Axel Joachim
Krafft1, Jaane Rauschenberg1, Florian Maier1,
Jrgen Walter Jenne2,3, Wolfhard Semmler1, Michael Bock1
1Medical Physics in Radiology, German
Cancer Research Center (DKFZ), Heidelberg, Germany; 2Mediri GmbH,
Heidelberg, Germany; 3Clinical Cooperation Unit Radiation
Oncology, German Cancer Research Center (DKFZ), Heidelberg, Germany
Proton
resonance frequency temperature images are acquired with gradient echo
techniques. As the temperature induced frequency shift is very small, long
echo times have to be used. In such long-TE gradient echo pulse sequences,
the available time for application of the encoding gradients between RF
excitation and data readout is only partly used. In this work, we present a
novel interleaved excitation and readout technique for the acquisition of two
orthogonal slices. Compared to conventional gradient echo techniques, this
strategy is substantially more time-efficient and allows for temperature
monitoring along all three spatial directions around the temperature focus.