Abstract
RATIONALE AND OBJECTIVES: Analysis of dynamic contrast-enhanced (DCE) magnetic resonance imaging is notable for the variability of calculated parameters. The purpose of this study was to evaluate the level of measurement variability and error/variability due to modeling in DCE magnetic resonance imaging parameters. MATERIALS AND METHODS: Two prostate DCE scans were performed on 11 treatment-naïve patients with suspected or confirmed prostate peripheral zone cancer within an interval of less than two weeks. Tumor-suspicious and normal-appearing regions of interest (ROI) in the prostate peripheral zone were segmented. Different Tofts-Kety based models and different arterial input functions, with and without bolus arrival time (BAT) correction, were used to extract pharmacokinetic parameters. The percent repeatability coefficient (%RC) of fitted model parameters K(trans), v(e), and k(ep) was calculated. Paired t-tests comparing parameters in tumor-suspicious ROIs and in normal-appearing tissue evaluated each parameter's sensitivity to pathology. RESULTS: Although goodness-of-fit criteria favored the four-parameter extended Tofts-Kety model with the BAT correction included, the simplest two-parameter Tofts-Kety model overall yielded the best repeatability scores. The best %RC in the tumor-suspicious ROI was 63% for k(ep), 28% for v(e)(,) and 83% for K(trans) . The best p values for discrimination between tissues were p <10(-5) for k(ep) and K(trans), and p = 0.11 for v(e). Addition of the BAT correction to the models did not improve repeatability. CONCLUSION: The parameter k(ep), using an arterial input functions directly measured from blood signals, was more repeatable than K(trans). Both K(trans) and k(ep) values were highly discriminatory between healthy and diseased tissues in all cases. The parameter v(e) had high repeatability but could not distinguish the two tissue types.