Clinical Validation of Whole Genome Sequencing for Cancer Diagnostics

Paul Roepman; Ewart de Bruijn; Stef van Lieshout; Lieke Schoenmaker; Mirjam C. Boelens; Hendrikus J. Dubbink; Willemina R. R. Geurts-Giele; Floris H. Groenendijk; Manon M. H. Huibers; Mariëtte E. G. Kranendonk; Margaretha G. M. Roemer; Kris G. Samsom; Marloes Steehouwer; Wendy W. J. de Leng; Alexander Hoischen; Bauke Ylstra; Kim Monkhorst; Jacobus J. M. van der Hoeven; Edwin Cuppen

doi:https://doi.org/10.1016/j.jmoldx.2021.04.011

Clinical Validation of Whole Genome Sequencing for Cancer Diagnostics

Paul Roepman, Ewart de Bruijn, Stef van Lieshout, Lieke Schoenmaker, Mirjam C. Boelens, Hendrikus J. Dubbink, Willemina R. R. Geurts-Giele, Floris H. Groenendijk, Manon M. H. Huibers, Mariëtte E. G. Kranendonk, Margaretha G. M. Roemer, Kris G. Samsom, Marloes Steehouwer, Wendy W. J. de Leng, Alexander Hoischen, Bauke Ylstra, Kim Monkhorst, Jacobus J. M. van der Hoeven, Edwin Cuppen

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

38 Citations (Scopus)

Abstract

Whole genome sequencing (WGS) using fresh-frozen tissue and matched blood samples from cancer patients may become the most complete genetic tumor test. With the increasing availability of small biopsies and the need to screen more number of biomarkers, the use of a single all-inclusive test is preferable over multiple consecutive assays. To meet high-quality diagnostics standards, we optimized and clinically validated WGS sample and data processing procedures, resulting in a technical success rate of 95.6% for fresh-frozen samples with sufficient (≥20%) tumor content. Independent validation of identified biomarkers against commonly used diagnostic assays showed a high sensitivity (recall; 98.5%) and precision (positive predictive value; 97.8%) for detection of somatic single-nucleotide variants and insertions and deletions (across 22 genes), and high concordance for detection of gene amplification (97.0%; EGFR and MET) as well as somatic complete loss (100%; CDKN2A/p16). Gene fusion analysis showed a concordance of 91.3% between DNA-based WGS and an orthogonal RNA-based gene fusion assay. Microsatellite (in)stability assessment showed a sensitivity of 100% with a precision of 94%, and virus detection (human papillomavirus), an accuracy of 100% compared with standard testing. In conclusion, whole genome sequencing has a >95% sensitivity and precision compared with routinely used DNA techniques in diagnostics, and all relevant mutation types can be detected reliably in a single assay.

Original language	English
Pages (from-to)	816-833
Number of pages	18
Journal	Journal of molecular diagnostics
Volume	23
Issue number	7
DOIs	https://doi.org/10.1016/j.jmoldx.2021.04.011
Publication status	Published - 1 Jul 2021

Access to Document

https://doi.org/10.1016/j.jmoldx.2021.04.011

Cite this

Roepman, P., de Bruijn, E., van Lieshout, S., Schoenmaker, L., Boelens, M. C., Dubbink, H. J., Geurts-Giele, W. R. R., Groenendijk, F. H., Huibers, M. M. H., Kranendonk, M. E. G., Roemer, M. G. M., Samsom, K. G., Steehouwer, M., de Leng, W. W. J., Hoischen, A., Ylstra, B., Monkhorst, K., van der Hoeven, J. J. M., & Cuppen, E. (2021). Clinical Validation of Whole Genome Sequencing for Cancer Diagnostics. Journal of molecular diagnostics, 23(7), 816-833. https://doi.org/10.1016/j.jmoldx.2021.04.011

