Comparison of spiral-in/out and spiral-out BOLD fMRI at 1.5 and 3 T

## Abstract Acquisitions with the spiral‐in/out technique result in two separate image timeseries obtained during the spiral‐in and spiral‐out trajectory. In uniform brain regions the two components have comparable signal and BOLD contrast and can be averaged, but in regions compromised by suscepti

## Abstract BOLD fMRI is hampered by dropout of signal in the orbitofrontal and parietal brain regions due to magnetic field gradients near air‐tissue interfaces. This work reports the use of spiral‐in trajectories that begin at the edge of __k__‐space and end at the origin, and spiral in/out traje

## Abstract With standard spectroscopic imaging, high spatial resolution is achieved at the price of a large number of phase‐encoding steps, leading to long acquisition times. Fast spatial encoding methods reduce the minimum total acquisition time. In this article, a __k__‐space scanning scheme usi

## Abstract ## Purpose To quantitatively compare spiral imaging and sensitivity‐encoded‐echo‐planar‐imaging (SENSE‐EPI) methods for blood oxygen level‐dependent (BOLD) imaging using controlled changes in the end‐tidal partial pressure of CO~2~ (PetCO~2~) to provide a global BOLD response. Specific