整合 CA125 轨迹、轨迹特异性进展和经阴道超声的卵巢癌风险分层 CA125 筛查。

IF 3.8 3区 医学 Q1 REPRODUCTIVE BIOLOGY Journal of Ovarian Research Pub Date : 2024-10-26 DOI:10.1186/s13048-024-01535-9
Hongyuan Duan, Xiaomin Liu, Yu Zhang, Ya Liu, Yuting Ji, Yunmeng Zhang, Zeyu Fan, Siwen Liu, Lei Yang, Tingting Xu, Jing Tian, Weiqin Li, Zhangyan Lyu, Fangfang Song, Fengju Song, Yubei Huang
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引用次数: 0

摘要

背景:癌症抗原125(CA125)被广泛用于筛查卵巢癌(OC),但其有效性仍存在争议。潜在的因素可能包括筛查中 CA125 的临界值无效,以及缺乏对 CA125 轨迹和特定轨迹进展的考虑:根据PLCO试验中对28456名妇女进行的多轮CA125检测和经阴道超声(TVU)检查的数据,采用时间依赖性受体操作特征曲线(ROC)和曲线下面积(tdAUC)分析来确定OC筛查的最佳CA125临界值。参与者被分为四种 CA125 轨迹:稳定的阴性 CA125(CA125SN)、阳性 CA125 消失(CA125LP)、稳定的阳性 CA125(CA125SP)和阳性 CA125 增高(CA125GP)。研究探讨了不同 CA125 轨迹、轨迹特异性进展指标和 OC 风险之间的关联。采用危险比和95%置信区间[HR (95%CIs)]评估了结合CA125轨迹、轨迹特异性进展和TVU的风险分层CA125筛查的有效性,并对潜在的混杂因素进行了调整:OC发病率的中位随访时间为14.8年,OC死亡率的中位随访时间为23.8年,共发现250例OC病例和218例OC死亡病例。CA125的10年OC发病率tdAUC为0.663,最佳临界值为13.00 U/ml。轨迹分析显示,与 CA125SN 相比,CA125SP 和 CA125GP 与 OC 发病率[HRs(95%CIs):2.00(1.47-2.73)和 3.06(2.25-4.16)]和死亡率[HRs(95%CIs):1.58(1.13-2.21)和 2.60(1.87-3.62)]风险的增加显著相关。轨迹特异性进展分析确定相对速度是 CA125SP 和 CA125GP 的最佳进展指标(tdAUCs:0.712 和 0.767),最佳临界值分别为每年 9% 和 32%。与阴性进展相比,阳性进展与 OC 发病率[HRs(95%CI):7.26(4.00-13.17)和 3.83(1.96-7.51)CA125GP 和 CA125SP]和死亡率[HRs(95%CI):8.03(4.15-15.56)和 6.04(2.78-13.14)]风险显著增加相关。优化的风险分级CA125筛查整合了CA125轨迹、轨迹特异性进展和TVU,与传统筛查方法相比,可减少3.6%的漏诊OC,并提高了准确性:结论:将 CA125 轨迹和轨迹特异性进展纳入筛查方案可提高对 OC 高危人群的识别率。建议采用包含这些因素和 TVU 的优化筛查策略,以提高 OC 筛查的有效性。
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Risk-stratified CA125 screening integrating CA125 trajectories, trajectory-specific progression and transvaginal ultrasound for ovarian cancer.

Backgrounds: Cancer antigen 125 (CA125) is widely used for screening ovarian cancer (OC), yet its effectiveness remains debated. Potential factors may include ineffective cut-off value for CA125 in screening, as well as a lack of consideration for CA125 trajectories and trajectory-specific progression.

Methods: Based on data from multiple rounds of CA125 tests and transvaginal ultrasound (TVU) examinations conducted on 28,456 women in the PLCO Trial, time-dependent receiver-operating-characteristic curves (ROCs) and area-under-the-curves (tdAUCs) analyses were employed to identify the optimal CA125 cut-off values for OC screening. Participants were categorized into four CA125 trajectories: stable negative CA125 (CA125SN), loss of positive CA125 (CA125LP), stable positive CA125 (CA125SP), and gain of positive CA125 (CA125GP). The associations between different CA125 trajectories, trajectory-specific progression indicators, and OC risk were explored. The effectiveness of risk-stratified CA125 screening, incorporating CA125 trajectories, trajectory-specific progression, and TVU, was evaluated using hazard ratio and 95% confidence intervals [HR (95%CIs)], with adjustments for potential confounders.

Results: After a median follow-up of 14.8 years for OC incidence and 23.8 years for OC mortality, 250 OC cases and 218 OC deaths were identified. The tdAUC for 10-year OC incidence with CA125 was 0.663, with an optimal cut-off value of 13.00 U/ml. Trajectory analyses showed that both CA125SP and CA125GP were significantly associated with increased risks of OC incidence [HRs (95%CIs): 2.00(1.47-2.73) and 3.06(2.25-4.16)] and mortality [HRs (95%CIs):1.58(1.13-2.21) and 2.60(1.87-3.62)] compared to CA125SN. Trajectory-specific progression analyses identified relative velocity as the optimal progression indicators for both CA125SP and CA125GP (tdAUCs: 0.712 and 0.767), with optimal cut-off values of 9% and 32% per year, respectively. Positive progression was associated with significantly increased risks of OC incidence [HRs (95%CI): 7.26(4.00-13.17) and 3.83(1.96-7.51) CA125GP and CA125SP] and mortality [HRs (95%CI): 8.03(4.15-15.56) and 6.04(2.78-13.14)] compared to negative progression. Optimized risk-stratified CA125 screening, which integrated CA125 trajectories, trajectory-specific progression, and TVU, reduced missed OC by 3.6% and improved accuracy compared to traditional screening methods.

Conclusions: Incorporating CA125 trajectories and trajectory-specific progression into screening protocols enhances the identification of the population at high-risk of OC. An optimized screening strategy, which includes these factors along with TVU, is recommended to improve the effectiveness of OC screening.

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来源期刊
Journal of Ovarian Research
Journal of Ovarian Research REPRODUCTIVE BIOLOGY-
CiteScore
6.20
自引率
2.50%
发文量
125
审稿时长
>12 weeks
期刊介绍: Journal of Ovarian Research is an open access, peer reviewed, online journal that aims to provide a forum for high-quality basic and clinical research on ovarian function, abnormalities, and cancer. The journal focuses on research that provides new insights into ovarian functions as well as prevention and treatment of diseases afflicting the organ. Topical areas include, but are not restricted to: Ovary development, hormone secretion and regulation Follicle growth and ovulation Infertility and Polycystic ovarian syndrome Regulation of pituitary and other biological functions by ovarian hormones Ovarian cancer, its prevention, diagnosis and treatment Drug development and screening Role of stem cells in ovary development and function.
期刊最新文献
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