Improving estimation of the volume under the ROC surface when data are missing not at random

06/20/2019
by   Duc Khanh To, et al.
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In this paper, we propose a mean score equation-based approach to estimate the the volume under the receiving operating characteristic (ROC) surface (VUS) of a diagnostic test, under nonignorable (NI) verification bias. The proposed approach involves a parametric regression model for the verification process, which accommodates for possible NI missingness in the disease status of sample subjects, and may use instrumental variables, which help avoid possible identifiability problems. In order to solve the mean score equation derived by the chosen verification model, we preliminarily need to estimate the parameters of a model for the disease process, but its specification is required only for verified subjects under study. Then, by using the estimated verification and disease probabilities, we obtain four verification bias-corrected VUS estimators, which are alternative to those recently proposed by To Duc et al. (2019), based on a full likelihood approach. Consistency and asymptotic normality of the new estimators are established. Simulation experiments are conducted to evaluate their finite sample performances, and an application to a dataset from a research on epithelial ovarian cancer is presented.

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