Christian C. Mirkes1,
2, Jens Hoffmann1, Gunamony Shajan1, Rolf Pohmann1,
Klaus Scheffler1, 2
1High-Field
MR Center, Max Planck Institute for Biological Cybernetics, Tbingen,
Germany; 2Department for Biomedical Magnetic Resonance, University
of Tbingen, Tbingen, Germany
Amide proton transfer imaging is very promising at ultra-high field due to the large spectral separation. Here we show that quantification of the chemical exchange saturation effect can be facilitated by homogenizing the transmit field through B1 shimming.