5195525 Noninvasive myocardial motion analysis using phase contrast MRI maps of myocardial velocity

## Abstract Approximately half of patients experiencing congestive heart failure present with a normal left ventricular ejection fraction. Perturbations in material properties affecting ventricular pressure/volume relationships likely play an important role in the “stiff heart syndrome” yet noninva

## Abstract ## Purpose To develop a fast and highly automated method for calculating two‐dimensional myocardial motion and deformation using velocity encoded magnetic resonance imaging. ## Materials and Methods Two‐dimensional phase contrast magnetic resonance imaging was used to acquire time re

## Abstract The objectives of this study were to develop a method for quantifying myocardial __K__~1~ and blood flow (MBF) with minimal operator interaction by using a Patlak plot method and to compare the MBF obtained by perfusion MRI with that from coronary sinus blood flow in the resting state.

An automated method was evaluated to detect blood flow in small pulmonary arteries and classify each as artery or vein, based on a temporal correlation analysis of their blood-flow velocity patterns. The method was evaluated using velocity-sensitive phase-contrast magnetic resonance data collected i

## Abstract ## Purpose To develop fast and robust procedures for a clinical evaluation of regional myocardial contractile function. ## Materials and Methods Parametric analysis of main motion was applied to steady‐state free‐precession (SSFP) cine MR images. From the time–signal intensity curve