Fast 3D spatial EPR imaging using spiral magnetic field gradient

## Abstract 3D magnetization‐prepared fast gradient echo MR sequences, such as MP‐RAGE and IR‐SPGR, provide good spatial resolution and gray‐white contrast. The efficiency and image quality of these techniques can be further improved with an interleaved, recessed elliptical centric view order. It i

## Abstract An inhomogeneous radiofrequency (RF) magnetic field is an essential source of error for the quantification of MRI and MRS parameters. To correct for effects of RF inhomogeneities in 3D data sets, it is necessary to have knowledge of the 3D RF distribution in the sample. In this paper a

## Abstract A new method to perform rapid 3D fMRI in human brain is introduced and evaluated in normal subjects, on a standard clinical scanner at 1.5 Tesla. The method combines a highly stable gradient echo technique with a spiral scan method, to detect brain activation related changes in blood ox

## Abstract Variable‐density __k__‐space sampling using a stack‐of‐spirals trajectory is proposed for ultra fast 3D imaging. Since most of the energy of an image is concentrated near the __k__‐space origin, a variable‐density __k__‐space sampling method can be used to reduce the sampling density in

## Abstract ## Purpose To examine the precision of cine‐phase contrast (PC) magnetic resonance imaging (MRI) techniques as applied to the quantification of three‐dimensional knee joint kinematics. ## Materials and Methods The knee joints of eight healthy volunteers were studied using three diffe