DNA hypermethylation analysis in sputum for the diagnosis of lung cancer: training validation set approach

A. J. Hubers; D. A. M. Heideman; S. A. Burgers; G. J. M. Herder; P. J. Sterk; R. J. Rhodius; H. J. Smit; F. Krouwels; A. Welling; B. I. Witte; S. Duin; R. Koning; E. F. I. Comans; R. D. M. Steenbergen; P. E. Postmus; G. A. Meijer; P. J. F. Snijders; E. F. Smit; E. Thunnissen

doi:https://doi.org/10.1038/bjc.2014.636

DNA hypermethylation analysis in sputum for the diagnosis of lung cancer: training validation set approach

A. J. Hubers, D. A. M. Heideman, S. A. Burgers, G. J. M. Herder, P. J. Sterk, R. J. Rhodius, H. J. Smit, F. Krouwels, A. Welling, B. I. Witte, S. Duin, R. Koning, E. F. I. Comans, R. D. M. Steenbergen, P. E. Postmus, G. A. Meijer, P. J. F. Snijders, E. F. Smit, E. Thunnissen

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Abstract

Lung cancer has the highest mortality of all cancers. The aim of this study was to examine DNA hypermethylation in sputum and validate its diagnostic accuracy for lung cancer. DNA hypermethylation of RASSF1A, APC, cytoglobin, 3OST2, PRDM14, FAM19A4 and PHACTR3 was analysed in sputum samples from symptomatic lung cancer patients and controls (learning set: 73 cases, 86 controls; validation set: 159 cases, 154 controls) by quantitative methylation-specific PCR. Three statistical models were used: (i) cutoff based on Youden's J index, (ii) cutoff based on fixed specificity per marker of 96% and (iii) risk classification of post-test probabilities. In the learning set, approach (i) showed that RASSF1A was best able to distinguish cases from controls (sensitivity 42.5%, specificity 96.5%). RASSF1A, 3OST2 and PRDM14 combined demonstrated a sensitivity of 82.2% with a specificity of 66.3%. Approach (ii) yielded a combination rule of RASSF1A, 3OST2 and PHACTR3 (sensitivity 67.1%, specificity 89.5%). The risk model (approach iii) distributed the cases over all risk categories. All methods displayed similar and consistent results in the validation set. Our findings underscore the impact of DNA methylation markers in symptomatic lung cancer diagnosis. RASSF1A is validated as diagnostic marker in lung cancer

Original language	English
Pages (from-to)	1105-1113
Journal	British journal of cancer
Volume	112
Issue number	6
DOIs	https://doi.org/10.1038/bjc.2014.636
Publication status	Published - 2015

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Hubers, A. J., Heideman, D. A. M., Burgers, S. A., Herder, G. J. M., Sterk, P. J., Rhodius, R. J., Smit, H. J., Krouwels, F., Welling, A., Witte, B. I., Duin, S., Koning, R., Comans, E. F. I., Steenbergen, R. D. M., Postmus, P. E., Meijer, G. A., Snijders, P. J. F., Smit, E. F., & Thunnissen, E. (2015). DNA hypermethylation analysis in sputum for the diagnosis of lung cancer: training validation set approach. British journal of cancer, 112(6), 1105-1113. https://doi.org/10.1038/bjc.2014.636

@article{67fd8a94b5af4d6f93a14231cb902b06,

title = "DNA hypermethylation analysis in sputum for the diagnosis of lung cancer: training validation set approach",

abstract = "Lung cancer has the highest mortality of all cancers. The aim of this study was to examine DNA hypermethylation in sputum and validate its diagnostic accuracy for lung cancer. DNA hypermethylation of RASSF1A, APC, cytoglobin, 3OST2, PRDM14, FAM19A4 and PHACTR3 was analysed in sputum samples from symptomatic lung cancer patients and controls (learning set: 73 cases, 86 controls; validation set: 159 cases, 154 controls) by quantitative methylation-specific PCR. Three statistical models were used: (i) cutoff based on Youden's J index, (ii) cutoff based on fixed specificity per marker of 96% and (iii) risk classification of post-test probabilities. In the learning set, approach (i) showed that RASSF1A was best able to distinguish cases from controls (sensitivity 42.5%, specificity 96.5%). RASSF1A, 3OST2 and PRDM14 combined demonstrated a sensitivity of 82.2% with a specificity of 66.3%. Approach (ii) yielded a combination rule of RASSF1A, 3OST2 and PHACTR3 (sensitivity 67.1%, specificity 89.5%). The risk model (approach iii) distributed the cases over all risk categories. All methods displayed similar and consistent results in the validation set. Our findings underscore the impact of DNA methylation markers in symptomatic lung cancer diagnosis. RASSF1A is validated as diagnostic marker in lung cancer",

