突破障碍：用于BRAF突变识别的无创人工智能模型

Breaking barriers: noninvasive AI model for BRAF mutation identification.

作者信息

Wu Fan, Lin Xiangfeng, Chen Yuying, Ge Mengqian, Pan Ting, Shi Jingjing, Mao Linlin, Pan Gang, Peng You, Zhou Li, Zheng Haitao, Luo Dingcun, Zhang Yu

机构信息

Department of Oncological Surgery, Affiliated Hangzhou First People's Hospital, Westlake University School of Medicine, Hangzhou, 310006, Zhejiang, China.

Department of Thyroid Surgery, The Affiliated Yantai Yuhuangding Hospital, Qingdao University, Qingdao, Shandong Province, China.

出版信息

Int J Comput Assist Radiol Surg. 2025 May;20(5):935-947. doi: 10.1007/s11548-024-03290-0. Epub 2025 Feb 15.

DOI:10.1007/s11548-024-03290-0

PMID:39955452

Abstract

OBJECTIVE

BRAF is the most common mutation found in thyroid cancer and is particularly associated with papillary thyroid carcinoma (PTC). Currently, genetic mutation detection relies on invasive procedures. This study aimed to extract radiomic features and utilize deep transfer learning (DTL) from ultrasound images to develop a noninvasive artificial intelligence model for identifying BRAF mutations.

MATERIALS AND METHODS

Regions of interest (ROI) were manually annotated in the ultrasound images, and radiomic and DTL features were extracted. These were used in a joint DTL-radiomics (DTLR) model. Fourteen DTL models were employed, and feature selection was performed using the LASSO regression. Eight machine learning methods were used to construct predictive models. Model performance was primarily evaluated using area under the curve (AUC), accuracy, sensitivity and specificity. The interpretability of the model was visualized using gradient-weighted class activation maps (Grad-CAM).

RESULTS

Sole reliance on radiomics for identification of BRAF mutations had limited capability, but the optimal DTLR model, combined with ResNet152, effectively identified BRAF mutations. In the validation set, the AUC, accuracy, sensitivity and specificity were 0.833, 80.6%, 76.2% and 81.7%, respectively. The AUC of the DTLR model was higher than that of the DTL and radiomics models. Visualization using the ResNet152-based DTLR model revealed its ability to capture and learn ultrasound image features related to BRAF mutations.

CONCLUSION

The ResNet152-based DTLR model demonstrated significant value in identifying BRAF mutations in patients with PTC using ultrasound images. Grad-CAM has the potential to objectively stratify BRAF mutations visually. The findings of this study require further collaboration among more centers and the inclusion of additional data for validation.

摘要

目的

BRAF是甲状腺癌中最常见的突变，尤其与甲状腺乳头状癌（PTC）相关。目前，基因突变检测依赖侵入性操作。本研究旨在从超声图像中提取放射组学特征并利用深度迁移学习（DTL），以开发一种用于识别BRAF突变的非侵入性人工智能模型。

材料与方法

在超声图像中手动标注感兴趣区域（ROI），并提取放射组学和DTL特征。这些特征被用于联合DTL-放射组学（DTLR）模型。采用了14种DTL模型，并使用LASSO回归进行特征选择。使用8种机器学习方法构建预测模型。主要使用曲线下面积（AUC）、准确率、敏感性和特异性评估模型性能。使用梯度加权类激活映射（Grad-CAM）可视化模型的可解释性。

结果

单纯依靠放射组学识别BRAF突变的能力有限，但结合ResNet152的最佳DTLR模型能有效识别BRAF突变。在验证集中，AUC、准确率、敏感性和特异性分别为0.833、80.6%、76.2%和81.7%。DTLR模型的AUC高于DTL和放射组学模型。基于ResNet152的DTLR模型的可视化显示了其捕捉和学习与BRAF突变相关的超声图像特征的能力。

结论

基于ResNet152的DTLR模型在利用超声图像识别PTC患者的BRAF突变方面显示出显著价值。Grad-CAM有可能在视觉上客观地对BRAF突变进行分层。本研究结果需要更多中心进一步合作并纳入更多数据进行验证。

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突破障碍：用于BRAF突变识别的无创人工智能模型

Breaking barriers: noninvasive AI model for BRAF mutation identification.

作者信息

机构信息

出版信息

OBJECTIVE

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料与方法

结果

结论

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