Lisa Leroi1, Alexandre Vignaud1, Pierre Sabouroux2, Elodie Georget1, Benoit Larrat1, Stefan Enoch2, Gérard Tayeb2, Nicolas Bonod2, Alexis Amadon1, Denis Le Bihan1, and Redha Abdeddaïm2
1UNIRS, CEA Saclay - DSV - I2BM - Neurospin - UNIRS, Gif-sur-Yvette, France, 2CNRS, Aix-Marseille Université, Centrale Marseille, Institut Fresnel, UMR 7249, Marseille, France
B1+ heterogeneity at ultra-high
field (UHF) can be tackled performing “passive shimming” with High-Dielectric Constant (HDC) pads. Nevertheless,
HDC pads have shown structural, manufacturing and composition constraints. Here,
we substitute HDC padding with a new meta-atom (MA) structure with a high
equivalent dielectric constant, leaving behind the identified limitations. In
this work, we compare this MA structure to a classic BaTiO3 pad used in UHF
clinical routine. Results demonstrate this solution to strongly impact local B1+
distribution. Implementing multiple MA structures into the coil design might suggest
a good potential for brain global B1+ inhomogeneity
mitigation.