author = "Hubers, {A. J.} and Heideman, {D. A. M.} and Burgers, {S. A.} and Herder, {G. J. M.} and Sterk, {P. J.} and Rhodius, {R. J.} and Smit, {H. J.} and F. Krouwels and A. Welling and Witte, {B. I.} and S. Duin and R. Koning and Comans, {E. F. I.} and Steenbergen, {R. D. M.} and Postmus, {P. E.} and Meijer, {G. A.} and Snijders, {P. J. F.} and Smit, {E. F.} and E. Thunnissen",

year = "2015",

doi = "https://doi.org/10.1038/bjc.2014.636",

language = "English",

volume = "112",

pages = "1105--1113",

journal = "British journal of cancer",

issn = "0007-0920",

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Hubers, AJ, Heideman, DAM, Burgers, SA, Herder, GJM, Sterk, PJ, Rhodius, RJ, Smit, HJ, Krouwels, F, Welling, A, Witte, BI, Duin, S, Koning, R, Comans, EFI , Steenbergen, RDM, Postmus, PE, Meijer, GA, Snijders, PJF, Smit, EF & Thunnissen, E 2015, 'DNA hypermethylation analysis in sputum for the diagnosis of lung cancer: training validation set approach', British journal of cancer, vol. 112, no. 6, pp. 1105-1113. https://doi.org/10.1038/bjc.2014.636

TY - JOUR

T1 - DNA hypermethylation analysis in sputum for the diagnosis of lung cancer: training validation set approach

AU - Hubers, A. J.

AU - Heideman, D. A. M.

AU - Burgers, S. A.

AU - Herder, G. J. M.

AU - Sterk, P. J.

AU - Rhodius, R. J.

AU - Smit, H. J.

AU - Krouwels, F.

AU - Welling, A.

AU - Witte, B. I.

AU - Duin, S.

AU - Koning, R.

AU - Comans, E. F. I.

AU - Steenbergen, R. D. M.

AU - Postmus, P. E.

AU - Meijer, G. A.

AU - Snijders, P. J. F.

AU - Smit, E. F.

AU - Thunnissen, E.

PY - 2015

Y1 - 2015

N2 - Lung cancer has the highest mortality of all cancers. The aim of this study was to examine DNA hypermethylation in sputum and validate its diagnostic accuracy for lung cancer. DNA hypermethylation of RASSF1A, APC, cytoglobin, 3OST2, PRDM14, FAM19A4 and PHACTR3 was analysed in sputum samples from symptomatic lung cancer patients and controls (learning set: 73 cases, 86 controls; validation set: 159 cases, 154 controls) by quantitative methylation-specific PCR. Three statistical models were used: (i) cutoff based on Youden's J index, (ii) cutoff based on fixed specificity per marker of 96% and (iii) risk classification of post-test probabilities. In the learning set, approach (i) showed that RASSF1A was best able to distinguish cases from controls (sensitivity 42.5%, specificity 96.5%). RASSF1A, 3OST2 and PRDM14 combined demonstrated a sensitivity of 82.2% with a specificity of 66.3%. Approach (ii) yielded a combination rule of RASSF1A, 3OST2 and PHACTR3 (sensitivity 67.1%, specificity 89.5%). The risk model (approach iii) distributed the cases over all risk categories. All methods displayed similar and consistent results in the validation set. Our findings underscore the impact of DNA methylation markers in symptomatic lung cancer diagnosis. RASSF1A is validated as diagnostic marker in lung cancer

AB - Lung cancer has the highest mortality of all cancers. The aim of this study was to examine DNA hypermethylation in sputum and validate its diagnostic accuracy for lung cancer. DNA hypermethylation of RASSF1A, APC, cytoglobin, 3OST2, PRDM14, FAM19A4 and PHACTR3 was analysed in sputum samples from symptomatic lung cancer patients and controls (learning set: 73 cases, 86 controls; validation set: 159 cases, 154 controls) by quantitative methylation-specific PCR. Three statistical models were used: (i) cutoff based on Youden's J index, (ii) cutoff based on fixed specificity per marker of 96% and (iii) risk classification of post-test probabilities. In the learning set, approach (i) showed that RASSF1A was best able to distinguish cases from controls (sensitivity 42.5%, specificity 96.5%). RASSF1A, 3OST2 and PRDM14 combined demonstrated a sensitivity of 82.2% with a specificity of 66.3%. Approach (ii) yielded a combination rule of RASSF1A, 3OST2 and PHACTR3 (sensitivity 67.1%, specificity 89.5%). The risk model (approach iii) distributed the cases over all risk categories. All methods displayed similar and consistent results in the validation set. Our findings underscore the impact of DNA methylation markers in symptomatic lung cancer diagnosis. RASSF1A is validated as diagnostic marker in lung cancer

U2 - https://doi.org/10.1038/bjc.2014.636

DO - https://doi.org/10.1038/bjc.2014.636

M3 - Article

C2 - 25719833

SN - 0007-0920

VL - 112

SP - 1105

EP - 1113

JO - British journal of cancer

JF - British journal of cancer

IS - 6

ER -