Empirical Bayesian estimation in graphical analysis: a voxel-based approach for the determination of the volume of distribution in PET studies

IntroductionTotal volume of distribution (VT) determined by graphical analysis (GA) of PET data suffers from a noise-dependent bias. Likelihood estimation in GA (LEGA) eliminates this bias at the region of interest (ROI) level, but at voxel noise levels, the variance of estimators is high, yielding noisy images. We hypothesized that incorporating LEGA VT estimation in a Bayesian framework would shrink estimators towards prior means, reducing variability and producing meaningful and useful voxel images.MethodsEmpirical Bayesian estimation in GA (EBEGA) determines prior distributions using a two-step k-means clustering of voxel activity. Results obtained on eight [11C]-DASB studies are compared with estimators computed by ROI-based LEGA.ResultsEBEGA reproduces the results obtained by ROI LEGA while providing low-variability VT images. Correlation coefficients between average EBEGA VT and corresponding ROI LEGA VT range from 0.963 to 0.994.ConclusionsEBEGA is a fully automatic and general approach that can be applied to voxel-level VT image creation and to any modeling strategy to reduce voxel-level estimation variability without prefiltering of the PET data.