Cho Yoosun, Park Eun Kyung, Chang Yoosoo, Kwon Mi-Ri, Kim Eun Young, Kim Minjeong, Park Boyoung, Lee Sanghyup, Jeong Han Eol, Kim Ki Hwan, Kim Tae Soo, Lee Hyeonsoo, Kwon Ria, Lim Ga-Young, Choi JunHyeok, Kook Shin Ho, Ryu Seungho
Center for Cohort Studies, Total Healthcare Center, Kangbuk Samsung Hospital, Sungkyunkwan University School of Medicine, Seoul, Republic of Korea.
Department of Family Medicine, Chung-Ang University Gwangmyeong Hospital, Chung-Ang University College of Medicine, Gwangmyeong, South Korea.
Breast Cancer Res Treat. 2025 Feb;210(1):105-114. doi: 10.1007/s10549-024-07541-1. Epub 2024 Nov 1.
To examine the discrepancy in breast density assessments by radiologists, LIBRA software, and AI algorithm and their association with breast cancer risk.
Among 74,610 Korean women aged ≥ 34 years, who underwent screening mammography, density estimates obtained from both LIBRA and the AI algorithm were compared to radiologists using BI-RADS density categories (A-D, designating C and D as dense breasts). The breast cancer risks were compared according to concordant or discordant dense breasts identified by radiologists, LIBRA, and AI. Cox-proportional hazards models were used to determine adjusted hazard ratios (aHRs) [95% confidence intervals (CIs)].
During a median follow-up of 9.9 years, 479 breast cancer cases developed. Compared to the reference non-dense breast group, the aHRs (95% CIs) for breast cancer were 2.37 (1.68-3.36) for radiologist-classified dense breasts, 1.30 (1.05-1.62) for LIBRA, and 2.55 (1.84-3.56) for AI. For different combinations of breast density assessment, aHRs (95% CI) for breast cancer were 2.40 (1.69-3.41) for radiologist-dense/LIBRA-non-dense, 11.99 (1.64-87.62) for radiologist-non-dense/LIBRA-dense, and 2.99 (1.99-4.50) for both dense breasts, compared to concordant non-dense breasts. Similar trends were observed with radiologists/AI classification: the aHRs (95% CI) were 1.79 (1.02-3.12) for radiologist-dense/AI-non-dense, 2.43 (1.24-4.78) for radiologist-non-dense/AI-dense, and 3.23 (2.15-4.86) for both dense breasts.
The risk of breast cancer was highest in concordant dense breasts. Discordant dense breast cases also had a significantly higher risk of breast cancer, especially when identified as dense by either AI or LIBRA, but not radiologists, compared to concordant non-dense breast cases.
研究放射科医生、LIBRA软件和人工智能算法在乳腺密度评估上的差异及其与乳腺癌风险的关联。
在74610名年龄≥34岁接受乳腺钼靶筛查的韩国女性中,将LIBRA和人工智能算法得出的密度估计值与放射科医生使用BI-RADS密度分类(A-D,将C和D指定为致密型乳腺)的评估结果进行比较。根据放射科医生、LIBRA和人工智能识别出的致密型乳腺是否一致,比较乳腺癌风险。采用Cox比例风险模型确定调整后的风险比(aHRs)[95%置信区间(CIs)]。
在中位随访9.9年期间,发生了479例乳腺癌病例。与参考的非致密型乳腺组相比,放射科医生分类的致密型乳腺的乳腺癌aHRs(95%CI)为2.37(1.68-3.36),LIBRA为1.30(1.05-1.62),人工智能为2.55(1.84-3.56)。对于不同的乳腺密度评估组合,与一致的非致密型乳腺相比,放射科医生判断为致密/LIBRA判断为非致密的乳腺癌aHRs(95%CI)为2.40(1.69-3.41),放射科医生判断为非致密/LIBRA判断为致密的为11.99(1.64-87.62),两者均判断为致密的为2.99(1.99-4.50)。放射科医生/人工智能分类也观察到类似趋势:放射科医生判断为致密/人工智能判断为非致密的aHRs(95%CI)为1.79(1.02-3.12),放射科医生判断为非致密/人工智能判断为致密的为2.43(1.24-4.78),两者均判断为致密的为3.23(2.15-4.86)。
一致的致密型乳腺患乳腺癌的风险最高。不一致的致密型乳腺病例患乳腺癌的风险也显著更高,特别是当被人工智能或LIBRA判断为致密,但未被放射科医生判断为致密时,与一致的非致密型乳腺病例相比。
