Echo planar imaging at 4 tesla with minimum acoustic noise

## Abstract The resolution and homogeneity limitations of echo‐planar imaging (EPI) are overcome by zoom imaging of an easily shimmed localized volume. Use of the stimulated echo enables single‐shot localization. __In vivo__ 0.5‐mm resolution EPI images of selected regions of a cat brain at 4.7 T a

## Abstract Echo‐planar Imaging (EPI) Is sensitive to magnetic field inhomogeneities, which lead to signal loss and geometric distortions of the image. Magnetic field inhomogeneities induced by susceptibility differences, as encountered in the human body, increase with the magnetic field strength,

## Abstract Complete coverage of the in vivo proton metabolite spectrum, including downfield resonances, requires a spectral bandwidth of approximately 9 ppm. Spectral bandwidth of in vivo echo‐planar spectroscopic imaging (EPSI) is primarily limited by gradient strength of the oscillating readout

## Abstract Whole‐brain echo‐planar spectroscopic imaging (EPSI) often substantially lengthens MRI/MRSI (magnetic resonance spectroscopic imaging) protocols. To halve acquisition time, application of a blipped phase‐encoding (PE) gradient during the EPSI readout (RO) was previously suggested by PE

## Abstract In this multicenter study, 2D spatial mapping of __J‐__coupled resonances at 3T and 4T was performed using short‐TE (15 ms) proton echo‐planar spectroscopic imaging (PEPSI). Water‐suppressed (WS) data were acquired in 8.5 min with 1‐cm^3^ spatial resolution from a supraventricular axial

## Abstract We show that the EPI time course in functional MR imaging at 4 Tesla displays a multiphasic response in response to photic stimulation. Focal areas of gray matter display an initial negative change in signal intensity that reaches a maximum of 1 % about 2 s after the onset of photic sti