Simple Summary Diagnosing ovarian cancer (OC) accurately helps triage patients to receive anticancer treatment and appropriate cancer surgery. We conducted a systematic review and meta-analysis evaluating models combining clinical information,… Click to show full abstract
Simple Summary Diagnosing ovarian cancer (OC) accurately helps triage patients to receive anticancer treatment and appropriate cancer surgery. We conducted a systematic review and meta-analysis evaluating models combining clinical information, biomarkers, and ultrasound to identify the most accurate test. Our review investigated 58 studies (30,121 patients, 9061 OC cases) and compared the standard of care test in the UK, Risk of Malignancy index I (RMI I) against risk of ovarian malignancy (ROMA) and Assessment of Different NEoplasias in the adnexa (ADNEX). Compared to RMI I, in pre-menopausal women, ROMA and ADNEX identified more cancers correctly (increased sensitivity) but increased the number of women classified as having cancer when they did not have cancer (reduced specificity). In post-menopausal women, ROMA identified more cancers than RMI I with similar specificity, whilst ADNEX identified the most cancers overall but with least specificity. Consideration should be given as to whether RMI I should be replaced by ROMA or ADNEX as the standard of care test for OC. Abstract Background: Ovarian cancer (OC) is a diagnostic challenge, with the majority diagnosed at late stages. Existing systematic reviews of diagnostic models either use inappropriate meta-analytic methods or do not conduct statistical comparisons of models or stratify test performance by menopausal status. Methods: We searched CENTRAL, MEDLINE, EMBASE, CINAHL, CDSR, DARE, Health Technology Assessment Database and SCI Science Citation Index, trials registers, conference proceedings from 1991 to June 2019. Cochrane collaboration review methods included QUADAS-2 quality assessment and meta-analysis using hierarchical modelling. RMI, ROMA or ADNEX at any test positivity threshold were investigated. Histology or clinical follow-up was the reference standard. We excluded screening studies, studies restricted to pregnancy, recurrent or metastatic OC. 2 × 2 diagnostic tables were extracted separately for pre- and post-menopausal women. Results: We included 58 studies (30,121 patients, 9061 cases of ovarian cancer). Prevalence of OC ranged from 16 to 55% in studies. For premenopausal women, ROMA at a threshold of 13.1 (+/−2) and ADNEX at a threshold of 10% demonstrated significantly higher sensitivity compared to RMI I at 200 (p < 0.0001) 77.8 (72.5, 82.4), 94.9 (92.5, 96.6), and 57.1% (50.6 to 63.4) but lower specificity (p < 0.002), 92.5 (90.0, 94.4), 84.3 (81.3, 86.8), and 78.2 (75.8, 80.4). For postmenopausal women, ROMA at a threshold of 27.7 (+/−2) and AdNEX at a threshold of 10% demonstrated significantly higher sensitivity compared to RMI I at a threshold of 200 (p < 0.001) 90.4 (87.4, 92.7), 97.6 (96.2, 98.5), and 78.7 (74.3, 82.5), specificity of ROMA was comparable, whilst ADneX was lower, 85.5 (81.3, 88.9), 81.3 (76.9, 85.0) (p = 0.155), compared to RMI 55.2 (51.2, 59.1) (p < 0.001). Conclusions: In pre-menopausal women, ROMA and ADNEX offer significantly higher sensitivity but significantly decreased specificity. In post-menopausal women, ROMA demonstrates significantly higher sensitivity and comparable specificity to RMI I, ADNEX has the highest sensitivity of all models, but with significantly reduced specificity. RMI I has poor sensitivity compared to ROMA or ADNEX. Choice between ROMA and ADNEX as a replacement test will depend on cost effectiveness and resource implications.
               
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