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Cardiomyopathies in 100,000 Genomes Project: interval evaluation improves diagnostic yield and informs strategies for ongoing gene discovery

Cardiomyopathies in 100,000 Genomes Project: interval evaluation improves diagnostic yield and informs strategies for ongoing gene discovery
Cardiomyopathies in 100,000 Genomes Project: interval evaluation improves diagnostic yield and informs strategies for ongoing gene discovery
Background: cardiomyopathies are clinically important conditions, with a strong genetic component. National genomic initiatives such as 100,000 Genome Project (100KGP) provide opportunity to study these rare conditions at scale beyond conventional research studies.

Methods: we present the clinical and molecular characteristics of the 100KGP cohort, comparing paediatric and adult probands with diverse cardiomyopathies. We assessed the diagnostic yield and spectrum of genetic aetiologies across clinical presentations. We re-analysed existing genomic data using an updated analytical strategy (revised gene panels; unbiased analyses of de novo variants; and improved variant prioritisation strategies) to identify new causative variants in genetically unsolved children.

Results: we identified 1918 individuals (1563 probands, 355 relatives) with cardiomyopathy (CM) in 100KGP. Probands, comprising 273 children and 1290 adults, were enrolled under >55 different recruitment categories. Paediatric probands had higher rates of co-existing congenital heart disease (12%) compared to adults (0.9%). Diagnostic yield following 100KGP’s initial analysis was significantly higher for children (19%) than for adults (11%) with 11% of diagnoses overall made in genes not on the existing UK paediatric or syndromic CM panel. Our re-analysis of paediatric probands yields a potential diagnosis in 40%, identifying new probable or possible diagnoses in 49 previously unsolved paediatric cases. Structural and intronic variants accounted for 11% of all potential diagnoses in children while de novo variants were identified in 17%.

Conclusions: 100KGP demonstrates the benefit of genome sequencing over a standalone panel in CM. Re-analysis of paediatric CM probands allowed a significant uplift in diagnostic yield, emphasizing the importance of iterative re-evaluation in genomic studies. Despite these efforts, many children with CM remain without a genetic diagnosis, highlighting the need for better gene-disease relationship curation and ongoing data sharing. The 100KGP CM cohort is likely to be useful for further gene discovery, but heterogeneous ascertainment and key technical limitations must be understood and addressed.
100,000 Genomes Project, Cardiomyopathy, genetic diagnosis, genome sequencing, paediatric
1756-994X
Josephs, Katherine S.
2bd33ce5-91ad-4f07-957f-fc1e8a3b6804
Seaby, Eleanor G.
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May, Philippa
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Theotokis, Pantazis
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Yu, Jing
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Andreou, Avgi
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Sinclair, Hannah
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Morris-Rosendahl, Deborah
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Thomas, Ellen R.A.
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Ennis, Sarah
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Roberts, Angharad M.
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Ware, James S.
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Josephs, Katherine S.
2bd33ce5-91ad-4f07-957f-fc1e8a3b6804
Seaby, Eleanor G.
ec948f42-007c-4bd8-9dff-bb86278bf03f
May, Philippa
004509f0-bf99-4958-9dab-c9905661e634
Theotokis, Pantazis
a06ba921-bb70-4dce-8c20-e492915cf514
Yu, Jing
5fd9d3a3-5552-4a34-be88-a6a14f95eaf4
Andreou, Avgi
a4d8c37f-11e1-43cf-b1ba-5db5ede337db
Sinclair, Hannah
1dd795da-1b9d-4c7f-9832-19c93d0556d8
Morris-Rosendahl, Deborah
969d9ac5-eb2f-4e1b-be4a-307eaf3d7215
Thomas, Ellen R.A.
8d6bf669-1c29-4558-8899-0976bd3534af
Ennis, Sarah
7b57f188-9d91-4beb-b217-09856146f1e9
Roberts, Angharad M.
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Ware, James S.
6e99bb22-caf5-489e-aa0a-27c1423a671e

