Magnetization-prepared cardiac imaging using gradient echo acquisition

## Abstract A technique for estimation of the longitudinal relaxation time of a large homogeneous object with an acquisition time of 4s or less was developed by combining spatially selective rf tagging pulses with a T1‐weighted magnetization‐prepared gradient‐echo sequence. Multiple 5‐mm‐wide tagge

## Abstract 3D magnetization‐prepared fast gradient echo MR sequences, such as MP‐RAGE and IR‐SPGR, provide good spatial resolution and gray‐white contrast. The efficiency and image quality of these techniques can be further improved with an interleaved, recessed elliptical centric view order. It i

## Abstract A technique for rapid assessment of tissue motion was developed by combining spatially selective radio‐frequency tagging pulses with centric phase‐encoding view ordering in a T1‐weighted, magnetization‐prepared gradient‐echo acquisition sequence. This sequence allowed labeling and track

This study investigates the use of real-time acquisition in cardiac magnetic resonance imaging (MRI) for measurements of left ventricular dimensions in comparison with conventional gradient echo acquisition. Thirty-one subjects with a variety of left ventricular morphologies to represent a typical c

## Abstract The incorporation of the phase offset multiplanar (Pomp) technique into breathheld magnetization‐prepared gradient echo imaging is discussed as a means for improving imaging efficiency without sacrificing resolution. contrast, or SNR improvement. The phase encoding order necessary to pr