A machine learning ensemble approach for 5- and 10-year breast cancer invasive disease event classification

Designing targeted treatments for breast cancer patients after primary tumor removal is necessary to prevent the occurrence of invasive disease events (IDEs), such as recurrence, metastasis, contralateral and second tumors, over time. However, due to the molecular heterogeneity of this disease, pred...

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Published in:PloS one 2022-09, Vol.17 (9)
Main Authors: Raffaella Massafra, Maria Colomba Comes, Samantha Bove, Vittorio Didonna, Sergio Diotaiuti, Francesco Giotta, Agnese Latorre, Daniele La Forgia, Annalisa Nardone, Domenico Pomarico, Cosmo Maurizio Ressa, Alessandro Rizzo, Pasquale Tamborra, Alfredo Zito, Vito Lorusso, Annarita Fanizzi
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container_issue 9
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container_title PloS one
container_volume 17
creator Raffaella Massafra
Maria Colomba Comes
Samantha Bove
Vittorio Didonna
Sergio Diotaiuti
Francesco Giotta
Agnese Latorre
Daniele La Forgia
Annalisa Nardone
Domenico Pomarico
Cosmo Maurizio Ressa
Alessandro Rizzo
Pasquale Tamborra
Alfredo Zito
Vito Lorusso
Annarita Fanizzi
description Designing targeted treatments for breast cancer patients after primary tumor removal is necessary to prevent the occurrence of invasive disease events (IDEs), such as recurrence, metastasis, contralateral and second tumors, over time. However, due to the molecular heterogeneity of this disease, predicting the outcome and efficacy of the adjuvant therapy is challenging. A novel ensemble machine learning classification approach was developed to address the task of producing prognostic predictions of the occurrence of breast cancer IDEs at both 5- and 10-years. The method is based on the concept of voting among multiple models to give a final prediction for each individual patient. Promising results were achieved on a cohort of 529 patients, whose data, related to primary breast cancer, were provided by Istituto Tumori “Giovanni Paolo II” in Bari, Italy. Our proposal greatly improves the performances returned by the baseline original model, i.e., without voting, finally reaching a median AUC value of 77.1% and 76.3% for the IDE prediction at 5-and 10-years, respectively. Finally, the proposed approach allows to promote more intelligible decisions and then a greater acceptability in clinical practice since it returns an explanation of the IDE prediction for each individual patient through the voting procedure.
doi_str_mv 10.1371/journal.pone.0274691
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title A machine learning ensemble approach for 5- and 10-year breast cancer invasive disease event classification
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