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This study is designed to demonstrate the promise of navigator gated, susceptibility weighted fast spin-echo imaging in conjunction with ventricular blood suppression for anatomically accurate T2*-mapping of the heart. First results of phantom and volunteer studies demonstrate the geometrical integrity and high image quality obtained with UFLARE - even for strong T2*-weighting at 1.5T and 3.0T. T2*-mapping using UFLARE yielded mean T2* values for the inferoseptal myocardium of 29.96.6 ms at 1.5T and 22.34.8 ms at 3.0T. The results derived with susceptibility weighted UFLARE promise to extend the capabilities of CVMR including mapping and quantification of myocardial iron content.
As high-field cardiac MRI becomes more widespread the propensity of ECG recordings to interference from electromagnetic fields increases and with it the motivation for a practical gating/triggering alternative. This study explores the feasibility, efficacy and reliability of acoustic cardiac triggering (ACT) for 2D CINE SSFP imaging at 1.5 T and 3.0 T including left ventricular function and endocardial border sharpness assessment. The MR stethoscopes intrinsic insensitivity to interference with electro-magnetic fields and hydro-dynamic effects renders it suitable for assessment of global cardiac function due to its excellent trigger reliability even at high magnetic field strengths.
