Holger Eggers1, Adri Duijndam2
1Philips
The
use of bipolar readout gradients in three-point Dixon imaging increases scan
efficiency and separation robustness, but eddy currents lead to phase
variations that do not adhere to the assumed linear evolution over echo time.
In first approximation, these phase variations are limited to one spatial
direction and are easily removed prior to the separation. For large volumes,
however, this approximation becomes inaccurate. A correction of these phase
variations in all directions that requires no additional calibration data is
proposed in this work and demonstrated to substantially improve the fat
suppression over large volumes in three-point Dixon imaging.