Enhancing detection of various pancreatic lesions on endoscopic ultrasound through artificial intelligence: a basis for computer-aided detection systems.

IF 3.7 3区医学 Q2 GASTROENTEROLOGY & HEPATOLOGY Journal of Gastroenterology and Hepatology Pub Date : 2024-11-13 DOI:10.1111/jgh.16814

Tom Konikoff, Nadav Loebl, Ariel A Benson, Orr Green, Hunter Sandler, Rachel Gingold-Belfer, Zohar Levi, Leor Perl, Iris Dotan, Steven Shamah

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Abstract

Background and aim: Endoscopic ultrasound (EUS) is the most sensitive method for evaluation of pancreatic lesions but is limited by significant operator dependency. Artificial intelligence (AI), in the form of computer-aided detection (CADe) systems, has shown potential in increasing accuracy and bridging operator dependency in several endoscopic domains. However, the complexity of integrating AI into EUS is far more challenging. This aims to develop and test the basis for a CADe system for real-time detection and segmentation of all pancreatic lesions.

Methods: In this single-center study EUS studies of pancreatic findings were included. Lesions were outlined by two expert (>5 years performing EUS) endoscopists, and the two leading types of models were benchmarked. The models' performance was evaluated through per-pixel intersection over union (IoU).

Results: A total of 1497 EUS images from 165 patients were evaluated. The dataset included malignancies, neuroendocrine tumors, benign cysts, chronic and acute pancreatitis, normal fatty pancreas, and benign lesions. The best model demonstrated detection and segmentation on the test set with a mean IoU of 0.73, achieving a PPV, NPV, total accuracy, and ROC of 0.82, 0.96, 0.95, and 0.95, respectively. The algorithm is adaptable for real-time processing.

Conclusions: We developed and tested deep learning models for real-time detection and segmentation of pancreatic lesions during EUS with promising results. This constitutes the basis for a CADe system for EUS, which could be valuable in future detection and evaluation of pancreatic lesions. Further studies for validation and generalization are underway.

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通过人工智能增强内窥镜超声波对各种胰腺病变的检测：计算机辅助检测系统的基础。

背景和目的：内窥镜超声（EUS）是评估胰腺病变最灵敏的方法，但对操作人员的依赖性很大。以计算机辅助检测（CADe）系统为形式的人工智能（AI）已在多个内窥镜领域显示出提高准确性和消除操作员依赖性的潜力。然而，将人工智能整合到 EUS 中的复杂性远比这更具挑战性。本研究旨在开发和测试用于实时检测和分割所有胰腺病变的 CADe 系统的基础：在这项单中心研究中，纳入了胰腺病变的 EUS 研究。两名内镜专家（从事 EUS 超过 5 年）对病变进行了概述，并对两种主要类型的模型进行了基准测试。结果：共评估了 165 名患者的 1497 张 EUS 图像。数据集包括恶性肿瘤、神经内分泌肿瘤、良性囊肿、慢性和急性胰腺炎、正常脂肪胰腺和良性病变。最佳模型对测试集进行了检测和分割，平均 IoU 为 0.73，PPV、NPV、总准确率和 ROC 分别为 0.82、0.96、0.95 和 0.95。该算法可用于实时处理：我们开发并测试了用于 EUS 期间胰腺病变实时检测和分割的深度学习模型，结果令人鼓舞。这为用于 EUS 的 CADe 系统奠定了基础，该系统在未来的胰腺病变检测和评估中可能很有价值。有关验证和推广的进一步研究正在进行中。

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

Journal of Gastroenterology and Hepatology 医学-胃肠肝病学

CiteScore

7.90

自引率

2.40%

发文量

326

审稿时长

2.3 months

期刊介绍： Journal of Gastroenterology and Hepatology is produced 12 times per year and publishes peer-reviewed original papers, reviews and editorials concerned with clinical practice and research in the fields of hepatology, gastroenterology and endoscopy. Papers cover the medical, radiological, pathological, biochemical, physiological and historical aspects of the subject areas. All submitted papers are reviewed by at least two referees expert in the field of the submitted paper.