Josephs, Katherine S., Seaby, Eleanor G., May, Philippa, Theotokis, Pantazis, Yu, Jing, Andreou, Avgi, Sinclair, Hannah, Morris-Rosendahl, Deborah, Thomas, Ellen R.A., Ennis, Sarah, Roberts, Angharad M. and Ware, James S. (2024) Cardiomyopathies in 100,000 Genomes Project: interval evaluation improves diagnostic yield and informs strategies for ongoing gene discovery. Genome Medicine, 16 (1), [125]. (doi:10.1186/s13073-024-01390-9).

Record type: Article

Abstract

Background: cardiomyopathies are clinically important conditions, with a strong genetic component. National genomic initiatives such as 100,000 Genome Project (100KGP) provide opportunity to study these rare conditions at scale beyond conventional research studies.

Methods: we present the clinical and molecular characteristics of the 100KGP cohort, comparing paediatric and adult probands with diverse cardiomyopathies. We assessed the diagnostic yield and spectrum of genetic aetiologies across clinical presentations. We re-analysed existing genomic data using an updated analytical strategy (revised gene panels; unbiased analyses of de novo variants; and improved variant prioritisation strategies) to identify new causative variants in genetically unsolved children.

Results: we identified 1918 individuals (1563 probands, 355 relatives) with cardiomyopathy (CM) in 100KGP. Probands, comprising 273 children and 1290 adults, were enrolled under >55 different recruitment categories. Paediatric probands had higher rates of co-existing congenital heart disease (12%) compared to adults (0.9%). Diagnostic yield following 100KGP’s initial analysis was significantly higher for children (19%) than for adults (11%) with 11% of diagnoses overall made in genes not on the existing UK paediatric or syndromic CM panel. Our re-analysis of paediatric probands yields a potential diagnosis in 40%, identifying new probable or possible diagnoses in 49 previously unsolved paediatric cases. Structural and intronic variants accounted for 11% of all potential diagnoses in children while de novo variants were identified in 17%.

Conclusions: 100KGP demonstrates the benefit of genome sequencing over a standalone panel in CM. Re-analysis of paediatric CM probands allowed a significant uplift in diagnostic yield, emphasizing the importance of iterative re-evaluation in genomic studies. Despite these efforts, many children with CM remain without a genetic diagnosis, highlighting the need for better gene-disease relationship curation and ongoing data sharing. The 100KGP CM cohort is likely to be useful for further gene discovery, but heterogeneous ascertainment and key technical limitations must be understood and addressed.

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Accepted/In Press date: 24 September 2024
e-pub ahead of print date: 29 October 2024
Additional Information: For the purpose of open access, the authors have applied a CC BY public copyright licence to any Author Accepted Manuscript version arising from this submission.
Keywords: 100,000 Genomes Project, Cardiomyopathy, genetic diagnosis, genome sequencing, paediatric
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Identifiers

Local EPrints ID: 495358
URI: http://eprints.soton.ac.uk/id/eprint/495358
DOI: doi:10.1186/s13073-024-01390-9
ISSN: 1756-994X
PURE UUID: 0c9b20dc-b989-463b-90a3-23033822512b
ORCID for Eleanor G. Seaby: ORCID iD orcid.org/0000-0002-6814-8648
ORCID for Sarah Ennis: ORCID iD orcid.org/0000-0003-2648-0869

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Date deposited: 11 Nov 2024 18:15
Last modified: 12 Nov 2024 03:06

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Contributors

Author: Katherine S. Josephs
Author: Eleanor G. Seaby ORCID iD
Author: Philippa May
Author: Pantazis Theotokis
Author: Jing Yu
Author: Avgi Andreou
Author: Hannah Sinclair
Author: Deborah Morris-Rosendahl
Author: Ellen R.A. Thomas
Author: Sarah Ennis ORCID iD
Author: Angharad M. Roberts
Author: James S. Ware

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