Oral cancer prediction by noninvasive genetic screening

Jos B. Poell; Leon J. Wils; Arjen Brink; Ralf Dietrich; Christine Krieg; Eunike Velleuer; Ilkay Evren; Elisabeth R. Brouns; Jan G. de Visscher; Elisabeth Bloemena; Bauke Ylstra; Ruud H. Brakenhoff

doi:10.1002/ijc.34277

Oral cancer prediction by noninvasive genetic screening

Jos B. Poell, Leon J. Wils, Arjen Brink, Ralf Dietrich, Christine Krieg, Eunike Velleuer, Ilkay Evren, Elisabeth R. Brouns, Jan G. de Visscher, Elisabeth Bloemena, Bauke Ylstra, Ruud H. Brakenhoff^*

^*Corresponding author for this work

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

Abstract

Oral squamous cell carcinomas (OSCCs) develop in genetically altered epithelium in the mucosal lining, also coined as fields, which are mostly not visible but occasionally present as white oral leukoplakia (OL) lesions. We developed a noninvasive genetic assay using next-generation sequencing (NGS) on brushed cells to detect the presence of genetically altered fields, including those that are not macroscopically visible. The assay demonstrated high accuracy in OL patients when brush samples were compared with biopsies as gold standard. In a cohort of Fanconi anemia patients, detection of mutations in prospectively collected oral brushes predicted oral cancer also when visible abnormalities were absent. We further provide insight in the molecular landscape of OL with frequent changes of TP53, FAT1 and NOTCH1. NGS analysis of noninvasively collected samples offers a highly accurate method to detect genetically altered fields in the oral cavity, and predicts development of OSCC in high-risk individuals. Noninvasive genetic screening can be employed to screen high-risk populations for cancer and precancer, map the extension of OL lesions beyond what is visible, map the oral cavity for precancerous changes even when visible abnormalities are absent, test accuracy of promising imaging modalities, monitor interventions and determine genetic progression as well as the natural history of the disease in the human patient.

Original language	English
Pages (from-to)	227-238
Number of pages	12
Journal	International Journal of Cancer
Volume	152
Issue number	2
Early online date	7 Sept 2022
DOIs	https://doi.org/10.1002/ijc.34277
Publication status	Published - 15 Jan 2023

Bibliographical note

Funding Information:
Hanarth Foundation; Cancer Center Amsterdam Institutional Grant Funding information

Publisher Copyright:
© 2022 The Authors. International Journal of Cancer published by John Wiley & Sons Ltd on behalf of UICC.

Funding

Hanarth Foundation; Cancer Center Amsterdam Institutional Grant Funding information The authors thank all participating individuals. This study was funded by a Cancer Center Amsterdam Institutional Grant and the Hanarth Foundation.

Funders	Funder number
Hanarth Foundation
Hanarth Fonds

Keywords

Fanconi anemia
next-generation sequencing
noninvasive cancer screening
oral leukoplakia
oral squamous cell carcinoma

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1002/ijc.34277

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Cite this

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title = "Oral cancer prediction by noninvasive genetic screening",

abstract = "Oral squamous cell carcinomas (OSCCs) develop in genetically altered epithelium in the mucosal lining, also coined as fields, which are mostly not visible but occasionally present as white oral leukoplakia (OL) lesions. We developed a noninvasive genetic assay using next-generation sequencing (NGS) on brushed cells to detect the presence of genetically altered fields, including those that are not macroscopically visible. The assay demonstrated high accuracy in OL patients when brush samples were compared with biopsies as gold standard. In a cohort of Fanconi anemia patients, detection of mutations in prospectively collected oral brushes predicted oral cancer also when visible abnormalities were absent. We further provide insight in the molecular landscape of OL with frequent changes of TP53, FAT1 and NOTCH1. NGS analysis of noninvasively collected samples offers a highly accurate method to detect genetically altered fields in the oral cavity, and predicts development of OSCC in high-risk individuals. Noninvasive genetic screening can be employed to screen high-risk populations for cancer and precancer, map the extension of OL lesions beyond what is visible, map the oral cavity for precancerous changes even when visible abnormalities are absent, test accuracy of promising imaging modalities, monitor interventions and determine genetic progression as well as the natural history of the disease in the human patient.",

