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An Interpretable Machine Learning Model Based on MRI Features for Predicting Pain Severity in Temporomandibular Disorders

人工智能 接收机工作特性 机器学习 梯度升压 Boosting(机器学习) 随机森林 逻辑回归 支持向量机 可解释性 磁共振成像 医学 颞下颌关节 决策树 计算机科学 模式识别(心理学) 单变量 阿达布思 数学 判别式 髁突 感知器 分类器(UML) 医学影像学 多元统计 特征选择 分割 统计分类 可视模拟标度 射线照相术 特征提取
作者
Chuanfang Xu,XianYan Wu,Shibin Li,Qun Zhong,Chengbin Ye,Jiena Pan,Wen-jie Yan,Chuanfang Xu,XianYan Wu,Shibin Li,Qun Zhong,Chengbin Ye,Jiena Pan,Wen-jie Yan
出处
期刊:Journal of Oral Rehabilitation [Wiley]
标识
DOI:10.1111/joor.70108
摘要

ABSTRACT Background Chronic pain around the temporomandibular joint (TMJ) and masticatory muscles is a primary symptom of temporomandibular disorders (TMD). However, the clinical significance of magnetic resonance imaging (MRI) features in predicting TMD‐related pain remains unclear. This study aimed to develop and interpret machine learning (ML) models based on MRI characteristics for predicting pain severity in patients with TMD. Methods The present retrospective study included 584 patients with TMD between January 2022 and December 2024, yielding a total of 755 TMJ MRI data sets. Pain severity was classified using the visual analogue scale (VAS). Demographic variables (age, sex) and MRI features—including lesion side, disc position, disc morphology, disc signal, disc perforation, bilaminar zone tear, joint space, joint effusion, condylar movement, bony changes and morphology/signal of the lateral pterygoid muscle—were collected. Eleven ML models based on demographic and MRI features were developed: logistic regression (LR), support vector machine (SVM), random forest (RF), extreme gradient boosting (XGBoost), light gradient boosting machine (LightGBM), adaptive boosting (AdaBoost), gradient boosting classifier (GBC), bagging classifier (BC), extremely randomised trees (ETC), decision tree classifier (DTC) and multilayer perceptron (MLP). Model performance was evaluated using multiple metrics, including the area under the receiver operating characteristic curve (AUC), accuracy, sensitivity, specificity and F1 score. Precision–recall (PR) curves and calibration curves were plotted to assess discrimination and model calibration. Decision curve analysis (DCA) was conducted to evaluate the clinical net benefit across a range of threshold probabilities. Model interpretability was enhanced using Shapley Additive Explanations (SHAP), which quantified the contribution of each feature to individual predictions. Feature selection was conducted based on mean SHAP values, and separate LightGBM models were constructed using the Top 3, 5, and 9 most important features, as well as the full‐feature set, for performance comparison. Results The data set was randomly divided into a training set ( n = 604) and a test set ( n = 151). Among the 11 ML models, the LightGBM model demonstrated the best predictive performance, with an AUC of 0.899, and was therefore identified as the optimal model. SHAP analysis identified age, disc position and condylar movement as the top three contributing features. Feature selection analysis indicated that selecting the top nine SHAP‐ranked variables led to the highest diagnostic performance, with an AUC of 0.829. Conclusion This study developed an interpretable, high‐performing MRI‐based ML model incorporating SHAP analysis to integrate imaging and clinical features for objective pain assessment, which may help identify high‐risk TMD patients and guide personalised treatment strategies.
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