用于鉴别诊断为意义不明确的非典型性甲状腺结节中的甲状腺乳头状癌和良性结节的深度卷积神经网络模型ResNeSt
Deep convolutional neural network model ResNeSt for discrimination of papillary thyroid carcinomas and benign nodules in thyroid nodules diagnosed as atypia of undetermined significance.
作者信息
Zhao Dan, Luo Mukun, Zeng Min, Yang Zhou, Guan Qing, Wan Xiaochun, Wang Yu, Zhang Hao, Wang Yunjun, Lu Hongtao, Xiang Jun
机构信息
Department of Head and Neck Surgery, Fudan University Shanghai Cancer Center, Shanghai, China.
Department of Oncology, Shanghai Medical College, Fudan University, Shanghai, China.
出版信息
Gland Surg. 2024 May 30;13(5):619-629. doi: 10.21037/gs-23-486. Epub 2024 May 27.
BACKGROUND
A deep convolutional neural network (DCNN) model was employed for the differentiation of thyroid nodules diagnosed as atypia of undetermined significance (AUS) according to the 2023 Bethesda System for Reporting Thyroid Cytopathology (TBSRTC). The aim of this study was to investigate the efficiency of ResNeSt in improving the diagnostic accuracy of fine-needle aspiration (FNA) biopsy.
METHODS
Fragmented images were used to train and test DCNN models. A training dataset was built from 1,330 samples diagnosed as papillary thyroid carcinoma (PTC) or benign nodules, and a test dataset was built from 173 samples diagnosed as AUS. ResNeSt was trained and tested to provide a differentiation. With regard to AUS samples, the characteristics of the cell nuclei were compared using the Wilcoxon test.
RESULTS
The ResNeSt model achieved an accuracy of 92.49% (160/173) on fragmented images and 84.78% (39/46) from a patient wise viewpoint in discrimination of PTC and benign nodules in AUS nodules. The sensitivity and specificity of ResNeSt model were 95.79% and 88.46%. The κ value between ResNeSt and the pathological results was 0.847 (P<0.001). With regard to the cell nuclei of AUS nodules, both area and perimeter of malignant nodules were larger than those of benign ones, which were 2,340.00 (1,769.00, 2,807.00) 1,941.00 (1,567.50, 2,455.75), P<0.001 and 190.46 (167.64, 208.46) 171.71 (154.95, 193.65), P<0.001, respectively. The grayscale (0 for black, 255 for white) of malignant lesions was lower than that of benign ones, which was 37.52 (31.41, 46.67) 45.84 (31.88, 57.36), P <0.001, indicating nuclear staining of malignant lesions were deeper than benign ones.
CONCLUSIONS
In summary, the DCNN model ResNeSt showed great potential in discriminating thyroid nodules diagnosed as AUS. Among those nodules, malignant nodules showed larger and more deeply stained nuclei than benign nodules.
背景
根据2023年甲状腺细胞病理学报告贝塞斯达系统(TBSRTC),采用深度卷积神经网络(DCNN)模型对诊断为意义未明的非典型性(AUS)的甲状腺结节进行鉴别。本研究的目的是探讨ResNeSt在提高细针穿刺(FNA)活检诊断准确性方面的效率。
方法
使用碎片化图像训练和测试DCNN模型。从1330例诊断为甲状腺乳头状癌(PTC)或良性结节的样本中构建训练数据集,从173例诊断为AUS的样本中构建测试数据集。对ResNeSt进行训练和测试以进行鉴别。对于AUS样本,使用Wilcoxon检验比较细胞核的特征。
结果
ResNeSt模型在碎片化图像上对AUS结节中的PTC和良性结节进行鉴别时,准确率达到92.49%(160/173),从患者角度来看准确率为84.78%(39/46)。ResNeSt模型的敏感性和特异性分别为95.79%和88.46%。ResNeSt与病理结果之间的κ值为0.847(P<0.001)。关于AUS结节的细胞核,恶性结节的面积和周长均大于良性结节,分别为2340.00(1769.00,2807.00)对1941.00(1567.50,2455.75),P<0.001和190.46(167.64,208.46)对171.71(154.95,193.65),P<0.001。恶性病变的灰度(黑色为0,白色为255)低于良性病变,为37.52(31.41,46.67)对45.84(31.88,57.36),P<0.001,表明恶性病变的核染色比良性病变更深。
结论
总之,DCNN模型ResNeSt在鉴别诊断为AUS的甲状腺结节方面显示出巨大潜力。在这些结节中,恶性结节的细胞核比良性结节更大且染色更深。
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