MR T1WI based radiomics and machine learning model for predicting the histopathological grades of soft tissue sarcomas

Q4 Medicine

Zhonghua fang she xue za zhi Chinese journal of radiology Pub Date : 2020-04-10 DOI:10.3760/CMA.J.CN112149-20190510-00411

He-xiang Wang, Jihua Liu, D. Hao, S. Duan, Wenjian Xu

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Abstract

Objective To explore the value of T1WI based optimal radiomics and machine learning model in predicting histological grades of soft tissue sarcoma. Methods The preoperative MR T1WI data of 113 patients with soft tissue sarcoma in Affiliated Hospital of Qingdao University from May 2009 to November 2018 was analyzed retrospectively. The patients were divided into training set (n=80) and validation set (n=33) using randomly stratified sampling mothed. According to the French Federation Nationale des Centres de Lutte Contre le Cancer (FNCLCC) system, the soft tissue sarcomas were divided into 3 pathological levels (grade Ⅰ-Ⅲ). Grade Ⅰ was defined as low grade, grade Ⅱ and Ⅲ were defined as high grade. In the training set, there were 18 cases with low-grade lesions, 62 cases with high-grade lesions. In the validation set, there were 7 cases with low-grade lesions and 26 cases with high-grade lesions. After a normalizationapproach applied on the image, the radiomics features were extracted in the regions of interest using A.K software. Based on different feature selection methods [with or without recursive feature elimination (RFE)], machine learning algorithm [random forest (RF) or support vector machine (SVM)] and sampling technology [without subsampling, with the synthetic minority oversampling technique (SMOTE) or with random oversampling examples], a total of 12 models were built and each machine-learning combination model was trained using leave-one-out cross validation. The receiver operating characteristic (ROC) curves were used to evaluate the efficacy of the model in predicting the pathological grade of soft tissue sarcoma. Results Among the 12 different machine learning models, the optimal classification model for the prediction of soft tissue sarcoma pathological grade was a combination of RF, RFE and SMOTE, with an area under the curve of 0.909 (95% confidence interval, 0.808-1.000) in the validation set, and the accuracy, sensitivity, and specificity were 84.85%, 86.21%, and 75.00%, respectively. Conclusion The radiomics based machine learning model can be used as an attractive application approach for predicting histological grades of soft tissue sarcoma. Key words: Magnetic resonance imaging; Soft tissue neoplasms; Sarcoma; Radiomics; Artificial intelligence

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基于MR T1WI的放射组学和机器学习模型预测软组织肉瘤的组织病理学分级

目的探讨基于T1WI的最佳放射组学和机器学习模型在软组织肉瘤组织学分级预测中的价值。方法回顾性分析2009年5月至2018年11月青岛大学附属医院113例软组织肉瘤患者的术前MR T1WI资料。采用随机分层抽样法将患者分为训练组(80例)和验证组(33例)。根据法国联邦国家癌症控制中心(FNCLCC)系统，将软组织肉瘤分为3个病理级别(Ⅰ-Ⅲ级)。将等级Ⅰ定义为低档，将等级Ⅱ和Ⅲ定义为高档。在训练集中，低级别病变18例，高级别病变62例。在验证集中，低级别病变7例，高级别病变26例。在对图像进行归一化处理后，使用A.K软件在感兴趣的区域提取放射组学特征。基于不同的特征选择方法[使用递归特征消除(RFE)或不使用递归特征消除(RFE)]、机器学习算法[随机森林(RF)或支持向量机(SVM)]和采样技术[不使用子采样、使用合成少数过采样技术(SMOTE)或使用随机过采样示例]，共构建了12个模型，每个机器学习组合模型使用留一交叉验证进行训练。采用受试者工作特征(ROC)曲线评价该模型对软组织肉瘤病理分级的预测效果。结果在12种不同的机器学习模型中，预测软组织肉瘤病理分级的最佳分类模型为RF、RFE和SMOTE的组合，验证集的曲线下面积为0.909(95%可信区间0.808 ~ 1.000)，准确率为84.85%，灵敏度为86.21%，特异性为75.00%。结论基于放射组学的机器学习模型在软组织肉瘤组织学分级预测中具有较好的应用前景。关键词:磁共振成像;软组织肿瘤;肉瘤;Radiomics;人工智能

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来源期刊

Zhonghua fang she xue za zhi Chinese journal of radiology Medicine-Radiology, Nuclear Medicine and Imaging

CiteScore

0.30

自引率

0.00%

发文量

10639