Encoding to the longitudinal magnetization for MR imaging and flow velocity mapping

## Abstract This article presents a two‐dimensional velocity‐selective spin excitation (2D‐VSP) method that enables quantitative imaging of motion in two directions in a single scan, without the need for image subtraction or combination. It is based on the idea of mapping a 2D velocity vector direc

## Abstract ## Purpose To test the agreement between conventional and sensitivity‐encoded (SENSE) velocity encoded cine (VEC) MRI in a flow phantom and in subjects with congenital and acquired heart disease. ## Materials and Methods Flow measurements were performed in a 1.5 T scanner using a seg

## Abstract Magnetic reaonance velocity vector mapping was used to study flow patterns in dilated and healthy left ventricles. Eleven patients (age mean ± SD, 67 ± 12 yeare) with dilated left ventricle resulting from coronary artery diclease and 10 healthy volunteers (age 50 ± 9) were studied. Cine

## Abstract ## Purpose To evaluate differences in velocity and flow measurements in the aorta between accelerated phase‐contrast (PC) magnetic resonance imaging (MRI) using SENSE and k‐t BLAST and in peak velocity to Doppler ultrasound. ## Materials and Methods Two‐dimensional PC‐MRI perpendicul

## Objective Evaluation of three directional three-dimensional velocity-encoded MRI (3D VE-MRI) with retrospective valve tracking to assess forward and backward flow over the pulmonary valve (PV) and tricuspid valve (TV), and to assess diastolic function in corrected Tetralogy of Fallot (cToF) pat