Rotating frame relaxation imaging of prostate cancer: Repeatability, cancer detection, and Gleason score prediction

Abstract

Purpose To investigate relaxation along a fictitious field (RAFF) and continuous wave (cw) T1ρ imaging of prostate cancer (PCA) in the terms of repeatability, PCA detection, and characterization. Methods Thirty-six patients (PSA 11.6 ± 7.6 ng/mL, mean ± standard deviation) with histologically confirmed PCA underwent two repeated 3T MR examinations using surface array coils before prostatectomy. Relaxation along fictitious field, cw T1ρ, and T2 relaxation times (TRAFF, T1ρcw, T2) were measured and averaged over regions of interest placed in PCA, normal peripheral zone (PZ), and normal central gland (CG) positioned using whole-mount prostatectomy sections and anatomical T2-weighted images. Receiver operating characteristic curve analysis with area under the curve (AUC) was calculated to distinguish PCA from PZ/CG and PCA with Gleason score (GS) of 3+3 from GS of 3+4/≥3+4. Results TRAFF and T1ρcw relaxation times were repeatable with coefficients of repeatability as a percentage of median value in the range of 7.8-23.2%. AUC (mean, 95% confidence interval) in the differentiation of PCA with GS of 3+3 from PCA with CS of ≥3+4 were 0.88 (0.72-0.99), 0.69 (0.46-0.90), and 0.68 (0.45-0.88), for TRAFF, T1ρcw, and T2, respectively. Conclusion In quantitative region of interest based analysis, TRAFF outperformed T1ρcw and T2 in PCA detection and characterization.