Frontiers in Endocrinology (Aug 2024)

A predictive model for L-T4 dose in postoperative DTC after RAI therapy and its clinical validation in two institutions

  • Jian-Jing Liu,
  • Jian-Jing Liu,
  • Jian-Jing Liu,
  • Zi-Yang Wang,
  • Yuan-Fang Yue,
  • Guo-Tao Yin,
  • Li-Na Tong,
  • Jie Fu,
  • Jie Fu,
  • Jie Fu,
  • Xiao-Ying Ma,
  • Xiao-Ying Ma,
  • Yan Li,
  • Xue-Yao Liu,
  • Li-Bo Zhang,
  • Li-Bo Zhang,
  • Qian Su,
  • Qian Su,
  • Zhao Yang,
  • Zhao Yang,
  • Xiao-Feng Li,
  • Xiao-Feng Li,
  • Wen-Gui Xu,
  • Wen-Gui Xu,
  • Wen-Gui Xu,
  • Dong Dai,
  • Dong Dai,
  • Dong Dai

DOI
https://doi.org/10.3389/fendo.2024.1425101
Journal volume & issue
Vol. 15

Abstract

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PurposeTo develop a predictive model using machine learning for levothyroxine (L-T4) dose selection in patients with differentiated thyroid cancer (DTC) after resection and radioactive iodine (RAI) therapy and to prospectively validate the accuracy of the model in two institutions.MethodsA total of 266 DTC patients who received RAI therapy after thyroidectomy and achieved target thyroid stimulating hormone (TSH) level were included in this retrospective study. Sixteen clinical and biochemical characteristics that could potentially influence the L-T4 dose were collected; Significant features correlated with L-T4 dose were selected using machine learning random forest method, and a total of eight regression models were established to assess their performance in prediction of L-T4 dose after RAI therapy; The optimal model was validated through a two-center prospective study (n=263).ResultsSix significant clinical and biochemical features were selected, including body surface area (BSA), weight, hemoglobin (HB), height, body mass index (BMI), and age. Cross-validation showed that the support vector regression (SVR) model was with the highest accuracy (53.4%) for prediction of L-T4 dose among the established eight models. In the two-center prospective validation study, a total of 263 patients were included. The TSH targeting rate based on constructed SVR model were dramatically higher than that based on empirical administration (Rate 1 (first rate): 52.09% (137/263) vs 10.53% (28/266); Rate 2 (cumulative rate): 85.55% (225/263) vs 53.38% (142/266)). Furthermore, the model significantly shortens the time (days) to achieve target TSH level (62.61 ± 58.78 vs 115.50 ± 71.40).ConclusionsThe constructed SVR model can effectively predict the L-T4 dose for postoperative DTC after RAI therapy, thus shortening the time to achieve TSH target level and improving the quality of life for DTC patients.

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