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Prediction of High-Dose Methotrexate Blood Concentration in Osteosarcoma Patients Using Machine Learning

Jin Zhao, Shuqi Dai, Jiali He, Na Liu, Baowanze Zhang, Li Su

2025Drug Design Development and Therapy6 citationsDOIOpen Access PDF

Abstract

Introduction: High-dose methotrexate is a typical chemotherapy that is widely used in the treatment of osteosarcoma. However, the unique dose-response relationship of methotrexate makes its treatment window relatively narrow, and its clinical use is in a dilemma: either the drug concentration in the patient's body cannot reach the effective concentration level, or adverse reactions may occur due to drug overdose. For this circumstance, monitoring and predicting the drug concentration in the patient's body is well founded and necessary. While pharmacokinetic models exist, they often oversimplify patient-specific covariates. This study addresses the unmet need for early-exposure prediction through interpretable machine learning, enabling data-driven decisions before toxicity manifestation. Methods: In this article, 68 osteosarcoma patients' information including demography, administration and assay was gathered. We analyzed medical data and selected 10 important features using a random forest, including hydration status, red blood cell distribution width coefficient of variation, platelet distribution width, creatinine, γ-glutamyl transferase, large platelet ratio, serum potassium, lactate dehydrogenase, weight, and prealbumin. Then, cross-validation and SHAP has been conducted to confirm the robust and interpretation of the model. Results: =0.87, MSE=0.020, RMSE=0.141, MAE=0.065. Discussion: This machine learning framework addresses a critical gap in high-dose methotrexate therapeutic monitoring by achieving early and personalized blood drug concentration prediction, allowing for personalized dosing of patients based on predicted concentrations. The interpretability of SHAP-derived feature importance enhances clinical utility, offering a paradigm shift from reactive toxicity management to proactive precision dosing in osteosarcoma therapy.

Topics & Concepts

OsteosarcomaMethotrexateComputer scienceMedicineMachine learningInternal medicineCancer researchAcute Lymphoblastic Leukemia researchStatistical Methods in Clinical TrialsStatistical Methods in Epidemiology
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