Single-point Dixon water-fat imaging using 64-channel single-echo acquisition MRI

## Abstract ## Purpose To develop a single‐point Dixon (SPD) technique that requires only data of a single echo with a flexible echo time, and to demonstrate its use for fat‐suppressed, T1‐weighted contrast agent enhancement studies. ## Materials and Methods Raw data were collected using a produ

## Abstract ## Purpose: To develop a robust 3D fast spin echo (FSE) T~2~‐weighted imaging method with uniform water and fat separation in a single acquisition, amenable to high‐quality multiplanar reformations. ## Materials and Methods: The Iterative Decomposition of water and fat with Echo Asym

## Abstract Phase detection in fully refocused SSFP imaging has recently allowed fat/water separation without preparing the magnetization or using multiple acquisitions. Instead, it exploits the phase difference between fat and water at an echo time at the midpoint of the TR. To minimize the TR for

## Abstract ## Purpose To assess the feasibility of half‐Fourier‐acquisition single‐shot turbo spin‐echo (HASTE) of the lung at 3 Tesla (T) using parallel imaging with a prototype of a 32‐channel torso array coil, and to determine the optimum acceleration factor for the delineation of intrapulmona

## Abstract A method was developed for separation of water and fat MR images in a single scan with correction of static field inhomogeneity. The imaging sequence uses a single radiofrequency (RF) echo that is „sandwiched”︁ between two gradient echoes. The gradient echoes are used to determine the _

## Abstract A two‐point Dixon technique using a novel phase‐correction algorithm and commercially available dual‐echo fast gradient‐echo pulse sequence is presented. The phase‐correction algorithm determines the directional rather than phase distribution of signals due to field inhomogeneities. Spe