Masami Yoneyama1, Masanobu Nakamura1,
Takashi Tabuchi1, Atsushi Takemura2, Junko Ogura1
1Medical Satellite Yaesu Clinic,
Chuo-ku,
T1
weighted 3D VRFA-TSE sequence is decreasing flow artifacts by
sequence-endogenous flow-void enhancement. But, T1 contrast becomes
sub-optimal with the long echo train and pseudo steady-state effects. We
propose a new scheme of more T1-optimized black-blood 3D TSE pulse sequence
with low refocusing flip angles. Volunteer experiments were acquired in 3D
low refocusing flip angle TSE (LOWRAT) using a 3.0T imager. The optimal
parameter for T1-optimized black-blood imaging was low excitation flip
angles, low refocusing flip angles, NPHA pseudo steady-state preparation,
short ETL, best echo number for K-space center=2nd echo, and shortest TR.
Contrast behavior of 3D LOWRAT T1W was similar to that of 2D SE. This optimal
sequences can be used for 3D volumetric T1 weighted black-blood imaging.