Pulmonary CE-MR angiography and perfusion imaging

## Abstract The purpose of this study was to evaluate the feasibility of comprehensive magnetic resonance (MR) assessment of pulmonary perfusion and ventilation in patients. Both oxygen‐enhanced ventilation MR images and first‐pass contrast‐enhanced perfusion MR images were obtained in 16 patients

## Abstract Diffusion‐weighted images of the rat brain were obtained using the pulsed‐gradient spinecho method. An attempt was made to extract perfusion‐related parameters from signal intensity data taken from the caudate‐putamen region of the images, by using a nonlinear least‐squares calculation

## Abstract Initial evaluation of a new blood pool agent, B‐22956/1, for pulmonary imaging was performed in five domestic pigs with artificial embolism. Pre‐embolism 3D pulmonary perfusion images were first acquired by injecting an extravascular agent, gadoteridol. The pulmonary arteries of the pig

## Abstract The purpose of this study was to present the prebolus technique for quantitative multislice myocardial perfusion imaging. In quantitative MR perfusion studies the maximum contrast agent dose is limited by the requirement to determine the arterial input function (AIF). The prebolus techn

## Abstract ## Purpose To prospectively evaluate the technical feasibility and relative performance of pulmonary time‐resolved MR angiography (MRA) and pulmonary artery (PA) flow quantification at 3.0T vs. 1.5T. ## Materials and Methods Time‐resolved contrast‐enhanced (CE) MRA of the pulmonary c