keywords = "Fanconi anemia, next-generation sequencing, noninvasive cancer screening, oral leukoplakia, oral squamous cell carcinoma",

author = "Poell, \{Jos B.\} and Wils, \{Leon J.\} and Arjen Brink and Ralf Dietrich and Christine Krieg and Eunike Velleuer and Ilkay Evren and Brouns, \{Elisabeth R.\} and \{de Visscher\}, \{Jan G.\} and Elisabeth Bloemena and Bauke Ylstra and Brakenhoff, \{Ruud H.\}",

note = "Funding Information: Hanarth Foundation; Cancer Center Amsterdam Institutional Grant Funding information Publisher Copyright: {\textcopyright} 2022 The Authors. International Journal of Cancer published by John Wiley \& Sons Ltd on behalf of UICC.",

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doi = "10.1002/ijc.34277",

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AU - Poell, Jos B.

AU - Wils, Leon J.

AU - Brink, Arjen

AU - Dietrich, Ralf

AU - Krieg, Christine

AU - Velleuer, Eunike

AU - Evren, Ilkay

AU - Brouns, Elisabeth R.

AU - de Visscher, Jan G.

AU - Bloemena, Elisabeth

AU - Ylstra, Bauke

AU - Brakenhoff, Ruud H.

N1 - Funding Information: Hanarth Foundation; Cancer Center Amsterdam Institutional Grant Funding information Publisher Copyright: © 2022 The Authors. International Journal of Cancer published by John Wiley & Sons Ltd on behalf of UICC.

PY - 2023/1/15

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N2 - Oral squamous cell carcinomas (OSCCs) develop in genetically altered epithelium in the mucosal lining, also coined as fields, which are mostly not visible but occasionally present as white oral leukoplakia (OL) lesions. We developed a noninvasive genetic assay using next-generation sequencing (NGS) on brushed cells to detect the presence of genetically altered fields, including those that are not macroscopically visible. The assay demonstrated high accuracy in OL patients when brush samples were compared with biopsies as gold standard. In a cohort of Fanconi anemia patients, detection of mutations in prospectively collected oral brushes predicted oral cancer also when visible abnormalities were absent. We further provide insight in the molecular landscape of OL with frequent changes of TP53, FAT1 and NOTCH1. NGS analysis of noninvasively collected samples offers a highly accurate method to detect genetically altered fields in the oral cavity, and predicts development of OSCC in high-risk individuals. Noninvasive genetic screening can be employed to screen high-risk populations for cancer and precancer, map the extension of OL lesions beyond what is visible, map the oral cavity for precancerous changes even when visible abnormalities are absent, test accuracy of promising imaging modalities, monitor interventions and determine genetic progression as well as the natural history of the disease in the human patient.

AB - Oral squamous cell carcinomas (OSCCs) develop in genetically altered epithelium in the mucosal lining, also coined as fields, which are mostly not visible but occasionally present as white oral leukoplakia (OL) lesions. We developed a noninvasive genetic assay using next-generation sequencing (NGS) on brushed cells to detect the presence of genetically altered fields, including those that are not macroscopically visible. The assay demonstrated high accuracy in OL patients when brush samples were compared with biopsies as gold standard. In a cohort of Fanconi anemia patients, detection of mutations in prospectively collected oral brushes predicted oral cancer also when visible abnormalities were absent. We further provide insight in the molecular landscape of OL with frequent changes of TP53, FAT1 and NOTCH1. NGS analysis of noninvasively collected samples offers a highly accurate method to detect genetically altered fields in the oral cavity, and predicts development of OSCC in high-risk individuals. Noninvasive genetic screening can be employed to screen high-risk populations for cancer and precancer, map the extension of OL lesions beyond what is visible, map the oral cavity for precancerous changes even when visible abnormalities are absent, test accuracy of promising imaging modalities, monitor interventions and determine genetic progression as well as the natural history of the disease in the human patient.

KW - Fanconi anemia

KW - next-generation sequencing

KW - noninvasive cancer screening

KW - oral leukoplakia

KW - oral squamous cell carcinoma

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Oral cancer prediction by noninvasive genetic screening

Abstract

Bibliographical note

Funding

Keywords

UN SDGs

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