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Abstract #0262

Parallel RF Excitation For Diffusion-Weighted Whole Body MR Imaging with Background Body Signal Suppression At 3.0 Tesla

G. M. Kukuk1, M. Kaschner1, F. Trber1, D. Skowasch2, J. Gieseke1,3, H. H. Schild1, W. A. Willinek1, P. Mrtz1

1Department of Radiology, University of Bonn, Bonn, NRW, Germany; 2Department of Pneumology, University of Bonn, Bonn, Germany; 3Philips Healthcare, Best, Netherlands


High field MRI has introduced new challenges for DWIBS body imaging with respect to susceptibility artefacts, fat suppression, dielectric shading, and longer acquisition times. Dual-source parallel RF excitation has been shown to allow for a more homogeneous excitation. Therefore, we evaluated the effect of this technique on DWIBS in 40 patients. Shorter acquisition times by 33%, significantly improved signal homogeneity and fat suppression, and reduced dielectric shading without influencing ADC values was found by using parallel RF excitation in DWIBS at 3.0 T.