一种用于检测假阴性乳腺癌的商业人工智能算法在不同人群中的外部验证

External Validation of a Commercial Artificial Intelligence Algorithm on a Diverse Population for Detection of False Negative Breast Cancers.

作者信息

Plimpton S Reed, Milch Hannah, Sears Christopher, Chalfant James, Hoyt Anne, Fischer Cheryce, Hsu William, Joines Melissa

机构信息

Department of Radiological Sciences, David Geffen School of Medicine at UCLA, Los Angeles, CA, USA.

Medical & Imaging Informatics, Department of Radiological Sciences, David Geffen School of Medicine at UCLA, Los Angeles, CA, USA.

出版信息

J Breast Imaging. 2025 Jan 25;7(1):16-26. doi: 10.1093/jbi/wbae058.

DOI:10.1093/jbi/wbae058

PMID:39401322

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11770225/

Abstract

OBJECTIVE

There are limited data on the application of artificial intelligence (AI) on nonenriched, real-world screening mammograms. This work aims to evaluate the ability of AI to detect false negative cancers not detected at the time of screening when reviewed by the radiologist alone.

METHODS

A commercially available AI algorithm was retrospectively applied to patients undergoing screening full-field digital mammography (FFDM) or digital breast tomosynthesis (DBT) at a single institution from 2010 to 2019. Ground truth was established based on 1-year follow-up data. Descriptive statistics were performed with attention focused on AI detection of false negative cancers within these subsets.

RESULTS

A total of 26 694 FFDM and 3183 DBT examinations were analyzed. Artificial intelligence was able to detect 7/13 false negative cancers (54%) in the FFDM cohort and 4/10 (40%) in the DBT cohort on the preceding screening mammogram that was interpreted as negative by the radiologist. Of these, 4 in the FFDM cohort and 4 in the DBT cohort were identified in breast densities of C or greater. False negative cancers detected by AI were predominantly luminal A invasive malignancies (9/11, 82%). Artificial intelligence was able to detect these false negative cancers a median time of 272 days sooner in the FFDM cohort and 248 days sooner in the DBT cohort compared to the radiologist.

CONCLUSION

Artificial intelligence was able to detect cancers at the time of screening that were missed by the radiologist. Prospective studies are needed to evaluate the synergy of AI and the radiologist in real-world settings, especially on DBT examinations.

摘要

目的

关于人工智能（AI）在未富集的真实世界筛查乳腺钼靶图像上的应用数据有限。本研究旨在评估AI在放射科医生单独阅片时检测筛查时未发现的假阴性癌症的能力。

方法

回顾性地将一种商用AI算法应用于2010年至2019年在单一机构接受全视野数字乳腺钼靶（FFDM）或数字乳腺断层合成（DBT）筛查的患者。基于1年的随访数据确定真实情况。进行描述性统计，重点关注这些亚组中AI对假阴性癌症的检测。

结果

共分析了26694例FFDM检查和3183例DBT检查。AI能够在FFDM队列中的前次筛查乳腺钼靶图像上检测出7/13例（54%）假阴性癌症，在DBT队列中检测出4/10例（40%），而放射科医生将这些图像解读为阴性。其中，FFDM队列中有4例，DBT队列中有4例在乳腺密度为C级或更高的情况下被识别。AI检测出的假阴性癌症主要是管腔A型浸润性恶性肿瘤（9/11，82%）。与放射科医生相比，AI能够在FFDM队列中平均提前272天，在DBT队列中平均提前248天检测出这些假阴性癌症。

结论

AI能够在筛查时检测出放射科医生漏诊的癌症。需要进行前瞻性研究以评估AI与放射科医生在真实环境中的协同作用，尤其是在DBT检查方面。

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