Litcius/Paper detail

Early lung cancer diagnostic biomarker discovery by machine learning methods

Ying Xie, Wei-Yu Meng, Runze Li, Yuwei Wang, Xin Qian, Chan Chang, Zhifang Yu, Xing‐Xing Fan, Hudan Pan, Chun Xie, Qibiao Wu, Peiyu Yan, Liang Liu, Yijun Tang, Xiaojun Yao, Meifang Wang, Elaine Lai‐Han Leung

2020Translational Oncology274 citationsDOIOpen Access PDF

Abstract

Early diagnosis has been proved to improve survival rate of lung cancer patients. The availability of blood-based screening could increase early lung cancer patient uptake. Our present study attempted to discover Chinese patients' plasma metabolites as diagnostic biomarkers for lung cancer. In this work, we use a pioneering interdisciplinary mechanism, which is firstly applied to lung cancer, to detect early lung cancer diagnostic biomarkers by combining metabolomics and machine learning methods. We collected total 110 lung cancer patients and 43 healthy individuals in our study. Levels of 61 plasma metabolites were from targeted metabolomic study using LC-MS/MS. A specific combination of six metabolic biomarkers note-worthily enabling the discrimination between stage I lung cancer patients and healthy individuals (AUC = 0.989, Sensitivity = 98.1%, Specificity = 100.0%). And the top 5 relative importance metabolic biomarkers developed by FCBF algorithm also could be potential screening biomarkers for early detection of lung cancer. Naïve Bayes is recommended as an exploitable tool for early lung tumor prediction. This research will provide strong support for the feasibility of blood-based screening, and bring a more accurate, quick and integrated application tool for early lung cancer diagnostic. The proposed interdisciplinary method could be adapted to other cancer beyond lung cancer.

Topics & Concepts

Lung cancerMedicineMetabolomicsBiomarkerCancerLungBiomarker discoveryDiagnostic biomarkerStage (stratigraphy)OncologyLung cancer screeningInternal medicineTreatment of lung cancerCancer biomarkersBioinformaticsProteomicsBiologyPaleontologyBiochemistryGeneMetabolomics and Mass Spectrometry StudiesCancer-related molecular mechanisms researchLung Cancer Treatments and Mutations