Development of artificial intelligence for the detection and staging of esophageal cancer

Annals of esophagus Pub Date : 2021-01-01 DOI:10.21037/aoe-2020-33

Y. Tokai, T. Yoshio, J. Fujisaki

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引用次数: 0

Abstract

: Computer-assisted diagnosis (CAD) using deep learning, based on convolutional neural networks (CNNs), is rapidly developing in modern society and clinical practice. In the medical field of endoscopy, a CAD system can be used in the detection and staging of superficial esophageal cancer. In the detection of superficial esophageal squamous cell carcinoma (ESCC), several studies were reported as using still images of conventional white-light endoscopy and narrow-band imaging (NBI). The sensitivity of CAD systems is over 90%, and in some reports, higher than that of expert endoscopists. In addition, there is a report using video for a validation set that showed good performance. In diagnosing invasion depth, there are reports using conventional white-light imaging, NBI, and magnifying endoscopy with NBI using still images; there are also reports of intrapapillary capillary loop pattern identification using still images. Using white-light endoscopy and NBI, CAD systems showed sensitivity of 84.1–95.4%, specificity of 73.3–79.2%, and accuracy of 80.9–92.9% for differentiating SM1 cancers from SM2 or SM3 cancers in pathology. Additional systems could accurately classify intrapapillary capillary loop patterns as normal or abnormal, with comparable performance to experienced endoscopists. As for esophageal adenocarcinoma (EAC) that arises in Barrett’s esophagus (BE), there are detection reports that show favorable performance. Furthermore, the CAD system from one report identified the location suitable for biopsy; this is helpful for endoscopists because of the difficulty in determining the location of early EAC in BE. Although these studies are still only at research level, excellent performance has been achieved for detecting and staging of superficial esophageal carcinoma by CAD systems. In the near future, CAD systems will support us in detecting and staging esophageal cancers in daily clinical practice, leading to a better prognosis. 9

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人工智能在食管癌检测与分期中的应用

基于卷积神经网络(cnn)的深度学习计算机辅助诊断(CAD)在现代社会和临床实践中得到了迅速发展。在内镜医学领域，CAD系统可用于浅表性食管癌的检测和分期。在浅表性食管鳞状细胞癌(ESCC)的检测中，有几项研究报道了使用传统白光内镜和窄带成像(NBI)的静止图像。CAD系统的灵敏度超过90%，在一些报告中，比内窥镜专家的灵敏度还要高。此外，有一个使用视频的验证集的报告显示了良好的性能。在诊断浸润深度方面，有报道使用传统的白光成像、NBI和放大内窥镜使用静止图像进行NBI;也有报告的毛细血管内循环模式识别使用静止图像。使用白光内镜和NBI, CAD系统在病理学上区分SM1癌与SM2或SM3癌的敏感性为84.1-95.4%，特异性为73.3-79.2%，准确性为80.9-92.9%。其他系统可以准确地将毛细血管袢模式分类为正常或异常，其性能与经验丰富的内窥镜医师相当。对于Barrett食管(BE)中出现的食管腺癌(EAC)，有检测报告显示其表现良好。此外，CAD系统从一份报告中确定了适合活检的位置;这对内窥镜医师很有帮助，因为很难确定BE中早期EAC的位置。虽然这些研究还处于研究阶段，但CAD系统在浅表性食管癌的检测和分期方面已经取得了优异的成绩。在不久的将来，CAD系统将支持我们在日常临床实践中检测和分期食管癌，从而获得更好的预后。9

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

Annals of esophagus

CiteScore

0.70

自引率

0.00%

发文量