Classification of Benign and Malignant Renal Tumors Based on CT Scans and Clinical Data Using Machine Learning Methods

IF 3.4 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Informatics Pub Date : 2023-07-03 DOI:10.3390/informatics10030055

Jie Xu, Xing He, Wei Shao, Jiang Bian, R. Terry

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Abstract

Up to 20% of renal masses ≤4 cm is found to be benign at the time of surgical excision, raising concern for overtreatment. However, the risk of malignancy is currently unable to be accurately predicted prior to surgery using imaging alone. The objective of this study is to propose a machine learning (ML) framework for pre-operative renal tumor classification using readily available clinical and CT imaging data. We tested both traditional ML methods (i.e., XGBoost, random forest (RF)) and deep learning (DL) methods (i.e., multilayer perceptron (MLP), 3D convolutional neural network (3DCNN)) to build the classification model. We discovered that the combination of clinical and radiomics features produced the best results (i.e., AUC [95% CI] of 0.719 [0.712–0.726], a precision [95% CI] of 0.976 [0.975–0.978], a recall [95% CI] of 0.683 [0.675–0.691], and a specificity [95% CI] of 0.827 [0.817–0.837]). Our analysis revealed that employing ML models with CT scans and clinical data holds promise for classifying the risk of renal malignancy. Future work should focus on externally validating the proposed model and features to better support clinical decision-making in renal cancer diagnosis.

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基于CT扫描和临床数据的机器学习方法对肾良恶性肿瘤的分类

在手术切除时，高达20%的≤4cm的肾脏肿块是良性的，这引起了人们对过度治疗的担忧。然而，目前仅使用成像无法在手术前准确预测恶性肿瘤的风险。本研究的目的是利用现成的临床和CT成像数据，提出一种用于术前肾肿瘤分类的机器学习（ML）框架。我们测试了传统的ML方法（即XGBoost、随机森林（RF））和深度学习（DL）方法（即多层感知器（MLP）、3D卷积神经网络（3DCNN））来构建分类模型。我们发现，临床和放射组学特征的结合产生了最好的结果（即AUC[95%CI]为0.719[0.712–0.726]，准确度[95%CI]0.976[0.975–0.978]，召回率[95%CI][0.683[0.675–0.691]，特异性[95%CI]-0.827[0.817–0.837]）肾恶性肿瘤的风险。未来的工作应侧重于外部验证所提出的模型和特征，以更好地支持癌症诊断的临床决策。

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