (n = 4). Variants were detected in most male patients (98.2%% HA, 98.1% HB). 1914 unique variants were found (1482 F8, 431 F9); 744 were novel (610 F8, 134 F9). Inhibitor data were available for 6986 subjects (5583 HA; 1403 HB). In severe HA, genotypes with the highest inhibitor rates were large deletions (77/80), complex intron 22 inversions (9/17), and no variant found (7/14). In severe HB, the highest rates were large deletions (24/42). Inhibitors were reported in 27.3% of Black versus 16.2% of White patients. Conclusions The findings of MLOF are reported, the largest hemophilia genotyping project performed to date. The results support the need for comprehensive genetic approaches in hemophilia. This effort has contributed significantly towards better understanding variation in the F8 and F9 genes in hemophilia and risks of inhibitor formation.
Bibliography:Final decision: David Lillicrap, 27 June 2022
Funding information
My Life, Our Future
was funded by Biogen/Bioverativ. No medical writers were involved in the writing of this manuscript. All authors had full editorial control of the content and provided their final approval before publishing. M.R. has research funding to his employers: Bayer, BioMarin, CSL Behring, Genentech, Grifols, Hema Biologics, LFB, Novo Nordisk, Octapharma, Pfizer, Sanofi, Spark, Takeda, uniQure; M.R. has consulted for Catalyst Biosciences, CSL Behring, Genentech, Hema Biologics, Kedrion, Novo Nordisk, Pfizer, Sanofi, Takeda, uniQure; M.R. is on the Board of Directors for Foundation for Women and Girls with Blood Disorders and Partners in Bleeding Disorders; M.R. is employed by American Thrombosis and Hemostasis Network and Oregon Health & Science University; B.A.K. has received research funding from Bioverativ, a Sanofi company.
Manuscript handled by: David Lillicrap
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ISSN:1538-7933
1538-7836
1538-7836
DOI:10.1111/jth.15805