A deep learning-based system for mediastinum station localization in linear EUS (with video).

IF 4.4 1区 医学 Q1 GASTROENTEROLOGY & HEPATOLOGY Endoscopic Ultrasound Pub Date : 2023-09-01 Epub Date: 2023-10-16 DOI:10.1097/eus.0000000000000011
Liwen Yao, Chenxia Zhang, Bo Xu, Shanshan Yi, Juan Li, Xiangwu Ding, Honggang Yu
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Abstract

Background and objectives: EUS is a crucial diagnostic and therapeutic method for many anatomical regions, especially in the evaluation of mediastinal diseases and related pathologies. Rapidly finding the standard stations is the key to achieving efficient and complete mediastinal EUS imaging. However, it requires substantial technical skills and extensive knowledge of mediastinal anatomy. We constructed a system, named EUS-MPS (EUS-mediastinal position system), for real-time mediastinal EUS station recognition.

Methods: The standard scanning of mediastinum EUS was divided into 7 stations. There were 33 010 images in mediastinum EUS examination collected to construct a station classification model. Then, we used 151 videos clips for video validation and used 1212 EUS images from 2 other hospitals for external validation. An independent data set containing 230 EUS images was applied for the man-machine contest. We conducted a crossover study to evaluate the effectiveness of this system in reducing the difficulty of mediastinal ultrasound image interpretation.

Results: For station classification, the model achieved an accuracy of 90.49% in image validation and 83.80% in video validation. At external validation, the models achieved 89.85% accuracy. In the man-machine contest, the model achieved an accuracy of 84.78%, which was comparable to that of expert (83.91%). The accuracy of the trainees' station recognition was significantly improved in the crossover study, with an increase of 13.26% (95% confidence interval, 11.04%-15.48%; P < 0.05).

Conclusions: This deep learning-based system shows great performance in mediastinum station localization, having the potential to play an important role in shortening the learning curve and establishing standard mediastinal scanning in the future.

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基于深度学习的线性EUS纵隔站定位系统(含视频)。
背景和目的:EUS是许多解剖区域的重要诊断和治疗方法,特别是在纵隔疾病和相关病理的评估中。快速找到标准站是实现高效、完整纵隔超声成像的关键。然而,它需要大量的技术技能和广泛的纵隔解剖学知识。我们构建了一个纵隔EUS- mps (EUS-纵隔位置系统)系统,用于纵隔EUS站的实时识别。方法:将纵隔EUS标准扫描分为7个站位。收集纵隔EUS检查图像33 010张,建立站位分类模型。然后,我们使用151个视频片段进行视频验证,并使用来自其他2家医院的1212张EUS图像进行外部验证。一个包含230张EUS图像的独立数据集被应用于人机竞赛。我们进行了一项交叉研究来评估该系统在降低纵隔超声图像解释难度方面的有效性。结果:对于站点分类,该模型的图像验证准确率为90.49%,视频验证准确率为83.80%。在外部验证中,模型的准确率达到89.85%。在人机竞赛中,该模型达到了84.78%的准确率,与专家的准确率(83.91%)相当。交叉研究中,学员的站位识别准确率显著提高,提高了13.26%(95%置信区间11.04% ~ 15.48%;P < 0.05)。结论:基于深度学习的系统在纵隔站定位中表现优异,在缩短学习曲线和建立标准纵隔扫描方面具有重要的应用前景。
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来源期刊
Endoscopic Ultrasound
Endoscopic Ultrasound GASTROENTEROLOGY & HEPATOLOGY-
CiteScore
6.20
自引率
11.10%
发文量
144
期刊介绍: Endoscopic Ultrasound, a publication of Euro-EUS Scientific Committee, Asia-Pacific EUS Task Force and Latin American Chapter of EUS, is a peer-reviewed online journal with Quarterly print on demand compilation of issues published. The journal’s full text is available online at http://www.eusjournal.com. The journal allows free access (Open Access) to its contents and permits authors to self-archive final accepted version of the articles on any OAI-compliant institutional / subject-based repository. The journal does not charge for submission, processing or publication of manuscripts and even for color reproduction of photographs.
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