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IF 6.1 1区医学 Q1 ACOUSTICS Ultrasound in Obstetrics & Gynecology Pub Date : 2025-03-01 Epub Date: 2025-01-31 DOI:10.1002/uog.29171

F Moro, M T Giudice, M Ciancia, D Zace, G Baldassari, M Vagni, H E Tran, G Scambia, A C Testa

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引用次数: 0

摘要

目的：尽管人工智能（AI）越来越多地应用于妇科超声成像，但对现有证据进行综合的努力还不够。本系统综述旨在总结和评估有关人工智能应用于妇科良性疾病超声成像的作用的文献：方法：检索了从开始到 2024 年 8 月的 Web of Science、PubMed 和 Scopus 数据库。纳入标准是将人工智能应用于妇科良性疾病超声成像诊断和管理的研究。从文献检索中检索到的研究被导入Rayyan软件，并使用以人工智能为中心的诊断测试准确性研究质量评估工具（QUADAS-AI）进行质量评估：在纳入的 59 项研究中，12 项涉及多囊卵巢综合征（PCOS），11 项涉及不孕症和辅助生殖技术，11 项涉及卵巢良性病变（即卵巢囊肿、卵巢扭转、卵巢早衰），10 项涉及子宫内膜或子宫肌层病变，9 项涉及盆底障碍，6 项涉及子宫内膜异位症。中国是参与比例最高的国家（22/59（37.3%））。根据 QUADAS-AI，大多数研究在受试者选择领域（因为未说明样本量、来源或扫描仪模型，数据并非来自开源数据集和/或未进行成像预处理）和指标测试领域（人工智能模型未经外部验证）存在高偏倚风险，而在参考标准领域（参考标准正确分类了目标病症）和工作流程领域（指标测试和参考标准之间的时间间隔合理）存在低偏倚风险。大多数研究（40/59）开发并在内部验证了人工智能分类模型，用于区分正常和病理病例（即有无多囊卵巢综合症、盆腔子宫内膜异位症、尿失禁、卵巢囊肿或卵巢扭转），而 19/59 项研究旨在自动分割或测量卵巢滤泡、卵巢体积、子宫内膜厚度、子宫肌瘤或盆底结构：结论：已发表的有关将人工智能应用于良性妇科疾病超声检查的文献主要集中在建立分类模型以区分正常和病理病例，以及开发自动分割或测量卵巢体积或卵泡的模型。© 2025 The Author(s).妇产科超声》由 John Wiley & Sons Ltd 代表国际妇产科超声学会出版。

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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Application of artificial intelligence to ultrasound imaging for benign gynecological disorders: systematic review.

Objective: Although artificial intelligence (AI) is increasingly being applied to ultrasound imaging in gynecology, efforts to synthesize the available evidence have been inadequate. The aim of this systematic review was to summarize and evaluate the literature on the role of AI applied to ultrasound imaging in benign gynecological disorders.

Methods: Web of Science, PubMed and Scopus databases were searched from inception until August 2024. Inclusion criteria were studies applying AI to ultrasound imaging in the diagnosis and management of benign gynecological disorders. Studies retrieved from the literature search were imported into Rayyan software and quality assessment was performed using the Quality Assessment Tool for Artificial Intelligence-Centered Diagnostic Test Accuracy Studies (QUADAS-AI).

Results: Of the 59 studies included, 12 were on polycystic ovary syndrome (PCOS), 11 were on infertility and assisted reproductive technology, 11 were on benign ovarian pathology (i.e. ovarian cysts, ovarian torsion, premature ovarian failure), 10 were on endometrial or myometrial pathology, nine were on pelvic floor disorder and six were on endometriosis. China was the most highly represented country (22/59 (37.3%)). According to QUADAS-AI, most studies were at high risk of bias for the subject selection domain (because the sample size, source or scanner model was not specified, data were not derived from open-source datasets and/or imaging preprocessing was not performed) and the index test domain (AI models were not validated externally), and at low risk of bias for the reference standard domain (the reference standard classified the target condition correctly) and the workflow domain (the time between the index test and the reference standard was reasonable). Most studies (40/59) developed and internally validated AI classification models for distinguishing between normal and pathological cases (i.e. presence vs absence of PCOS, pelvic endometriosis, urinary incontinence, ovarian cyst or ovarian torsion), whereas 19/59 studies aimed to automatically segment or measure ovarian follicles, ovarian volume, endometrial thickness, uterine fibroids or pelvic floor structures.

Conclusion: The published literature on AI applied to ultrasound in benign gynecological disorders is focused mainly on creating classification models to distinguish between normal and pathological cases, and on developing models to automatically segment or measure ovarian volume or follicles. © 2025 The Author(s). Ultrasound in Obstetrics & Gynecology published by John Wiley & Sons Ltd on behalf of International Society of Ultrasound in Obstetrics and Gynecology.

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