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CT-based radiomics model with machine learning for predicting primary treatment failure in diffuse large B-cell Lymphoma

Raoul Santiago, Johanna Ortiz Jiménez, Reza Forghani, Nikesh Muthukrishnan, Olivier Del Corpo, Shairabi Karthigesu, Muhammad Yahya Haider, Caroline Reinhold, Sarit Assouline

2021Translational Oncology20 citationsDOIOpen Access PDF

Abstract

Biomarkers which can identify Diffuse Large B-Cell Lymphoma (DLBCL) likely to be refractory to first-line therapy are essential for selecting this population prior to therapy initiation to offer alternate therapeutic options that can improve prognosis. We tested the ability of a CT-based radiomics approach with machine learning to predict Primary Treatment Failure (PTF)-DLBCL from initial imaging evaluation. Twenty-six refractory patients were matched to 26 non-refractory patients, yielding 180 lymph nodes for analysis. Manual 3D delineation of the total node volume was performed by two independent readers to test the reproducibility. Then, 1218 hand-crafted radiomic features were extracted. The Random Forests machine learning approach was used as a classifier for constructing the prediction models. Seventy percent of the nodes were randomly assigned to a training set and the remaining 30% were assigned to an independent test set. The final model was tested on the dataset from the 2 readers, showing a mean accuracy, sensitivity and specificity of 73%, 62% and 82%, respectively, for distinguishing between refractory and non-refractory patients. The area under the receiver operating characteristic curve (AUC) was 0.83 and 0.79 for the two readers. We conclude that machine learning CT-based radiomics analysis is able to identify a priori PTF-DLBCL with a good accuracy.

Topics & Concepts

RadiomicsMachine learningArtificial intelligenceMedicineReceiver operating characteristicTest setRandom forestPopulationRefractory (planetary science)Diffuse large B-cell lymphomaComputer scienceLymphomaPathologyEnvironmental healthAstrobiologyPhysicsLymphoma Diagnosis and TreatmentRadiomics and Machine Learning in Medical ImagingSarcoma Diagnosis and Treatment