Abstract
PURPOSE: To evaluate biexponential T(2) relaxation mapping of human knee cartilage in vivo in clinically feasible scan times. MATERIALS AND METHODS: T(2) -weighted magnetic resonance (MR) images were acquired from eight healthy volunteers using a standard 3T clinical scanner. A 3D Turbo-Flash sequence was modified to enable T(2) -weighted imaging with different echo times. Series of T(2) -weighted images were fitted using mono- and biexponential models with two- and four-parametric nonlinear approaches, respectively. RESULTS: Biexponential relaxation of T(2) was detected in the knee cartilage in five regions of interest in all eight healthy volunteers. Short/long relaxation components of T(2) were estimated to be 8.27 ± 0.68 / 45.35 ± 3.79 msec with corresponding fractions of 41.3 ± 1.1% / 58.6 ± 4.6%, respectively. The monoexponential relaxation of T(2) was measured to be 26.9 ± 2.27 msec. The experiments showed good repeatability with coefficient of variation root mean square (CV(rms) ) < 18% in all regions. The only difference in gender was observed in medial tibial cartilage, where the biexponential T(2) in female volunteers was significantly higher compared to male volunteers (P = 0.014). Significant differences were observed in T(2) relaxation between different regions on interest. CONCLUSION: Biexponential relaxation of T(2) was observed in the human knee cartilage in vivo. The short and long components are thought to be related to the tightly bound and loosely bound macromolecular water compartments. These preliminary results of biexponential T(2) analysis could potentially be used to increase the specificity for detection of early osteoarthritis by measuring different water compartments and their fractions. LEVEL OF EVIDENCE: 1 Technical Efficacy: Stage 1 J. Magn. Reson. Imaging 2018;47:809-819.