Application of Nonlinear Models Combined with Conventional Laboratory Indicators for the Diagnosis and Differential Diagnosis of Ovarian Cancer

Existing biomarkers for ovarian cancer lack sensitivity and specificity. We compared the diagnostic efficacy of nonlinear machine learning and linear statistical models for diagnosing ovarian cancer using a combination of conventional laboratory indicators. We divided 901 retrospective samples into...

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Autores principales: Zhang, Tongshuo, Pang, Aibo, Lyu, Jungang, Ren, Hefei, Song, Jiangnan, Zhu, Feng, Liu, Jinlong, Cui, Yuntao, Ling, Cunbao, Tian, Yaping
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9917843/
https://www.ncbi.nlm.nih.gov/pubmed/36769493
http://dx.doi.org/10.3390/jcm12030844
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author Zhang, Tongshuo
Pang, Aibo
Lyu, Jungang
Ren, Hefei
Song, Jiangnan
Zhu, Feng
Liu, Jinlong
Cui, Yuntao
Ling, Cunbao
Tian, Yaping
author_facet Zhang, Tongshuo
Pang, Aibo
Lyu, Jungang
Ren, Hefei
Song, Jiangnan
Zhu, Feng
Liu, Jinlong
Cui, Yuntao
Ling, Cunbao
Tian, Yaping
author_sort Zhang, Tongshuo
collection PubMed
description Existing biomarkers for ovarian cancer lack sensitivity and specificity. We compared the diagnostic efficacy of nonlinear machine learning and linear statistical models for diagnosing ovarian cancer using a combination of conventional laboratory indicators. We divided 901 retrospective samples into an ovarian cancer group and a control group, comprising non-ovarian malignant gynecological tumor (NOMGT), benign gynecological disease (BGD), and healthy control subgroups. Cases were randomly assigned to training and internal validation sets. Two linear (logistic regression (LR) and Fisher’s linear discriminant (FLD)) and three nonlinear models (support vector machine (SVM), random forest (RF), and artificial neural network (ANN)) were constructed using 22 conventional laboratory indicators and three demographic characteristics. Model performance was compared. In an independent prospectively recruited validation set, the order of diagnostic efficiency was RF, SVM, ANN, FLD, LR, and carbohydrate antigen 125 (CA125)-only (AUC, accuracy: 0.989, 95.6%; 0.985, 94.4%; 0.974, 93.4%; 0.915, 82.1%; 0.859, 80.1%; and 0.732, 73.0%, respectively). RF maintained satisfactory classification performance for identifying different ovarian cancer stages and for discriminating it from NOMGT-, BGD-, or CA125-positive control. Nonlinear models outperformed linear models, indicating that nonlinear machine learning models can efficiently use conventional laboratory indicators for ovarian cancer diagnosis.
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spelling pubmed-99178432023-02-11 Application of Nonlinear Models Combined with Conventional Laboratory Indicators for the Diagnosis and Differential Diagnosis of Ovarian Cancer Zhang, Tongshuo Pang, Aibo Lyu, Jungang Ren, Hefei Song, Jiangnan Zhu, Feng Liu, Jinlong Cui, Yuntao Ling, Cunbao Tian, Yaping J Clin Med Article Existing biomarkers for ovarian cancer lack sensitivity and specificity. We compared the diagnostic efficacy of nonlinear machine learning and linear statistical models for diagnosing ovarian cancer using a combination of conventional laboratory indicators. We divided 901 retrospective samples into an ovarian cancer group and a control group, comprising non-ovarian malignant gynecological tumor (NOMGT), benign gynecological disease (BGD), and healthy control subgroups. Cases were randomly assigned to training and internal validation sets. Two linear (logistic regression (LR) and Fisher’s linear discriminant (FLD)) and three nonlinear models (support vector machine (SVM), random forest (RF), and artificial neural network (ANN)) were constructed using 22 conventional laboratory indicators and three demographic characteristics. Model performance was compared. In an independent prospectively recruited validation set, the order of diagnostic efficiency was RF, SVM, ANN, FLD, LR, and carbohydrate antigen 125 (CA125)-only (AUC, accuracy: 0.989, 95.6%; 0.985, 94.4%; 0.974, 93.4%; 0.915, 82.1%; 0.859, 80.1%; and 0.732, 73.0%, respectively). RF maintained satisfactory classification performance for identifying different ovarian cancer stages and for discriminating it from NOMGT-, BGD-, or CA125-positive control. Nonlinear models outperformed linear models, indicating that nonlinear machine learning models can efficiently use conventional laboratory indicators for ovarian cancer diagnosis. MDPI 2023-01-20 /pmc/articles/PMC9917843/ /pubmed/36769493 http://dx.doi.org/10.3390/jcm12030844 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Zhang, Tongshuo
Pang, Aibo
Lyu, Jungang
Ren, Hefei
Song, Jiangnan
Zhu, Feng
Liu, Jinlong
Cui, Yuntao
Ling, Cunbao
Tian, Yaping
Application of Nonlinear Models Combined with Conventional Laboratory Indicators for the Diagnosis and Differential Diagnosis of Ovarian Cancer
title Application of Nonlinear Models Combined with Conventional Laboratory Indicators for the Diagnosis and Differential Diagnosis of Ovarian Cancer
title_full Application of Nonlinear Models Combined with Conventional Laboratory Indicators for the Diagnosis and Differential Diagnosis of Ovarian Cancer
title_fullStr Application of Nonlinear Models Combined with Conventional Laboratory Indicators for the Diagnosis and Differential Diagnosis of Ovarian Cancer
title_full_unstemmed Application of Nonlinear Models Combined with Conventional Laboratory Indicators for the Diagnosis and Differential Diagnosis of Ovarian Cancer
title_short Application of Nonlinear Models Combined with Conventional Laboratory Indicators for the Diagnosis and Differential Diagnosis of Ovarian Cancer
title_sort application of nonlinear models combined with conventional laboratory indicators for the diagnosis and differential diagnosis of ovarian cancer
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9917843/
https://www.ncbi.nlm.nih.gov/pubmed/36769493
http://dx.doi.org/10.3390/jcm12030844
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