The Australian Genomics Mitochondrial Flagship: A National Program Delivering Mitochondrial Diagnoses

Rius, R.; Compton, A. G.; Baker, N. L.; Balasubramaniam, S.; Best, S.; Bhattacharya, K.; Boggs, K.; Boughtwood, T.; Braithwaite, J.; Bratkovic, D.; Bray, A.; Brion, M. J.; Burke, J.; Casauria, S.; Chong, B.; Coman, D.; Cowie, S.; Cowley, M.; de Silva, M. G.; Delatycki, M. B.; Edwards, S.; Ellaway, C.; Fahey, M. C.; Finlay, K.; Fletcher, J.; Frajman, L. E.; Frazier, A. E.; Gayevskiy, V.; Ghaoui, R.; Goel, H.; Goranitis, I.; Haas, M.; Hock, D. H.; Howting, D.; Jackson, M. R.; Kava, M. P.; Kemp, M.; King-Smith, S.; Lake, N. J.; Lamont, P. J.; Lee, J.; Long, J. C.; MacShane, M.; Madelli, E. O.; Martin, E. M.; Marum, J. E.; Mattiske, T.; McGill, J.; Metke, A.; Murray, S.; Panetta, J.; Phillips, L. K.; Quinn, M. C. J.; Ryan, M. T.; Schenscher, S.; Simons, C.; Smith, N.; Stroud, D. A.; Tchan, M. C.; Tom, M.; Wallis, M.; Ware, T. L.; Welch, A. E.; Wools, C.; Wu, Y.; Christodoulou, J.; Thorburn, D. R.

Please use this identifier to cite or link to this item: https://dora.health.qld.gov.au/qldresearchjspui/handle/1/5654

Title:	The Australian Genomics Mitochondrial Flagship: A National Program Delivering Mitochondrial Diagnoses
Authors:	Rius, R. Compton, A. G. Baker, N. L. Balasubramaniam, S. Best, S. Bhattacharya, K. Boggs, K. Boughtwood, T. Braithwaite, J. Bratkovic, D. Bray, A. Brion, M. J. Burke, J. Casauria, S. Chong, B. Coman, D. Cowie, S. Cowley, M. de Silva, M. G. Delatycki, M. B. Edwards, S. Ellaway, C. Fahey, M. C. Finlay, K. Fletcher, J. Frajman, L. E. Frazier, A. E. Gayevskiy, V. Ghaoui, R. Goel, H. Goranitis, I. Haas, M. Hock, D. H. Howting, D. Jackson, M. R. Kava, M. P. Kemp, M. King-Smith, S. Lake, N. J. Lamont, P. J. Lee, J. Long, J. C. MacShane, M. Madelli, E. O. Martin, E. M. Marum, J. E. Mattiske, T. McGill, J. Metke, A. Murray, S. Panetta, J. Phillips, L. K. Quinn, M. C. J. Ryan, M. T. Schenscher, S. Simons, C. Smith, N. Stroud, D. A. Tchan, M. C. Tom, M. Wallis, M. Ware, T. L. Welch, A. E. Wools, C. Wu, Y. Christodoulou, J. Thorburn, D. R.
Issue Date:	2023
Source:	medRxiv, 2023 (Rius R.; Simons C.) Centre for Population Genomics, Garvan Institute of Medical Research, Sydney, Australia
Journal Title:	medRxiv
Abstract:	Purpose. Families living with mitochondrial diseases (MD) often endure prolonged diagnostic journeys and invasive testing, yet many remain without a molecular diagnosis. Through a national team of clinicians, diagnostic, and research scientists, the Australian Genomics Mitochondrial disease flagship conducted a prospective study to identify the diagnostic utility of singleton genomic sequencing using blood samples as a first step to diagnose MD. Methods. 140 children and adults living with suspected MD were recruited using modified Nijmegen criteria (MNC) and randomised to either exome + mtDNA sequencing (ES+mtDNAseq) or genome sequencing (GS). 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 aetiology was identified in 77% of diagnoses, irrespective of disease onset. Diagnostic rate was higher in paediatric-onset (71%) than adult-onset (31%) cases. For children, higher MNC scores correlated with increased diagnostic yield and fewer diagnoses in phenocopy genes. Additionally, three adult patients had a mtDNA deletion discovered in skeletal muscle that was not initially detected 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.
DOI:	10.1101/2023.11.08.23298009
Resources:	https://www.embase.com/search/results?subaction=viewrecord&id=L2028778706&from=export http://dx.doi.org/10.1101/2023.11.08.23298009
Type:	Preprint
Appears in Sites:	Children's Health Queensland Publications Queensland Health Publications

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