Development and validation of a machine learning model of radiation-induced hypothyroidism with clinical and dose–volume features

Mu Hung Tsai, Joseph T.C. Chang, Hsi Huei Lu, Yuan Hua Wu, Tzu Hui Pao, Yung Jen Cheng, Wen Yen Zheng, Chen Yu Chou, Jing Han Lin, Tsung Yu, Jung Hsien Chiang

研究成果: Article同行評審


Background and purpose: Radiation-induced hypothyroidism (RIHT) is a common but underestimated late effect in head and neck cancers. However, no consensus exists regarding risk prediction or dose constraints in RIHT. We aimed to develop a machine learning model for the accurate risk prediction of RIHT based on clinical and dose–volume features and to evaluate its performance internally and externally. Materials and methods: We retrospectively searched two institutions for patients aged >20 years treated with definitive radiotherapy for nasopharyngeal or oropharyngeal cancer, and extracted their clinical information and dose–volume features. One was designated the developmental cohort, the other as the external validation cohort. We compared the performances of machine learning models with those of published normal tissue complication probability (NTCP) models. Results: The developmental and external validation cohorts consisted of 378 and 49 patients, respectively. The estimated cumulative incidence rates of grade ≥1 hypothyroidism were 53.5% and 61.3% in the developmental and external validation cohorts, respectively. Machine learning models outperformed traditional NTCP models by having lower Brier scores at every time point and a lower integrated Brier score, while demonstrating a comparable calibration index and mean area under the curve. Even simplified machine learning models using only thyroid features performed better than did traditional NTCP algorithms. The machine learning models showed consistent performance between folds. The performance in a previously unseen external validation cohort was comparable to that of the cross-validation. Conclusions: Our model outperformed traditional NTCP models, with additional capabilities of predicting the RIHT risk at individual time points. A simplified model using only thyroid dose–volume features still outperforms traditional NTCP models and can be incorporated into future treatment planning systems for biological optimization.

期刊Radiotherapy and Oncology
出版狀態Published - 2023 12月

All Science Journal Classification (ASJC) codes

  • 血液學
  • 腫瘤科
  • 放射學、核子醫學和影像學


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