Privacy-preserving distributed learning of radiomics to predict overall survival and HPV status in head and neck cancer

Author:

Bogowicz MartaORCID,Jochems Arthur,Deist Timo M.,Tanadini-Lang Stephanie,Huang Shao HuiORCID,Chan Biu,Waldron John N.,Bratman ScottORCID,O’Sullivan Brian,Riesterer Oliver,Studer Gabriela,Unkelbach Jan,Barakat Samir,Brakenhoff Ruud H.,Nauta Irene,Gazzani Silvia E.,Calareso Giuseppina,Scheckenbach Kathrin,Hoebers Frank,Wesseling Frederik W. R.,Keek Simon,Sanduleanu Sebastian,Leijenaar Ralph T. H.,Vergeer Marije R.,Leemans C. René,Terhaard Chris H. J.,van den Brekel Michiel W. M.,Hamming-Vrieze Olga,van der Heijden Martijn A.,Elhalawani Hesham M.ORCID,Fuller Clifton D.ORCID,Guckenberger Matthias,Lambin PhilippeORCID

Abstract

AbstractA major challenge in radiomics is assembling data from multiple centers. Sharing data between hospitals is restricted by legal and ethical regulations. Distributed learning is a technique, enabling training models on multicenter data without data leaving the hospitals (“privacy-preserving” distributed learning). This study tested feasibility of distributed learning of radiomics data for prediction of two year overall survival and HPV status in head and neck cancer (HNC) patients. Pretreatment CT images were collected from 1174 HNC patients in 6 different cohorts. 981 radiomic features were extracted using Z-Rad software implementation. Hierarchical clustering was performed to preselect features. Classification was done using logistic regression. In the validation dataset, the receiver operating characteristics (ROC) were compared between the models trained in the centralized and distributed manner. No difference in ROC was observed with respect to feature selection. The logistic regression coefficients were identical between the methods (absolute difference <10−7). In comparison of the full workflow (feature selection and classification), no significant difference in ROC was found between centralized and distributed models for both studied endpoints (DeLong p > 0.05). In conclusion, both feature selection and classification are feasible in a distributed manner using radiomics data, which opens new possibility for training more reliable radiomics models.

Publisher

Springer Science and Business Media LLC

Subject

Multidisciplinary

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