Yijing Wu1, Steven R. Kecskemeti1, Patrick Turski2, Charles A. Mistretta3
1Medical Physics, University of Wisconsin,
Madison, Madison, WI, USA; 2Radiology, University of Wisconsin,
Madison, Madison, WI, USA; 3Medical Physics and Radiology,
University of Wisconsin, Madison, Madison, WI, USA
HYPR FLOW was able to provide 0.69 mm isotropic (.33mm3) spatial resolution
with 0.5s frame rate and a 0.75s temporal window for contrast-enhanced
information. Although this approach has good resolution and provides flow
information and flow derived quantities, it is difficult to reduce voxel volume
below about 0.3 mm3 due to the need to acquire four excitations per projection.
We present here early results using an alternate hybrid HYPR MRA technique
called HYPR TOF in which a separately acquired TOF examination is used to
provide a composite image for processing time resolved CE MRA data. Although
initially implemented in a stack of stars geometry, this approach when combined
with VIPR acquisition will permit greater spatial resolution than HYPR FLOW at
the expense of physiological information. This will be important for some
aneurysm cases where higher spatial resolution is desirable.