基于深度全卷积网络的阴道镜图像的宫颈病变分类和诊断：一项人机比较队列研究

IF 6.2 3区综合性期刊 Q1 Multidisciplinary

Fundamental Research Pub Date : 2025-01-01 DOI:10.1016/j.fmre.2022.09.032

Binhua Dong , Huifeng Xue , Ye Li , Ping Li , Jiancui Chen , Tao Zhang , Lihua Chen , Diling Pan , Peizhong Liu , Pengming Sun

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引用次数: 0

摘要

阴道镜检查是宫颈癌诊断中的一项重要技术。计算机辅助诊断方法的发展可以缓解阴道镜检查人员短缺的问题，提高阴道镜检查的准确性和效率。本研究提出了用于阴道镜图像识别的Dense-U-Net模型。这是一项人机对比队列研究。提出了一种基于Dense-U-Net图像语义分割算法的新型人工智能（AI）模型，用于通过阴道镜图像诊断宫颈病变。采用“深化网络结构”、“应用dropout”和“最大池化”的方法建立了Dense-U-Net模型。此外，还比较了人工智能算法和具有不同专科经验水平的医生基于图像和基于人群的诊断性能。总共招募了2475名参与者，13084张阴道镜图像被纳入这项研究。随着每位患者阴道镜检查图像的增加，Dense-U-Net模型的诊断准确性显著提高。随着训练集中图像数量的增加，Dense-U-Net模型对宫颈上皮内肿瘤3级及以上（CIN3+）诊断的准确率提高（P = 0.035）。诊断正确率(0.89 vs 0.85, P <；0.001)，漏诊率（0.06 vs 0.07, P = 0.002）和假阳性(0.05 vs 0.08, P <；0.001)更低。此外，对于专家难以诊断的III型宫颈转化区，Dense-U-Net诊断更为准确(P <；0.001)。在独立的测试集中，Dense-U-Net模型也显示出较高的CIN3+诊断准确性(P <；0.001)。对于相同的870张检查图像，density - u - net系统的诊断时间为1.76±0.09 min，而专家、高级和初级阴道镜专家分别为716.3±49.76、892.1±92.30和3034.7±259.51 min。本研究成功建立了一个可靠、快速、有效的Dense-U-Net模型来辅助阴道镜检查。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Classification and diagnosis of cervical lesions based on colposcopy images using deep fully convolutional networks: A man-machine comparison cohort study

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Classification and diagnosis of cervical lesions based on colposcopy images using deep fully convolutional networks: A man-machine comparison cohort study

Colposcopy is an important technique in the diagnosis of cervical cancer. The development of computer-aided diagnosis methods can mitigate the shortage of colposcopists and improve the accuracy and efficiency of colposcopy examinations in China. This study proposes the Dense-U-Net model for colposcopy image recognition. This was a man–machine comparison cohort study. It presents a novel artificial intelligence (AI) model for the diagnosis of cervical lesions through colposcopy images using a Dense-U-Net image semantic segmentation algorithm. The Dense-U-Net model was created by applying the methods of “deepening the network structure,” “applying dropout” and “max pooling.” Moreover, image-based and population-based diagnostic performances of the AI algorithm and physicians with different levels of specialist experience were compared. In total, 2,475 participants were recruited, and 13,084 colposcopy images were included in this study. The diagnostic accuracy of the Dense-U-Net model increased significantly with increasing colposcopy images per patient. As the number of images in the training set increased, the diagnostic accuracy of the Dense-U-Net model for cervical intraepithelial neoplasm 3 or worse (CIN3+) diagnosis increased (P = 0.035). The rate of diagnostic accuracy (0.89 vs 0.85, P < 0.001) of CIN3+ lesions using the Dense-U-Net model was higher than that of expert colposcopists, and the missed diagnosis (0.06 vs 0.07, P = 0.002) and false positive (0.05 vs 0.08, P < 0.001) were lower. Moreover, Dense-U-Net is more accurate in diagnosing the type III cervical transformation zone, which is difficult to diagnose by experts (P < 0.001). The Dense-U-Net model also showed higher diagnostic accuracy for CIN3+ in an independent test set (P < 0.001). To diagnose the same 870 test images, the Dense-U-Net system took 1.76 ± 0.09 min, while the expert, senior, and junior colposcopists took 716.3 ± 49.76, 892.1 ± 92.30, and 3034.7 ± 259.51 min, respectively. The study successfully built a reliable, quick, and effective Dense-U-Net model to assist with colposcopy examinations.

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