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https://dora.health.qld.gov.au/qldresearchjspui/handle/1/7126| Title: | The Australian Genomics Mitochondrial Flagship: A national program delivering mitochondrial diagnoses | Authors: | Rius, Rocio Compton, Alison G. Baker, Naomi L. Balasubramaniam, Shanti Best, Stephanie Bhattacharya, Kaustuv Boggs, Kirsten Boughtwood, Tiffany Braithwaite, Jeffrey Bratkovic, Drago Bray, Alessandra Brion, Marie-Jo Burke, Jo Casauria, Sarah Chong, Belinda Coman, David Cowie, Shannon Cowley, Mark de Silva, Michelle G. Delatycki, Martin B. Edwards, Samantha Ellaway, Carolyn Fahey, Michael C. Finlay, Keri Fletcher, Janice Frajman, Leah E. Frazier, Ann E. Gayevskiy, Velimir Ghaoui, Roula Goel, Himanshu Goranitis, Ilias Haas, Matilda Hock, Daniella H. Howting, Denise Jackson, Matilda R. Kava, Maina P. Kemp, Madonna King-Smith, Sarah Lake, Nicole J. Lamont, Phillipa J. Lee, Joy Long, Janet C. MacShane, Mandi Madelli, Evanthia O. Martin, Ellenore M. Marum, Justine E. Mattiske, Tessa McGill, Jim Metke, Alejandro Murray, Sean Panetta, Julie Phillips, Liza K. Quinn, Michael C. J. Ryan, Michael T. Schenscher, Sarah Simons, Cas Smith, Nicholas Stroud, David A. Tchan, Michel C. Tom, Melanie Wallis, Mathew Ware, Tyson L. Welch, AnneMarie E. Wools, Christine Wu, You Christodoulou, John Thorburn, David R. |
Issue Date: | 2024 | Source: | Genetics in medicine : official journal of the American College of Medical Genetics, 2024 p.101271 | Pages: | 101271 | Journal Title: | Genetics in medicine : official journal of the American College of Medical Genetics | Abstract: | Purpose: Families living with mitochondrial diseases (MD) often endure prolonged diagnostic journeys and invasive testing, yet many remain without a molecular diagnosis. The Australian Genomics Mitochondrial Flagship, comprising clinicians, diagnostic, and research scientists, conducted a prospective national study to identify the diagnostic utility of singleton genomic sequencing using blood samples.; Methods: A total of 140 children and adults living with suspected MD were recruited using modified Nijmegen criteria (MNC) and randomized to either exome + mitochondrial DNA (mtDNA) sequencing or genome sequencing.; Results: Diagnostic yield was 55% (n = 77) with variants in nuclear (n = 37) and mtDNA (n = 18) MD genes, as well as phenocopy genes (n = 22). A nuclear gene etiology was identified in 77% of diagnoses, irrespective of disease onset. Diagnostic rates were higher in pediatric-onset (71%) than adult-onset (31%) cases and comparable in children with non-European (78%) vs European (67%) ancestry. For children, higher MNC scores correlated with increased diagnostic yield and fewer diagnoses in phenocopy genes. Additionally, 3 adult patients had a mtDNA deletion discovered in skeletal muscle that was not initially identified in blood.; Conclusion: Genomic sequencing from blood can simplify the diagnostic pathway for individuals living with suspected MD, especially those with childhood onset diseases and high MNC scores.; Competing Interests: Conflict of Interest John Christodoulou is an approved pathology provider for Victorian Clinical Genetics Services. (Copyright © 2024 American College of Medical Genetics and Genomics. Published by Elsevier Inc. All rights reserved.) | DOI: | 10.1016/j.gim.2024.101271 | Resources: | https://search.ebscohost.com/login.aspx?direct=true&AuthType=ip,athens&db=mdc&AN=39305161&site=ehost-live |
| Appears in Sites: | Children's Health Queensland Publications Queensland Health Publications |
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