急诊分诊台
医学
阴道镜检查
工作量
宫颈癌
人口
细胞病理学
诊断准确性
放射科
细胞学
妇科
病理
癌症
内科学
计算机科学
急诊医学
操作系统
环境卫生
作者
Peng Xue,Haimiao Xu,Hongping Tang,Haiyan Weng,Haiming Wei,Zhe Wang,Qian Zhang,Yang Weng,Lian Xu,Hongxia Li,Samuel Seery,Xiao Han,Ye Hu,You‐Lin Qiao,Yu Jiang
出处
期刊:Modern Pathology
[Springer Nature]
日期:2023-04-12
卷期号:36 (8): 100186-100186
被引量:3
标识
DOI:10.1016/j.modpat.2023.100186
摘要
Population-based cervical cytology screening techniques are demanding and laborious and have relatively poor diagnostic accuracy. In this study, we present a cytologist-in-the-loop artificial intelligence (CITL-AI) system to improve the accuracy and efficiency of abnormal cervical squamous cell detection in cervical cancer screening. The artificial intelligence (AI) system was developed using 8000 digitalized whole slide images, including 5713 negative and 2287 positive cases. External validation was performed using an independent, multicenter, real-world data set of 3514 women, who were screened for cervical cancer between 2021 and 2022. Each slide was assessed using the AI system, which generated risk scores. These scores were then used to optimize the triaging of true negative cases. The remaining slides were interpreted by cytologists who had varying degrees of experience and were categorized as either junior or senior specialists. Stand-alone AI had a sensitivity of 89.4% and a specificity of 66.4%. These data points were used to establish the lowest AI-based risk score (ie, 0.35) to optimize the triage configuration. A total of 1319 slides were triaged without missing any abnormal squamous cases. This also reduced the cytology workload by 37.5%. Reader analysis found CITL-AI had superior sensitivity and specificity compared with junior cytologists (81.6% vs 53.1% and 78.9% vs 66.2%, respectively; both with P < .001). For senior cytologists, CITL-AI specificity increased slightly from 89.9% to 91.5% (P = .029); however, sensitivity did not significantly increase (P = .450). Therefore, CITL-AI could reduce cytologists' workload by more than one-third while simultaneously improving diagnostic accuracy, especially compared with less experienced cytologists. This approach could improve the accuracy and efficiency of abnormal cervical squamous cell detection in cervical cancer screening programs worldwide.
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