Transformer-based AI technology improves early ovarian cancer diagnosis using cfDNA methylation markers

Gen Li(Guangzhou Women and Children Medical Center), Yongqiang Zhang(Guangzhou Women and Children Medical Center), Kun Li(Guangzhou Women and Children Medical Center), Xiaohong Liu(University of Macau), Yaping Lu(China National Pharmaceutical Group Corporation (China)), Zhenlin Zhang(University of Macau), Zhihai Liu(Guangzhou Women and Children Medical Center), Yong Wu(First Affiliated Hospital of Jinan University), Fei Liu(Chinese Academy of Medical Sciences & Peking Union Medical College), Hong Huang(Guangzhou Women and Children Medical Center), Meixing Yu(Guangzhou Women and Children Medical Center), Yang Zhao(Guangzhou Women and Children Medical Center), Xiaoxue Zheng(Guangzhou Women and Children Medical Center), Chengbin Guo(Guangzhou Women and Children Medical Center), Yuanxu Gao(University of Macau), Taorui Wang(University of Macau), Manson Fok(University of Macau), Johnson Yiu‐Nam Lau(Hong Kong Baptist University), Kun Shi(Guangzhou Women and Children Medical Center), Xiaoqiong Gu(Guangzhou Women and Children Medical Center), Lingchuan Guo(Soochow University), Hui Luo(Sun Yat-sen University), Fanxin Zeng(Dazhou Central Hospital), Kang Zhang(University of Macau)
Cell Reports Medicine
August 1, 2024
10.1016/j.xcrm.2024.101666
Cited by 24Open Access
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Abstract

Epithelial ovarian cancer (EOC) is the deadliest women's cancer and has a poor prognosis. Early detection is the key for improving survival (a 5-year survival rate in stage I/II is over 70% compared to that of 25% in stage III/IV) and can be achieved through methylation markers from circulating cell-free DNA (cfDNA) using a liquid biopsy. In this study, we first identify top 500 EOC markers differentiating EOC from healthy female controls from 3.3 million methylome-wide CpG sites and validated them in 1,800 independent cfDNA samples. We then utilize a pretrained AI transformer system called MethylBERT to develop an EOC diagnostic model which achieves 80% sensitivity and 95% specificity in early-stage EOC diagnosis. We next develop a simple digital droplet PCR (ddPCR) assay which archives good performance, facilitating early EOC detection.

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