一种基于机器学习的实时息肉检测系统(DeFrame):一项回顾性研究。
A Machine Learning-Based System for Real-Time Polyp Detection (DeFrame): A Retrospective Study.
作者信息
Chen Shuijiao, Lu Shuang, Tang Yingxin, Wang Dechun, Sun Xinzi, Yi Jun, Liu Benyuan, Cao Yu, Chen Yongheng, Liu Xiaowei
机构信息
Department of Gastroenterology, Xiangya Hospital of Central South University, Changsha, China.
National Clinical Research Center for Geriatric Disorders, Xiangya Hospital Central South University, Changsha, China.
出版信息
Front Med (Lausanne). 2022 May 31;9:852553. doi: 10.3389/fmed.2022.852553. eCollection 2022.
BACKGROUND AND AIMS
Recent studies have shown that artificial intelligence-based computer-aided detection systems possess great potential in reducing the heterogeneous performance of doctors during endoscopy. However, most existing studies are based on high-quality static images available in open-source databases with relatively small data volumes, and, hence, are not applicable for routine clinical practice. This research aims to integrate multiple deep learning algorithms and develop a system (DeFrame) that can be used to accurately detect intestinal polyps in real time during clinical endoscopy.
METHODS
A total of 681 colonoscopy videos were collected for retrospective analysis at Xiangya Hospital of Central South University from June 2019 to June 2020. To train the machine learning (ML)-based system, 6,833 images were extracted from 48 collected videos, and 1,544 images were collected from public datasets. The DeFrame system was further validated with two datasets, consisting of 24,486 images extracted from 176 collected videos and 12,283 images extracted from 259 collected videos. The remaining 198 collected full-length videos were used for the final test of the system. The measurement metrics were sensitivity and specificity in validation dataset 1, precision, recall and F1 score in validation dataset 2, and the overall performance when tested in the complete video perspective.
RESULTS
A sensitivity and specificity of 79.54 and 95.83%, respectively, was obtained for the DeFrame system for detecting intestinal polyps. The recall and precision of the system for polyp detection were determined to be 95.43 and 92.12%, respectively. When tested using full colonoscopy videos, the system achieved a recall of 100% and precision of 80.80%.
CONCLUSION
We have developed a fast, accurate, and reliable DeFrame system for detecting polyps, which, to some extent, is feasible for use in routine clinical practice.
背景与目的
近期研究表明,基于人工智能的计算机辅助检测系统在减少内镜检查过程中医生表现的异质性方面具有巨大潜力。然而,大多数现有研究基于开源数据库中高质量的静态图像,数据量相对较小,因此不适用于常规临床实践。本研究旨在整合多种深度学习算法,开发一种可用于在临床内镜检查期间实时准确检测肠息肉的系统(DeFrame)。
方法
2019年6月至2020年6月,中南大学湘雅医院共收集681份结肠镜检查视频用于回顾性分析。为训练基于机器学习(ML)的系统,从48份收集的视频中提取6833张图像,并从公共数据集中收集1544张图像。DeFrame系统进一步用两个数据集进行验证,一个数据集由从176份收集的视频中提取的24486张图像组成,另一个数据集由从259份收集的视频中提取的12283张图像组成。其余198份收集的全长视频用于系统的最终测试。测量指标在验证数据集1中为灵敏度和特异性,在验证数据集2中为精确率、召回率和F1分数,在完整视频视角下测试时为整体性能。
结果
DeFrame系统检测肠息肉的灵敏度和特异性分别为79.54%和95.83%。该系统检测息肉的召回率和精确率分别确定为95.43%和92.12%。使用全结肠镜检查视频进行测试时,该系统的召回率达到100%,精确率为80.80%。
结论
我们开发了一种快速、准确且可靠的用于检测息肉的DeFrame系统,该系统在一定程度上可用于常规临床实践。
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