2-DIMENSIONAL TIME-OF-FLIGHT MR VENOGRAPHY - ASSESSMENT WITH DETECTION OF CHRONIC DEEP VENOUS THROMBOSIS IN COMBINATION WITH MAGNETIZATION-TRANSFER CONTRAST

Purpose: The purpose of this study was to determine the optimum imagin g parameters for 2D-TOF MR venography (MRV) of the pelvis and suprapop liteal deep venous system in combination with off-resonance magnetizat ion transfer constant (MTC) and to evaluate the use of MRV in patients suspected of having chronic deep venous thrombosis (DVT) by comparing its accuracy with that of conventional venography (CV). Method: MRV w as performed in 10 normal subjects to determine the optimum imaging pa rameters. Systematically varied scan parameters included flip angles r anging from 30 to 120 degrees by 10 degrees increments. Best TR was ca lculated by using the theoretical relation between the optimal TR and flow velocity. We then evaluated the use of MRV in 26 patients (total 52 deep venous systems) suspected of having chronic DVT by comparing i ts accuracy in evaluating the intrapelvic and suprapopliteal deep veno us system with that of CV. Results: The optimal imaging parameters for intrapelvic and suprapopliteal venous system MRV were found to be a f lip angle of 60 degrees and a pulse sequence of 35/6.9 (TR ms/TE ms) c ombined with an off-resonance MTC technique. All the main veins of the intrapelvic and suprapopliteal venous systems were clearly demonstrat ed in each subject. The sensitivity of MRV was 100% and its specificit y was 100% for diagnosis of pelvic venous stenosis. The collateral ves sels were demonstrated with MRV in all patients. Conclusion: 2D-TOF of f-resonance MTC MRV of the pelvis and the suprapopliteal lower extremi ties is suitable for evaluation of intrapelvic branches and suprapopli teal deep venous system and chronic DVT.