Narrowing the diagnostic gap: Genomes, episignatures, long-read sequencing, and health economic analyses in an exome-negative intellectual disability cohort

被引:2
|
作者
Dias, Kerith-Rae
Shrestha, Rupendra
Schofield, Deborah
Evans, Carey-Anne [1 ]
O'Heir, Emily [2 ]
Zhu, Ying [3 ,5 ]
Zhang, Futao [3 ]
Standen, Krystle [3 ]
Weisburd, Ben [4 ]
Stenton, Sarah L. [4 ]
Sanchis-Juan, Alba [4 ]
Brand, Harrison [4 ]
Talkowski, Michael E. [4 ]
Ma, Alan [6 ,7 ]
Ghedia, Sondy [8 ,9 ]
Wilson, Meredith [6 ]
Sandaradura, Sarah A. [6 ,10 ]
Smith, Janine [6 ,7 ]
Kamien, Benjamin [11 ,12 ,13 ]
Turner, Anne [14 ]
Bakshi, Madhura [15 ]
Ades, Lesley C. [6 ,10 ]
Mowat, David [14 ,16 ]
Regan, Matthew [17 ]
McGillivray, George [18 ]
Savarirayan, Ravi [18 ,19 ,20 ]
White, Susan M. [18 ,20 ]
Tan, Tiong Yang [18 ,19 ,20 ]
Stark, Zornitza [18 ,20 ,21 ]
Brown, Natasha J. [18 ,19 ,20 ]
Perez-Jurado, Luis A. [22 ,23 ]
Krzesinski, Emma [17 ,24 ,25 ]
Hunter, Matthew F. [17 ,24 ,25 ]
Akesson, Lauren [26 ,27 ,28 ,29 ]
Fennell, Andrew Paul [17 ,24 ,25 ]
Yeung, Alison [18 ,19 ,20 ]
Boughtwood, Tiffany [19 ,21 ]
Ewans, Lisa J. [14 ,17 ,30 ]
Kerkhof, Jennifer [31 ]
Lucas, Christopher [4 ]
Carey, Louise [4 ]
French, Hugh [32 ]
Rapadas, Melissa [30 ,33 ,34 ]
Stevanovski, Igor [30 ,33 ,34 ]
Deveson, Ira W. [30 ,33 ,34 ,35 ]
Cliffe, Corrina [4 ]
Elakis, George [4 ]
Kirk, Edwin P. [4 ,15 ,17 ]
Dudding-Byth, Tracy [6 ]
Fletcher, Janice [4 ]
机构
[1] Neurosci Res Australia, Sydney, NSW, Australia
[2] Univ New South Wales, Fac Med & Hlth, Prince Wales Clin Sch, Sydney, NSW, Australia
[3] Macquarie Univ, Ctr Econ Impacts Genom Med, Macquarie Business Sch, Sydney, NSW, Australia
[4] Prince Wales Hosp, New South Wales Hlth Pathol Randwick Genom, Sydney, NSW, Australia
[5] Broad Inst MIT & Harvard, Program Med & Populat Genet, Cambridge, MA USA
[6] Genet Learning Disabil Serv, Waratah, NSW, Australia
[7] Sydney Childrens Hosp Network, Childrens Hosp Westmead, Dept Clin Genet, Sydney, NSW, Australia
[8] Univ Sydney, Sydney Med Sch, Specialty Genom Med, Sydney, NSW, Australia
[9] Royal North Shore Hosp, Dept Clin Genet, Sydney, NSW, Australia
[10] Royal North Shore Hosp, Northern Clin Sch, Sydney, NSW, Australia
[11] Univ Sydney, Discipline Child & Adolescent Hlth, Sydney, NSW 2050, Australia
[12] Univ Sydney, Discipline Genet Med, Sydney, NSW 2050, Australia
[13] Genet Serv Western Australia, Perth, WA, Australia
[14] Univ Western Australia, Sch Paediat & Child Hlth, Perth, WA, Australia
[15] Sydney Childrens Hosp, Ctr Clin Genet, Sydney, NSW, Australia
[16] Liverpool Hosp, Dept Clin Genet, Sydney, NSW, Australia
[17] Univ New South Wales, Fac Med & Hlth, Sch Clin Med, Discipline Paediat & Child Hlth, Sydney, NSW, Australia
[18] Monash Hlth, Monash Genet, Melbourne, Vic, Australia
[19] Murdoch Childrens Res Inst, Victorian Clin Genet Serv, Melbourne, Vic 3052, Australia
[20] Murdoch Childrens Res Inst, Melbourne, Vic, Australia
[21] Univ Melbourne, Dept Paediat, Melbourne, Vic, Australia
[22] Australian Genom, Melbourne, Vic, Australia
