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AB164. An epigenetic biomarker combination of EOMES, pcdh17, and pou4f2 detects bladder cancer accurately from methylation analyses of urine sediment DNA in Han Chinese

OBJECTIVE: To recognize a novel and optimized combination of epigenetic biomarkers capable of returning higher sensitivity and specificity synergistically in pathologically varied sample groups for urine sediment examination of bladder cancer (BlCa). METHODS: Methylation levels of seven candidate bi...

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Autores principales: Wu, Song, Wang, Yongqiang, Yu, Yuan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: AME Publishing Company 2015
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4708840/
http://dx.doi.org/10.3978/j.issn.2223-4683.2015.s164
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author Wu, Song
Wang, Yongqiang
Yu, Yuan
author_facet Wu, Song
Wang, Yongqiang
Yu, Yuan
author_sort Wu, Song
collection PubMed
description OBJECTIVE: To recognize a novel and optimized combination of epigenetic biomarkers capable of returning higher sensitivity and specificity synergistically in pathologically varied sample groups for urine sediment examination of bladder cancer (BlCa). METHODS: Methylation levels of seven candidate biomarkers (EOMES, GDF15, NID2, PCDH17, POU4F2, TCF21, and ZNF154) in 58 urothelial cell carcinoma (UCC) patients, 20 infected urinary calculi (IUC) patients, 20 kidney cancer (KC) patients, and 30 healthy volunteers (HV) were quantified by qMSP using the sediment DNA of urine samples. Standard curves and receiver operating characteristic (ROC) curves were generated for each biomarker. The combining predictors of all the possible biomarker combinations were calculated through logistic regression model. Subsequently, the ROC curves of the three combinations that have yielded the best performing combining predictors were constructed. RESULTS: From the samples provided, the top three biomarker combinations (C) returned high sensitivity and specificity of 91.38% and 94.29% from PCDH17 + POU4F2 (C1), 91.38% and 90.00% from PCDH17 + POU4F2 + NID2 (C2), and 93.10% and 92.86% from PCDH17 + POU4F2 + EOMES (C3) consequently. These combinations provide greater sensitivities and specificities than any examined single biomarkers, except for C2, which has a lower specificity compare to POU4F2 (92.86%). CONCLUSIONS: Compound biomarker panels were shown to be capable of detecting BlCa effectively by utilizing urine sediment DNA. Due to the performance of higher sensitivity and specificity when compared to single biomarker examinations in BlCa patients and the diverse control groups, these panels are particularly suitable for mass-scale routine BlCa screening.
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spelling pubmed-47088402016-01-26 AB164. An epigenetic biomarker combination of EOMES, pcdh17, and pou4f2 detects bladder cancer accurately from methylation analyses of urine sediment DNA in Han Chinese Wu, Song Wang, Yongqiang Yu, Yuan Transl Androl Urol Moderated Poster Presentation OBJECTIVE: To recognize a novel and optimized combination of epigenetic biomarkers capable of returning higher sensitivity and specificity synergistically in pathologically varied sample groups for urine sediment examination of bladder cancer (BlCa). METHODS: Methylation levels of seven candidate biomarkers (EOMES, GDF15, NID2, PCDH17, POU4F2, TCF21, and ZNF154) in 58 urothelial cell carcinoma (UCC) patients, 20 infected urinary calculi (IUC) patients, 20 kidney cancer (KC) patients, and 30 healthy volunteers (HV) were quantified by qMSP using the sediment DNA of urine samples. Standard curves and receiver operating characteristic (ROC) curves were generated for each biomarker. The combining predictors of all the possible biomarker combinations were calculated through logistic regression model. Subsequently, the ROC curves of the three combinations that have yielded the best performing combining predictors were constructed. RESULTS: From the samples provided, the top three biomarker combinations (C) returned high sensitivity and specificity of 91.38% and 94.29% from PCDH17 + POU4F2 (C1), 91.38% and 90.00% from PCDH17 + POU4F2 + NID2 (C2), and 93.10% and 92.86% from PCDH17 + POU4F2 + EOMES (C3) consequently. These combinations provide greater sensitivities and specificities than any examined single biomarkers, except for C2, which has a lower specificity compare to POU4F2 (92.86%). CONCLUSIONS: Compound biomarker panels were shown to be capable of detecting BlCa effectively by utilizing urine sediment DNA. Due to the performance of higher sensitivity and specificity when compared to single biomarker examinations in BlCa patients and the diverse control groups, these panels are particularly suitable for mass-scale routine BlCa screening. AME Publishing Company 2015-08 /pmc/articles/PMC4708840/ http://dx.doi.org/10.3978/j.issn.2223-4683.2015.s164 Text en 2015 Translational Andrology and Urology. All rights reserved.
spellingShingle Moderated Poster Presentation
Wu, Song
Wang, Yongqiang
Yu, Yuan
AB164. An epigenetic biomarker combination of EOMES, pcdh17, and pou4f2 detects bladder cancer accurately from methylation analyses of urine sediment DNA in Han Chinese
title AB164. An epigenetic biomarker combination of EOMES, pcdh17, and pou4f2 detects bladder cancer accurately from methylation analyses of urine sediment DNA in Han Chinese
title_full AB164. An epigenetic biomarker combination of EOMES, pcdh17, and pou4f2 detects bladder cancer accurately from methylation analyses of urine sediment DNA in Han Chinese
title_fullStr AB164. An epigenetic biomarker combination of EOMES, pcdh17, and pou4f2 detects bladder cancer accurately from methylation analyses of urine sediment DNA in Han Chinese
title_full_unstemmed AB164. An epigenetic biomarker combination of EOMES, pcdh17, and pou4f2 detects bladder cancer accurately from methylation analyses of urine sediment DNA in Han Chinese
title_short AB164. An epigenetic biomarker combination of EOMES, pcdh17, and pou4f2 detects bladder cancer accurately from methylation analyses of urine sediment DNA in Han Chinese
title_sort ab164. an epigenetic biomarker combination of eomes, pcdh17, and pou4f2 detects bladder cancer accurately from methylation analyses of urine sediment dna in han chinese
topic Moderated Poster Presentation
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4708840/
http://dx.doi.org/10.3978/j.issn.2223-4683.2015.s164
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