@article{455f0268f6c54864bbdab5d3106d2c3a,

title = "Clinical Validation of Whole Genome Sequencing for Cancer Diagnostics",

abstract = "Whole genome sequencing (WGS) using fresh-frozen tissue and matched blood samples from cancer patients may become the most complete genetic tumor test. With the increasing availability of small biopsies and the need to screen more number of biomarkers, the use of a single all-inclusive test is preferable over multiple consecutive assays. To meet high-quality diagnostics standards, we optimized and clinically validated WGS sample and data processing procedures, resulting in a technical success rate of 95.6% for fresh-frozen samples with sufficient (≥20%) tumor content. Independent validation of identified biomarkers against commonly used diagnostic assays showed a high sensitivity (recall; 98.5%) and precision (positive predictive value; 97.8%) for detection of somatic single-nucleotide variants and insertions and deletions (across 22 genes), and high concordance for detection of gene amplification (97.0%; EGFR and MET) as well as somatic complete loss (100%; CDKN2A/p16). Gene fusion analysis showed a concordance of 91.3% between DNA-based WGS and an orthogonal RNA-based gene fusion assay. Microsatellite (in)stability assessment showed a sensitivity of 100% with a precision of 94%, and virus detection (human papillomavirus), an accuracy of 100% compared with standard testing. In conclusion, whole genome sequencing has a >95% sensitivity and precision compared with routinely used DNA techniques in diagnostics, and all relevant mutation types can be detected reliably in a single assay.",

author = "Paul Roepman and {de Bruijn}, Ewart and {van Lieshout}, Stef and Lieke Schoenmaker and Boelens, {Mirjam C.} and Dubbink, {Hendrikus J.} and Geurts-Giele, {Willemina R. R.} and Groenendijk, {Floris H.} and Huibers, {Manon M. H.} and Kranendonk, {Mari{\"e}tte E. G.} and Roemer, {Margaretha G. M.} and Samsom, {Kris G.} and Marloes Steehouwer and {de Leng}, {Wendy W. J.} and Alexander Hoischen and Bauke Ylstra and Kim Monkhorst and {van der Hoeven}, {Jacobus J. M.} and Edwin Cuppen",

note = "Funding Information: We thank Peggy Atmodimedjo, Isabelle Meijssen, Ronald van Marion, and Hanna Schoep for assistance with data collection; Sandra van den Broek, Nina Jacobs, and David Koetsier for analyzing data; and Immy Riethorst for sample logistics. The data from Hartwig Medical Foundation and the Center of Personalised Cancer Treatment supported research and publication of parts of this manuscript. Publisher Copyright: {\textcopyright} 2021 Association for Molecular Pathology and American Society for Investigative Pathology Copyright: Copyright 2021 Elsevier B.V., All rights reserved.",

year = "2021",

month = jul,

day = "1",

doi = "https://doi.org/10.1016/j.jmoldx.2021.04.011",

language = "English",

volume = "23",

pages = "816--833",

journal = "Journal of molecular diagnostics",

issn = "1525-1578",

publisher = "Association of Molecular Pathology",

number = "7",

}

Roepman, P, de Bruijn, E, van Lieshout, S, Schoenmaker, L, Boelens, MC, Dubbink, HJ, Geurts-Giele, WRR, Groenendijk, FH, Huibers, MMH, Kranendonk, MEG, Roemer, MGM, Samsom, KG, Steehouwer, M, de Leng, WWJ, Hoischen, A, Ylstra, B, Monkhorst, K, van der Hoeven, JJM & Cuppen, E 2021, 'Clinical Validation of Whole Genome Sequencing for Cancer Diagnostics', Journal of molecular diagnostics, vol. 23, no. 7, pp. 816-833. https://doi.org/10.1016/j.jmoldx.2021.04.011

TY - JOUR

T1 - Clinical Validation of Whole Genome Sequencing for Cancer Diagnostics

AU - Roepman, Paul

AU - de Bruijn, Ewart

AU - van Lieshout, Stef

AU - Schoenmaker, Lieke

AU - Boelens, Mirjam C.

AU - Dubbink, Hendrikus J.

AU - Geurts-Giele, Willemina R. R.

AU - Groenendijk, Floris H.

AU - Huibers, Manon M. H.

AU - Kranendonk, Mariëtte E. G.

AU - Roemer, Margaretha G. M.

AU - Samsom, Kris G.

