Re-evaluation of publicly available gene-expression databases using machine-learning yields a maximum prognostic power in breast cancer

Author:

Tschodu Dimitrij,Lippoldt Jürgen,Gottheil Pablo,Wegscheider Anne-Sophie,Käs Josef A.,Niendorf Axel

Abstract

AbstractGene expression signatures refer to patterns of gene activities and are used to classify different types of cancer, determine prognosis, and guide treatment decisions. Advancements in high-throughput technology and machine learning have led to improvements to predict a patient’s prognosis for different cancer phenotypes. However, computational methods for analyzing signatures have not been used to evaluate their prognostic power. Contention remains on the utility of gene expression signatures for prognosis. The prevalent approaches include random signatures, expert knowledge, and machine learning to construct an improved signature. We unify these approaches to evaluate their prognostic power. Re-evaluation of publicly available gene-expression data from 8 databases with 9 machine-learning models revealed previously unreported results. Gene-expression signatures are confirmed to be useful in predicting a patient’s prognosis. Convergent evidence from $$\approx$$  10,000 signatures implicates a maximum prognostic power. By calculating the concordance index, which measures how well patients with different prognoses can be discriminated, we show that a signature can correctly discriminate patients’ prognoses no more than 80% of the time. Additionally, we show that more than 50% of the potentially available information is still missing at this value. We surmise that an accurate prognosis must incorporate molecular, clinical, histological, and other complementary factors.

Funder

European Research Council,European Union

Deutsche Forschungsgemeinschaft

National Science Foundation,United States

Universität Leipzig

Publisher

Springer Science and Business Media LLC

Subject

Multidisciplinary

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