Hybrid Models Identified a 12-Gene Signature for Lung Cancer Prognosis and Chemoresponse Prediction

Abstract: BackgroundLung cancer remains the leading cause of cancer-related deaths worldwide. The recurrence rate ranges from 35–50% among early stage non-small cell lung cancer patients. To date, there is no fully-validated and clinically applied prognostic gene signature for personalized treatment.Methodology/Principal FindingsFrom genome-wide mRNA expression profiles generated on 256 lung adenocarcinoma patients, a 12-gene signature was identified using combinatorial gene selection methods, and a risk score algorithm… Show more

“…Three statistical methods were used in our study: two for selecting significant genes and one for validation of our signature, following the methodology used in [5].…”

“…In order to accomplish this classification, researchers have sought to identity gene signatures that can accurately predict lung cancer patients' risk status (high or low) and which clearly differentiate the high-and low-risk groups [5][6][7][8]. This classification process can be accomplished with the application of gene expression profiling or machine learning algorithms [5][6][7][8][9][10][11][12].…”

“…This classification process can be accomplished with the application of gene expression profiling or machine learning algorithms [5][6][7][8][9][10][11][12].…”

“…In [5], the gene datasets previously published in [7] were assessed with SAM Statistics and unequal variance t-tests. The genes selected by both tests were ranked by the Relief algorithm, which ranked the genes according to their prognostic accuracy and then executed a forward selection process where the top genes were added one at a time to the final gene signature until the next gene to be added did not increase classification accuracy.…”

“…We also added the constraint that our signature must have better classification accuracy than the signature reported in [5].…”

Identification of a 12-Gene Signature for Lung Cancer Prognosis through Machine Learning

“…Three statistical methods were used in our study: two for selecting significant genes and one for validation of our signature, following the methodology used in [5].…”

“…In order to accomplish this classification, researchers have sought to identity gene signatures that can accurately predict lung cancer patients' risk status (high or low) and which clearly differentiate the high-and low-risk groups [5][6][7][8]. This classification process can be accomplished with the application of gene expression profiling or machine learning algorithms [5][6][7][8][9][10][11][12].…”

“…This classification process can be accomplished with the application of gene expression profiling or machine learning algorithms [5][6][7][8][9][10][11][12].…”

“…In [5], the gene datasets previously published in [7] were assessed with SAM Statistics and unequal variance t-tests. The genes selected by both tests were ranked by the Relief algorithm, which ranked the genes according to their prognostic accuracy and then executed a forward selection process where the top genes were added one at a time to the final gene signature until the next gene to be added did not increase classification accuracy.…”

“…We also added the constraint that our signature must have better classification accuracy than the signature reported in [5].…”

Identification of a 12-Gene Signature for Lung Cancer Prognosis through Machine Learning

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