Theoretical limits of spatial resolution in elliptical-centric contrast-enhanced 3D-MRA

## Abstract The elliptical centric (EC) view order samples a 3DFT acquisition from the center of __k__‐space outward, and when applied to contrast‐enhanced MR angiography (CE‐MRA) provides intrinsic venous suppression. This is because the veins enhance several seconds after the scan is initiated, a

The dependence of venous suppression on the acquisition field of view (FOV) in elliptical centric 3D contrast-enhanced magnetic resonance angiography (CE-MRA) is studied theoretically and experimentally. It is hypothesized that a reduced FOV in an arterial phase acquisition results in improved venou

## Abstract The relative signal‐to‐noise ratio (SNR) provided by 2D sensitivity encoding (SENSE) when applied to 3D contrast‐enhanced MR angiography (CE‐MRA) is studied. If an elliptical centric phase‐encoding order is used to map the waning magnetization of the contrast bolus to __k__‐space, the a

## Abstract ## Purpose To evaluate the feasibility of low‐dose, 3D time‐resolved contrast‐enhanced magnetic resonance angiography (TR‐CEMRA) in the assessment of the supraaortic vessel, and to compare the results with high‐resolution contrast‐enhanced MRA (HR‐CEMRA). ## Materials and Methods Thi

## Abstract ## Purpose: To assess the effect of attaining higher spatial resolution in contrast‐enhanced magnetic resonance angiography (MRA) of renal arteries using parallel imaging, sensitivity encoding (SENSE), by comparing the SENSE contrast‐enhanced (CE) MRA against a conventional CE‐MRA prot

## Abstract ## Purpose To determine whether three‐dimensional (3D) contrast‐enhanced MR angiography (CE‐MRA) of carotid artery disease may be more effective when performed at double or triple the spatial resolution of the present common clinical standard at 1.5T. ## Materials and Methods A total