Liu Jiahui, Xiao Chuanguang, Zhang Haicheng, Yu Pengyi, Wang Qi, Peng Ziru, Yu Guohua, Yang Ping, Mou Yakui, Jia Chuanliang, Cheng Hongxia, Mao Ning, Song Xicheng
Department of Otorhinolaryngology, Head and Neck Surgery, Yantai Yuhuangding Hospital, Qingdao University, Yantai 264000, China.
Shandong Provincial Key Laboratory of Neuroimmune Interaction and Regulation, Yantai 264000, China.
Chin J Cancer Res. 2025 Jun 30;37(3):303-315. doi: 10.21147/j.issn.1000-9604.2025.03.02.
This study aims to develop a deep multiscale image learning system (DMILS) to differentiate malignant from benign thyroid follicular neoplasms on multiscale whole-slide images (WSIs) of intraoperative frozen pathological images.
A total of 1,213 patients were divided into training and validation sets, an internal test set, a pooled external test set, and a pooled prospective test set at three centers. DMILS was constructed using a deep learning-based weakly supervised method based on multiscale WSIs at 10×, 20×, and 40× magnifications. The performance of the DMILS was compared with that of a single magnification and validated in two pathologist-unidentified subsets.
The DMILS yielded good performance, with areas under the receiver operating characteristic curves (AUCs) of 0.848, 0.857, 0.810, and 0.787 in the training and validation sets, internal test set, pooled external test set, and pooled prospective test set, respectively. The AUC of the DMILS was higher than that of a single magnification, with 0.788 of 10×, 0.824 of 20×, and 0.775 of 40× in the internal test set. Moreover, DMILS yielded satisfactory performance on the two pathologist-unidentified subsets. Furthermore, the most indicative region predicted by DMILS is the follicular epithelium.
DMILS has good performance in differentiating thyroid follicular neoplasms on multiscale WSIs of intraoperative frozen pathological images.
本研究旨在开发一种深度多尺度图像学习系统(DMILS),以在术中冰冻病理图像的多尺度全切片图像(WSIs)上区分甲状腺滤泡性肿瘤的良恶性。
在三个中心,共有1213例患者被分为训练集和验证集、内部测试集、汇总外部测试集以及汇总前瞻性测试集。DMILS是基于深度学习的弱监督方法,利用10倍、20倍和40倍放大倍数的多尺度WSIs构建而成。将DMILS的性能与单倍放大倍数的性能进行比较,并在两个病理学家未识别的子集中进行验证。
DMILS表现良好,在训练集和验证集、内部测试集、汇总外部测试集以及汇总前瞻性测试集中,受试者操作特征曲线(AUC)下面积分别为0.848、0.857、0.810和0.787。在内部测试集中,DMILS的AUC高于单倍放大倍数的AUC,10倍放大倍数时为0.788,20倍放大倍数时为0.824,40倍放大倍数时为0.775。此外,DMILS在两个病理学家未识别的子集中表现出令人满意的性能。此外,DMILS预测的最具指示性区域是滤泡上皮。
DMILS在术中冰冻病理图像的多尺度WSIs上区分甲状腺滤泡性肿瘤方面具有良好性能。