[23] Univ Pompeu Fabra, Inst Hosp del Mar Invest Med IMIM, Ctr Invest Biomed Red Enfermedades Raras CIBERER, Genet Unit, Barcelona, Spain
[24] South Australian Hlth & Med Res Inst, Womens & Childrens Hosp, Adelaide, SA, Australia
[25] Univ Adelaide, Adelaide, SA, Australia
[26] Monash Univ, Dept Paediat, Melbourne, Vic, Australia
[27] Melbourne Pathol, Melbourne, Vic, Australia
[28] Royal Melbourne Hosp, Dept Pathol, Melbourne, Vic, Australia
[29] Univ Melbourne, Melbourne Med Sch, Melbourne, Vic, Australia
[30] Univ New South Wales Sydney, Garvan Inst Med Res, Genom & Inherited Dis Program, Sydney, NSW, Australia
[31] London Hlth Sci Ctr, Verspeeten Clin Genome Ctr, London, ON, Canada
[32] Royal Prince Alfred Hosp, Dept Med Genom, Sydney, NSW, Australia
[33] Garvan Inst Med Res, Ctr Populat Genom, Sydney, NSW, Australia
[34] Murdoch Childrens Res Inst, Sydney, NSW, Australia
[35] Univ New South Wales, Fac Med, St Vincents Clin Sch, Sydney, NSW, Australia
[36] Univ Adelaide, Adelaide Med Sch, Adelaide, SA, Australia
[37] Univ Adelaide, Robinson Res Inst, Adelaide, SA, Australia
[38] South Australian Hlth & Med Res Inst, Adelaide, SA, Australia
[39] New South Wales Hlth Pathol, State Wide Serv, Sydney, NSW, Australia
[40] Global Alliance Genom & Hlth, Toronto, ON, Canada
[41] Western Univ, Dept Pathol & Lab Med, London, ON, Canada
[42] Boston Childrens Hosp, Div Genet & Genom, Boston, MA USA
来源
GENETICS IN MEDICINE | 2024年 / 26卷 / 05期
基金
澳大利亚国家健康与医学研究理事会;
关键词
Exome negative; Genome sequencing; Health economics; Intellectual disability; Episignature; DISCOVERY;
D O I
10.1016/j.gim.2024.101076
中图分类号
Q3 [遗传学];
学科分类号
071007 ; 090102 ;
摘要
Purpose: Genome sequencing (GS)-specific diagnostic rates in prospective tightly ascertained exome sequencing (ES)-negative intellectual disability (ID) cohorts have not been reported extensively. Methods: ES, GS, epigenetic signatures, and long-read sequencing diagnoses were assessed in 74 trios with at least moderate ID. Results: The ES diagnostic yield was 42 of 74 (57%). GS diagnoses were made in 9 of 32 (28%) ES-unresolved families. Repeated ES with a contemporary pipeline on the GS-diagnosed families identified 8 of 9 single-nucleotide variations/copy-number variations undetected in older ES, confirming a GS -unique diagnostic rate of 1 in 32 (3%). Episignatures contributed diagnostic information in 9% with GS corroboration in 1 of 32 (3%) and diagnostic clues in 2 of 32 (6%). A genetic etiology for ID was detected in 51 of 74 (69%) families. Twelve candidate disease genes were identified. Contemporary ES followed by GS cost US$4976 (95% CI: $3704; $6969) per diagnosis and first -line GS at a cost of $7062 (95% CI: $6210; $8475) per diagnosis. Conclusion: Performing GS only in ID trios would be cost equivalent to ES if GS were available at $2435, about a 60% reduction from current prices. This study demonstrates that first -line GS achieves higher diagnostic rate than contemporary ES but at a higher cost. (c) 2024 American College of Medical Genetics and Genomics. Published by Elsevier Inc. All rights reserved.
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