Development and validation of a radiomics-dosiomics model for predicting radiotherapy response in locally advanced, unresectable non-small cell lung cancer: a multi-center study.

Authors

Xun Wang, Xiufen Sun, Yueqin Chen, Guqing Zhang, Shucheng Ye, Aiping Zhang, Huipeng Yang, Zhanguo Sun, Shuang Ge

Published in

Scientific reports. Jun 15, 2026. Epub Jun 15, 2026.

Abstract

Early assessment of treatment response is essential for optimizing cancer management, as it allows timely interventions during the course of therapy, potentially improving cancer control and clinical outcomes. In this study, we aimed to develop and validate a machine learning model integrating radiomics, dosiomics, and clinical characteristics to predict response to radiotherapy in patients with locally advanced, unresectable non-small cell lung cancer (NSCLC). A total of 222 patients across multiple centers who received radiotherapy for NSCLC were enrolled and divided into training (n = 110), internal validation (n = 28), and external validation (n = 84) cohorts. Objective response rate (ORR) and progression-free survival (PFS) were predicted using models based on radiomics, dosiomics, and clinical characteristics. Model performance was evaluated using receiver operating characteristic (ROC) curves, DeLong test, decision curve analysis (DCA), Kaplan-Meier survival analysis, and Integrated Brier Score (IBS). The clinical models, C_ORR and C_PFS (both based on planning target volume [PTV] and lymphocyte count) were compared with combined radiomics-dosiomics-clinical models (RDC_ORR and RDC_PFS). For ORR prediction, RDC_ORR achieved AUCs of 0.901, 0.894, and 0.869 in the training, internal validation, and external validation cohorts, outperforming C_ORR (AUCs of 0.723, 0.606, and 0.723), with p < 0.05. DCA indicated that RDC_ORR outperformed C_ORR, providing a higher overall net benefit. For PFS prediction, RDC_PFS yielded higher concordance indices (0.805, 0.730, and 0.743 in the training, internal validation, and external validation cohorts) than C_PFS (0.679, 0.699, and 0.640, respectively). RDC_PFS showed the lowest IBS across all cohorts (0.092, 0.107, and 0.093, respectively) compared with C_PFS and the reference model, indicating better predictive accuracy. The combined model integrating radiomics, dosiomics, and clinical characteristics enhances the prediction of radiotherapy response in locally advanced, unresectable NSCLC, facilitating improved patient monitoring and more effective adjuvant clinical trial design.

PMID:
42297849
Bibliographic data and abstract were imported from PubMed on 16 Jun 2026.

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