Davide
Piccini1, Arne Littmann2, Peter Schmitt2,
Michael O. Zenge2
1Pattern Recognition Lab,, University
Erlangen-Nuernberg, Erlangen, Germany; 2MR Applications and
Workflow Development, Healthcare Sector, Siemens AG, Erlangen, Germany
In
order to exploit the self-navigating properties of 3D radial MRI, the
trajectory has to be arranged so that the first readout of each interleave is
oriented in superior-inferior direction. If this is done sub-optimally, image
quality is degraded. Hence, an innovative trajectory based on spiral
phyllotaxis featuring optimized interleaving properties is presented. The
trajectory was compared to an Archimedean spiral in phantom experiments and
in-vivo. The smooth gradient waveforms of the novel trajectory avoided eddy
currents effects and, thus, allowed for whole-heart coronary imaging with
highly undersampled data. Moreover, the presented method is intrinsically
prepared for self-gated cardiac MRI.