Toward an effective exome-based genetic testing strategy in pediatric dilated cardiomyopathy

Johanna C. Herkert; Kristin M. Abbott; Erwin Birnie; Martine T. Meems-Veldhuis; Ludolf G. Boven; Marloes Benjamins; Gideon J. du Marchie Sarvaas; Daniela Q.C.M. Barge-Schaapveld; J. Peter van Tintelen; Paul A. van der Zwaag; Yvonne J. Vos; Richard J. Sinke; Maarten P. van den Berg; Irene M. van Langen; Jan D.H. Jongbloed

doi:10.1038/gim.2018.9

Toward an effective exome-based genetic testing strategy in pediatric dilated cardiomyopathy

Johanna C. Herkert^*, Kristin M. Abbott, Erwin Birnie, Martine T. Meems-Veldhuis, Ludolf G. Boven, Marloes Benjamins, Gideon J. du Marchie Sarvaas, Daniela Q.C.M. Barge-Schaapveld, J. Peter van Tintelen, Paul A. van der Zwaag, Yvonne J. Vos, Richard J. Sinke, Maarten P. van den Berg, Irene M. van Langen, Jan D.H. Jongbloed

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

2 Citations (Scopus)

Abstract

Purpose: We evaluated the diagnostic yield in pediatric dilated cardiomyopathy (DCM) of combining exome sequencing (ES)-based targeted analysis and genome-wide copy-number variation (CNV) analysis. Based on our findings, we retrospectively designed an effective approach for genetic testing in pediatric DCM. Methods: We identified 95 patients (in 85 families) with pediatric onset of DCM. We initially excluded 13 of these families because they already had a genetic diagnosis, leaving a total of 31 probands for single-nucleotide polymorphism (SNP) array and trio-ES. We used Human Phenotype Ontology (HPO)-based filtering for our data analysis. Results: We reached a genetic diagnosis in 15/31 (48.4%) families. ES yielded a diagnosis in 13 probands (13/15; 86.7%), with most variants being found in genes encoding structural cardiomyocyte components. Two large deletions were identified using SNP array. If we had included the 13 excluded families, our estimated yield would have been 54%. Conclusion: We propose a standardized, stepwise analysis of (i) well-known cardiomyopathy genes, (ii) CNVs, (iii) all genes assigned to HPO cardiomyopathy, and (iv) if appropriate, genes assigned to other HPO terms. This diagnostic approach yields the highest increase at each subsequent step and reduces analytic effort, cost, the number of variants of unknown clinical significance, and the chance of incidental findings.

Original language	English
Pages (from-to)	1374-1386
Number of pages	13
Journal	Genetics in Medicine
Volume	20
Issue number	11
DOIs	https://doi.org/10.1038/gim.2018.9
Publication status	Published - 1 Nov 2018
Externally published	Yes

Keywords

copy-number variation analysis
diagnostic approach; dilated cardiomyopathy
exome sequencing
pediatric cardiomyopathy

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10.1038/gim.2018.9

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Herkert, J. C., Abbott, K. M., Birnie, E., Meems-Veldhuis, M. T., Boven, L. G., Benjamins, M., du Marchie Sarvaas, G. J., Barge-Schaapveld, D. Q. C. M., van Tintelen, J. P., van der Zwaag, P. A., Vos, Y. J., Sinke, R. J., van den Berg, M. P., van Langen, I. M., & Jongbloed, J. D. H. (2018). Toward an effective exome-based genetic testing strategy in pediatric dilated cardiomyopathy. Genetics in Medicine, 20(11), 1374-1386. https://doi.org/10.1038/gim.2018.9

@article{57d30de5b6804c0697728cce1fd83bc4,

title = "Toward an effective exome-based genetic testing strategy in pediatric dilated cardiomyopathy",

abstract = "Purpose: We evaluated the diagnostic yield in pediatric dilated cardiomyopathy (DCM) of combining exome sequencing (ES)-based targeted analysis and genome-wide copy-number variation (CNV) analysis. Based on our findings, we retrospectively designed an effective approach for genetic testing in pediatric DCM. Methods: We identified 95 patients (in 85 families) with pediatric onset of DCM. We initially excluded 13 of these families because they already had a genetic diagnosis, leaving a total of 31 probands for single-nucleotide polymorphism (SNP) array and trio-ES. We used Human Phenotype Ontology (HPO)-based filtering for our data analysis. Results: We reached a genetic diagnosis in 15/31 (48.4%) families. ES yielded a diagnosis in 13 probands (13/15; 86.7%), with most variants being found in genes encoding structural cardiomyocyte components. Two large deletions were identified using SNP array. If we had included the 13 excluded families, our estimated yield would have been 54%. Conclusion: We propose a standardized, stepwise analysis of (i) well-known cardiomyopathy genes, (ii) CNVs, (iii) all genes assigned to HPO cardiomyopathy, and (iv) if appropriate, genes assigned to other HPO terms. This diagnostic approach yields the highest increase at each subsequent step and reduces analytic effort, cost, the number of variants of unknown clinical significance, and the chance of incidental findings.",

keywords = "copy-number variation analysis, diagnostic approach; dilated cardiomyopathy, exome sequencing, pediatric cardiomyopathy",