AU - Steehouwer, Marloes

AU - de Leng, Wendy W. J.

AU - Hoischen, Alexander

AU - Ylstra, Bauke

AU - Monkhorst, Kim

AU - van der Hoeven, Jacobus J. M.

AU - Cuppen, Edwin

N1 - Funding Information: We thank Peggy Atmodimedjo, Isabelle Meijssen, Ronald van Marion, and Hanna Schoep for assistance with data collection; Sandra van den Broek, Nina Jacobs, and David Koetsier for analyzing data; and Immy Riethorst for sample logistics. The data from Hartwig Medical Foundation and the Center of Personalised Cancer Treatment supported research and publication of parts of this manuscript. Publisher Copyright: © 2021 Association for Molecular Pathology and American Society for Investigative Pathology Copyright: Copyright 2021 Elsevier B.V., All rights reserved.

PY - 2021/7/1

Y1 - 2021/7/1

N2 - Whole genome sequencing (WGS) using fresh-frozen tissue and matched blood samples from cancer patients may become the most complete genetic tumor test. With the increasing availability of small biopsies and the need to screen more number of biomarkers, the use of a single all-inclusive test is preferable over multiple consecutive assays. To meet high-quality diagnostics standards, we optimized and clinically validated WGS sample and data processing procedures, resulting in a technical success rate of 95.6% for fresh-frozen samples with sufficient (≥20%) tumor content. Independent validation of identified biomarkers against commonly used diagnostic assays showed a high sensitivity (recall; 98.5%) and precision (positive predictive value; 97.8%) for detection of somatic single-nucleotide variants and insertions and deletions (across 22 genes), and high concordance for detection of gene amplification (97.0%; EGFR and MET) as well as somatic complete loss (100%; CDKN2A/p16). Gene fusion analysis showed a concordance of 91.3% between DNA-based WGS and an orthogonal RNA-based gene fusion assay. Microsatellite (in)stability assessment showed a sensitivity of 100% with a precision of 94%, and virus detection (human papillomavirus), an accuracy of 100% compared with standard testing. In conclusion, whole genome sequencing has a >95% sensitivity and precision compared with routinely used DNA techniques in diagnostics, and all relevant mutation types can be detected reliably in a single assay.

AB - Whole genome sequencing (WGS) using fresh-frozen tissue and matched blood samples from cancer patients may become the most complete genetic tumor test. With the increasing availability of small biopsies and the need to screen more number of biomarkers, the use of a single all-inclusive test is preferable over multiple consecutive assays. To meet high-quality diagnostics standards, we optimized and clinically validated WGS sample and data processing procedures, resulting in a technical success rate of 95.6% for fresh-frozen samples with sufficient (≥20%) tumor content. Independent validation of identified biomarkers against commonly used diagnostic assays showed a high sensitivity (recall; 98.5%) and precision (positive predictive value; 97.8%) for detection of somatic single-nucleotide variants and insertions and deletions (across 22 genes), and high concordance for detection of gene amplification (97.0%; EGFR and MET) as well as somatic complete loss (100%; CDKN2A/p16). Gene fusion analysis showed a concordance of 91.3% between DNA-based WGS and an orthogonal RNA-based gene fusion assay. Microsatellite (in)stability assessment showed a sensitivity of 100% with a precision of 94%, and virus detection (human papillomavirus), an accuracy of 100% compared with standard testing. In conclusion, whole genome sequencing has a >95% sensitivity and precision compared with routinely used DNA techniques in diagnostics, and all relevant mutation types can be detected reliably in a single assay.

UR - http://www.scopus.com/inward/record.url?scp=85109083940&partnerID=8YFLogxK

U2 - https://doi.org/10.1016/j.jmoldx.2021.04.011

DO - https://doi.org/10.1016/j.jmoldx.2021.04.011

M3 - Article

C2 - 33964451

SN - 1525-1578

VL - 23

SP - 816

EP - 833

JO - Journal of molecular diagnostics

JF - Journal of molecular diagnostics

IS - 7

ER -

Clinical Validation of Whole Genome Sequencing for Cancer Diagnostics

Abstract

Access to Document

Other files and links

Cite this