Three-dimensional MR angiography in imaging platinum alloy stents

## Abstract For a variety of reasons, small vessels have low signal Intensity in magnetic resonance angiography. When the vessel signal intensity is lower than the signal intensity of background tissues, these vessels tend not to be visible on maximum‐intensity‐projection images. The authors develo

This article replaces the version that appeared on pp 151-157 of the March/April issue of JMRI. The article is being reprinted in its entirety because of a problem with the quality of Figures 1. 3. and 4 as printed. The publisher regrets the error. l n d u t-Contrast enhancement \* Image nltering -I

A fast MR pulse sequence with spiral in-plane readout and conventional 3D partition encoding was developed for multiphase contrast-enhanced magnetic resonance angiography (CE-MRA) of the renal vasculature. Compared to a standard multiphase 3D CE-MRA with FLASH readout, an isotropic in-plane spatial

## Abstract ## Purpose To determine the efficacy of the combined use of magnetic resonance (MR) imaging, MR cholangiography (MRC), and MR angiography (MRA) in the preoperative evaluation of gallbladder carcinoma. ## Materials and Methods During a 20‐month period, 41 patients with proven gallblad

Three-dimensional (3D) keyhole magnetic resonance (MR) imaging has been proposed as a means of providing dynamic monitoring of contrast agent uptake by breast lesions. with complete breast coverage and high spatial and temporal resolution. The 3D keyhole technique dynamically samples the central reg

## Abstract We demonstrate that magnetization transfer contrast can be used to improve the diagnostic utility of fat‐suppressed steady‐state three‐dimensional gradient‐recalled images. Fat suppression is achieved using a “jump‐return” pair of contiguous shaped pulses. No time interval exists betwee