author = "Herkert, {Johanna C.} and Abbott, {Kristin M.} and Erwin Birnie and Meems-Veldhuis, {Martine T.} and Boven, {Ludolf G.} and Marloes Benjamins and {du Marchie Sarvaas}, {Gideon J.} and Barge-Schaapveld, {Daniela Q.C.M.} and {van Tintelen}, {J. Peter} and {van der Zwaag}, {Paul A.} and Vos, {Yvonne J.} and Sinke, {Richard J.} and {van den Berg}, {Maarten P.} and {van Langen}, {Irene M.} and Jongbloed, {Jan D.H.}",

year = "2018",

month = nov,

day = "1",

doi = "10.1038/gim.2018.9",

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pages = "1374--1386",

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Herkert, JC, Abbott, KM, Birnie, E, Meems-Veldhuis, MT, Boven, LG, Benjamins, M, du Marchie Sarvaas, GJ, Barge-Schaapveld, DQCM, van Tintelen, JP, van der Zwaag, PA, Vos, YJ, Sinke, RJ, van den Berg, MP, van Langen, IM & Jongbloed, JDH 2018, 'Toward an effective exome-based genetic testing strategy in pediatric dilated cardiomyopathy', Genetics in Medicine, vol. 20, no. 11, pp. 1374-1386. https://doi.org/10.1038/gim.2018.9

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T1 - Toward an effective exome-based genetic testing strategy in pediatric dilated cardiomyopathy

AU - Herkert, Johanna C.

AU - Abbott, Kristin M.

AU - Birnie, Erwin

AU - Meems-Veldhuis, Martine T.

AU - Boven, Ludolf G.

AU - Benjamins, Marloes

AU - du Marchie Sarvaas, Gideon J.

AU - Barge-Schaapveld, Daniela Q.C.M.

AU - van Tintelen, J. Peter

AU - van der Zwaag, Paul A.

AU - Vos, Yvonne J.

AU - Sinke, Richard J.

AU - van den Berg, Maarten P.

AU - van Langen, Irene M.

AU - Jongbloed, Jan D.H.

PY - 2018/11/1

Y1 - 2018/11/1

N2 - Purpose: We evaluated the diagnostic yield in pediatric dilated cardiomyopathy (DCM) of combining exome sequencing (ES)-based targeted analysis and genome-wide copy-number variation (CNV) analysis. Based on our findings, we retrospectively designed an effective approach for genetic testing in pediatric DCM. Methods: We identified 95 patients (in 85 families) with pediatric onset of DCM. We initially excluded 13 of these families because they already had a genetic diagnosis, leaving a total of 31 probands for single-nucleotide polymorphism (SNP) array and trio-ES. We used Human Phenotype Ontology (HPO)-based filtering for our data analysis. Results: We reached a genetic diagnosis in 15/31 (48.4%) families. ES yielded a diagnosis in 13 probands (13/15; 86.7%), with most variants being found in genes encoding structural cardiomyocyte components. Two large deletions were identified using SNP array. If we had included the 13 excluded families, our estimated yield would have been 54%. Conclusion: We propose a standardized, stepwise analysis of (i) well-known cardiomyopathy genes, (ii) CNVs, (iii) all genes assigned to HPO cardiomyopathy, and (iv) if appropriate, genes assigned to other HPO terms. This diagnostic approach yields the highest increase at each subsequent step and reduces analytic effort, cost, the number of variants of unknown clinical significance, and the chance of incidental findings.

AB - Purpose: We evaluated the diagnostic yield in pediatric dilated cardiomyopathy (DCM) of combining exome sequencing (ES)-based targeted analysis and genome-wide copy-number variation (CNV) analysis. Based on our findings, we retrospectively designed an effective approach for genetic testing in pediatric DCM. Methods: We identified 95 patients (in 85 families) with pediatric onset of DCM. We initially excluded 13 of these families because they already had a genetic diagnosis, leaving a total of 31 probands for single-nucleotide polymorphism (SNP) array and trio-ES. We used Human Phenotype Ontology (HPO)-based filtering for our data analysis. Results: We reached a genetic diagnosis in 15/31 (48.4%) families. ES yielded a diagnosis in 13 probands (13/15; 86.7%), with most variants being found in genes encoding structural cardiomyocyte components. Two large deletions were identified using SNP array. If we had included the 13 excluded families, our estimated yield would have been 54%. Conclusion: We propose a standardized, stepwise analysis of (i) well-known cardiomyopathy genes, (ii) CNVs, (iii) all genes assigned to HPO cardiomyopathy, and (iv) if appropriate, genes assigned to other HPO terms. This diagnostic approach yields the highest increase at each subsequent step and reduces analytic effort, cost, the number of variants of unknown clinical significance, and the chance of incidental findings.

KW - copy-number variation analysis

KW - diagnostic approach; dilated cardiomyopathy

KW - exome sequencing

KW - pediatric cardiomyopathy

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DO - 10.1038/gim.2018.9

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JO - Genetics in Medicine

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ER -

Toward an effective exome-based genetic testing strategy in pediatric dilated cardiomyopathy

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Keywords

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