Meta-analysis of receiver operating characteristic (ROC)-curve data is often done with fixed-effects models, which suffer many shortcomings. Some random-effects models have been proposed to execute a meta-analysis of ROC-curve data, but these models are not often used in practice. Straightforward modeling techniques for multivariate random-effects meta-analysis of ROC-curve data are needed. The 1st aim of this article is to present a practical method that addresses the drawbacks of the fixedeffects summary ROC (SROC) method of Littenberg and Moses. Sensitivities and specificities are analyzed simultaneously using a bivariate random-effects model. The 2nd aim is to show that other SROC curves can also be derived from the bivariate model through different characterizations of the estimated bivariate normal distribution. Thereby the authors show that the bivariate random-effects approach not only extends the SROC approach but also provides a unifying framework for other approaches. The authors bring the statistical meta-analysis of ROC-curve data back into a framework of relatively standard multivariate meta-analysis with random effects. The analyses were carried out using the software package SAS (Proc NLMIXED).

Additional Metadata
Keywords Diagnostic tests, Meta-analysis, Multivariate random effects models, Receiver operating characteristic (ROC) analysis, Sensitivity, Specificity, article, bivariate analysis, diagnostic test, meta analysis, receiver operating characteristic, sensitivity and specificity, theoretical model
Persistent URL dx.doi.org/10.1177/0272989X08319957, hdl.handle.net/1765/14905
Citation
Arends, L.R, Hamza, T.H, van Houwelingen, J.C, Heijenbrok-Kal, M.H, Hunink, M.G.M, & Stijnen, Th. (2008). Bivariate random effects meta-analysis of ROC curves. Medical Decision Making: an international journal, 28(5), 621–638. doi:10.1177/0272989X08319957