Soeren Johst1,
Sebastian Schmitter2, Armin Nagel1, Wolfhard Semmler1,
Michael Bock1
1Medical Physics in Radiology, German
Cancer Research Center (dkfz), Heidelberg, Germany; 2Center for
Magnetic Resonance Research, University of Minnesota, Minneapolis, MN, United
States
TOF
MRA highly profits from high fields, however, SAR restrictions limit the use
of high-resolution protocols. In particular, venous suppression with saturation
pulses is difficult within clinically acceptable measurement times (TA
10min). Using the VERSE algorithm on the excitation pulses as well as on the
energy-intensive saturation pulses permits an effective SAR reduction that
can be used to shorten the acquisition time. With a modified TOF MRA pulse
sequence high resolution intracranial MRA data sets with excellent venous
suppression could be acquired in 10 min at 7 Tesla.