Artificial intelligence−enhanced white-light colonoscopy with attention guidance predicts colorectal cancer invasion depth

医学 结肠镜检查 接收机工作特性 结直肠癌 置信区间 内镜黏膜下剥离术 白光 切断 曲线下面积 癌症 内科学 放射科 胃肠病学 物理 光学 量子力学
作者
Xiaobei Luo,Jiahao Wang,Zelong Han,Yang Yu,Zhen‐Yu Chen,Feiyang Huang,Yumeng Xu,Jianqun Cai,Qiang Zhang,Weiguang Qiao,Inn Chuan Ng,Robby T. Tan,Side Liu,Hanry Yu
出处
期刊:Gastrointestinal Endoscopy [Elsevier BV]
卷期号:94 (3): 627-638.e1 被引量:51
标识
DOI:10.1016/j.gie.2021.03.936
摘要

Endoscopic submucosal dissection (ESD) and EMR are applied in treating superficial colorectal neoplasms but are contraindicated by deeply invasive colorectal cancer (CRC). The invasion depth of neoplasms can be examined by an automated artificial intelligence (AI) system to determine the applicability of ESD and EMR.A deep convolutional neural network with a tumor localization branch to guide invasion depth classification was constructed on the GoogLeNet architecture. The model was trained using 7734 nonmagnified white-light colonoscopy (WLC) images supplemented by image augmentation from 657 lesions labeled with histopathologic analysis of invasion depth. An independent testing dataset consisting of 1634 WLC images from 156 lesions was used to validate the model.For predicting noninvasive and superficially invasive neoplasms, the model achieved an overall accuracy of 91.1% (95% confidence interval [CI], 89.6%-92.4%), with 91.2% sensitivity (95% CI, 88.8%-93.3%) and 91.0% specificity (95% CI, 89.0%-92.7%) at an optimal cutoff of .41 and the area under the receiver operating characteristic (AUROC) curve of .970 (95% CI, .962-.978). Inclusion of the advanced CRC data significantly increased the sensitivity in differentiating superficial neoplasms from deeply invasive early CRC to 65.3% (95% CI, 61.9%-68.8%) with an AUROC curve of .729 (95% CI, .699-.759), similar to experienced endoscopists (.691; 95% CI, .624-.758).We have developed an AI-enhanced attention-guided WLC system that differentiates noninvasive or superficially submucosal invasive neoplasms from deeply invasive CRC with high accuracy, sensitivity, and specificity.
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