Multi-dimensional interpretable deep learning-radiomics based on intra-tumoral and spatial habitat for preoperative prediction of thymic epithelial tumours risk categorisation.

IF 2.7 3区医学 Q3 ONCOLOGY

Acta Oncologica Pub Date : 2025-03-13 DOI:10.2340/1651-226X.2025.42982

Yuhua Yang, Jia Cheng, Can Cui, Huijie Huang, Meiling Cheng, Jiayi Wang, Minjing Zuo

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引用次数: 0

Abstract

Background and purpose: This study aims to develop and compare combined models based on enhanced CT-based radiomics, multi-dimensional deep learning, clinical-conventional imaging and spatial habitat analysis to achieve accurate prediction of thymoma risk classification.

Materials and methods: 205 consecutive patients with thymoma confirmed by surgical pathology were recruited from three medical centers. Venous phase enhanced CT images were used to delineate the tumor, and radiomics, 2D and 3D deep learning models based on the whole tumor were established and feature extraction was performed. The tumors were divided into different sub-regions by K-means clustering method and the corresponding features were obtained. The clinical-conventional imaging data of the patients were collected and evaluated, and the univariate and multivariate analysis were used for screening. The above types of features were fused with each other to construct a variety of combined models. Quantitative indicators such as area under the receiver operating characteristic (ROC) curve (AUC) were calculated to evaluate the performance of the model.

Results: The AUC of RDLCSM developed based on LightGBM classifier was 0.953 in the training cohort, 0.930 in the internal validation cohort, 0.924 and 0.903 in the two external validation cohorts, respectively. RDLCSM performs better than RDLM (AUC range: 0.831-0.890) and 2DLCSM (AUC range: 0.785-0.916) based on KNN. In addition, RDLCSM had the highest accuracy (0.818-0.882) and specificity (0.926-1.000).

Interpretation: The RDLCSM, which combines whole-tumor radiomics, 2D and 3D deep learning, clinical-visual radiology, and subregional omics, can be used as a non-invasive tool to predict thymoma risk classification.

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基于肿瘤内和空间栖息地的多维可解释深度学习放射组学用于胸腺上皮肿瘤风险分类的术前预测。

背景与目的：本研究旨在建立并比较基于增强ct放射组学、多维深度学习、临床常规影像学和空间生境分析的组合模型，以实现胸腺瘤风险分类的准确预测。材料与方法：从3个医疗中心连续招募经手术病理证实的胸腺瘤患者205例。采用静脉期增强CT图像对肿瘤进行圈定，建立基于全肿瘤的放射组学、2D、3D深度学习模型并进行特征提取。通过K-means聚类方法将肿瘤划分为不同的子区域，得到相应的特征。收集并评价患者的临床常规影像学资料，采用单因素和多因素分析进行筛选。将上述类型的特征相互融合，构建各种组合模型。计算受试者工作特征（ROC）曲线下面积（AUC）等定量指标来评价模型的性能。结果：基于LightGBM分类器建立的RDLCSM在训练组的AUC为0.953，在内部验证组的AUC为0.930，在两个外部验证组的AUC分别为0.924和0.903。基于KNN的RDLCSM性能优于RDLM （AUC范围：0.831-0.890）和2dlsm （AUC范围：0.785-0.916）。RDLCSM具有最高的准确度（0.818-0.882）和特异性（0.926-1.000）。RDLCSM结合了全肿瘤放射组学、2D和3D深度学习、临床视觉放射学和分区域组学，可作为预测胸腺瘤风险分类的非侵入性工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Acta Oncologica 医学-肿瘤学

CiteScore

4.30

自引率

3.20%

发文量

301

审稿时长

3 months

期刊介绍： Acta Oncologica is a journal for the clinical oncologist and accepts articles within all fields of clinical cancer research. Articles on tumour pathology, experimental oncology, radiobiology, cancer epidemiology and medical radio physics are also welcome, especially if they have a clinical aim or interest. Scientific articles on cancer nursing and psychological or social aspects of cancer are also welcomed. Extensive material may be published as Supplements, for which special conditions apply.