[根据核磁共振成像和临床特征建立特发性炎症性肌病活动性预测模型]。

Z J Wang, Z R Tian, Y Q Wang, B Tian, R Gong, S S Chi
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引用次数: 0

摘要

目的分析特发性炎症性肌病(IIM)活动的磁共振成像和临床特征,并构建预测模型。方法回顾性分析宁夏医科大学总医院2019年12月至2023年12月收治的326例特发性炎症性肌病患者,其中男112例,女214例,年龄(53.7±15.3)岁。根据组织病理学和肌电图将其分为活动期组(n=86)和非活动期组(n=240)。两组按 7∶3 的比例随机分为训练集和验证集。采用单因素分析、最小绝对收缩和选择算子(Lasso)、随机森林算法和多元逻辑回归模型筛选 IIM 活动的危险因素并构建预测模型。采用接收者操作特征曲线(ROC)和校准曲线评估预测模型的性能。结果两组的性别、年龄、T1 值、T2 值、肌酸激酶-MB(CKMB)、肌酸激酶(CK)和乳酸脱氢酶(LDH)分别存在明显差异(所有 P2 值(λ=-2.564)、CKMB(λ=-0.256)、CK(λ=-0.492)、LDH(λ=-2.786))。多变量逻辑回归模型显示,年龄(OR=1.603,95%CI:1.030-1.096)、T2(OR=352.269,95%CI:13.303-9 328.053)、CKMB(OR=2.470,95%CI:1.497-4.075)、CK(OR=4.973,95%CI:2.583-9.575)、LDH(OR=1 155.247,95%CI:152.387-8 757.954)是活动性 IIM 患者的危险因素。绘制了包含上述风险因素的预测模型提名图。训练集 MRI 结合临床指标预测模型的 ROC 曲线下面积(AUC)高于临床指标模型[0.914(95%CI:0.873-0.955) vs 0.901(95%CI:0.858-0.945),PCI:0.873-0.955) vs 0.934(95%CI:0.858-0.945),PC结论:核磁共振成像的提名图模型结合临床指标可有效预测IIM的活动性。
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[Establishing a predictive model for the activity of idiopathic inflammatory myopathy based on MRI and clinical features].

Objective: To analyze MRI and clinical characteristics of idiopathic inflammatory myopathy (IIM) activity and construct a prediction model. Methods: A retrospective analysis was conducted on 326 patients with IIM from December 2019 to December 2023 at General Hospital of Ningxia Medical University, including 112 males and 214 females, aged(53.7±15.3) years. According to histopathology and electromyography, they were divided into active phase group(n=86) and inactive phase group (n=240). The two groups were randomly divided into the training set and the verification set according to the ratio of 7∶3. The single factor analysis, least absolute shrinkage and selection operator (Lasso), random forest algorithm, and multivariate logistic regression model were used to screen the risk factors of IIM activity and construct a prediction model. Receiver operating characteristic (ROC) curve and calibration curve were used to evaluate the performance of prediction model. Results: There were significant differences in gender, age, T1 value, T2 value, creatine kinase-MB(CKMB), creatine kinase (CK) and lactate dehydrogenase (LDH) between the two groups(all P<0.05). Lasso and random forest algorithm screened 5 variables for analysis, age (λ=-0.009), T2 value (λ=-2.564), CKMB (λ=-0.256), CK (λ=-0.492), LDH (λ=-2.786) respectively. Multivariate logistic regression model showed that age (OR=1.603, 95%CI: 1.030-1.096), T2(OR=352.269, 95%CI: 13.303-9 328.053), CKMB (OR=2.470, 95%CI: 1.497-4.075), CK(OR=4.973, 95%CI: 2.583-9.575), LDH(OR=1 155.247, 95%CI: 152.387-8 757.954) were risk factors for active IIM patients. A prediction model nomograms were drawn with the above risk factors included. The area under the ROC curve (AUC) of the prediction model for the training set MRI combined with clinical indicators was higher than that of the clinical indicator model [0.914 (95%CI: 0.873-0.955) vs 0.901 (95%CI: 0.858-0.945), P<0.001], with sensitivity of 88.3% and 90.7%, and specificity of 81.7% and 75.0%, respectively. The AUC of the prediction model for the validation set MRI combined with clinical indicators was higher than that of the clinical model [0.982 (95%CI: 0.873-0.955) vs 0.934 (95%CI: 0.858-0.945), P<0.001], with sensitivity of 97.2% and 88.5%, and specificity of 100.0% and 92.3%, respectively. The calibration curves plotted in the training set and test set, respectively, fit well with the ideal curve. Conclusion: The nomogram model of MRI combined with clinical indicators can effectively predict the activity of IIM.

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Zhonghua yi xue za zhi
Zhonghua yi xue za zhi Medicine-Medicine (all)
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0.80
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400
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