Boosting the concordance index for survival data--a unified framework to derive and evaluate biomarker combinations
Mayr A, Schmid M (2014)
Publication Type: Journal article
Publication year: 2014
Journal
Book Volume: 9
Pages Range: e84483
Journal Issue: 1
DOI: 10.1371/journal.pone.0084483
Abstract
The development of molecular signatures for the prediction of time-to-event outcomes is a methodologically challenging task in bioinformatics and biostatistics. Although there are numerous approaches for the derivation of marker combinations and their evaluation, the underlying methodology often suffers from the problem that different optimization criteria are mixed during the feature selection, estimation and evaluation steps. This might result in marker combinations that are suboptimal regarding the evaluation criterion of interest. To address this issue, we propose a unified framework to derive and evaluate biomarker combinations. Our approach is based on the concordance index for time-to-event data, which is a non-parametric measure to quantify the discriminatory power of a prediction rule. Specifically, we propose a gradient boosting algorithm that results in linear biomarker combinations that are optimal with respect to a smoothed version of the concordance index. We investigate the performance of our algorithm in a large-scale simulation study and in two molecular data sets for the prediction of survival in breast cancer patients. Our numerical results show that the new approach is not only methodologically sound but can also lead to a higher discriminatory power than traditional approaches for the derivation of gene signatures.
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Germany (DE)How to cite
APA:
Mayr, A., & Schmid, M. (2014). Boosting the concordance index for survival data--a unified framework to derive and evaluate biomarker combinations. PLoS ONE, 9(1), e84483. https://doi.org/10.1371/journal.pone.0084483
MLA:
Mayr, Andreas, and Matthias Schmid. "Boosting the concordance index for survival data--a unified framework to derive and evaluate biomarker combinations." PLoS ONE 9.1 (2014): e84483.
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