Multi-turn multi-gap transmission line resonators – Concept, design and first implementation at 4.7T and 7T

[Display omitted] •Novel multi-turn multi-gap design for monolithic transmission line resonators.•Additional degree of freedom eliminates TLR design limits at high and low field.•Intrinsic advantages of TLRs preserved, i.e. flexibility, low SAR, miniaturization.•Comparable B1 performance but lower S...

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Bibliographic Details
Published in:Journal of magnetic resonance (1997) 2016-12, Vol.273, p.65-72
Main Authors: Frass-Kriegl, Roberta, Laistler, Elmar, Hosseinnezhadian, Sajad, Schmid, Albrecht Ingo, Moser, Ewald, Poirier-Quinot, Marie, Darrasse, Luc, Ginefri, Jean-Christophe
Format: Article
Language:English
Subjects:
B1 mapping
EM simulation
High-field MRI
RF coil
Surface coil
Transmission line resonator
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Summary:[Display omitted] •Novel multi-turn multi-gap design for monolithic transmission line resonators.•Additional degree of freedom eliminates TLR design limits at high and low field.•Intrinsic advantages of TLRs preserved, i.e. flexibility, low SAR, miniaturization.•Comparable B1 performance but lower SAR than loop coils with the same mean diameter. A novel design scheme for monolithic transmission line resonators (TLRs) is presented - the multi-turn multi-gap TLR (MTMG-TLR) design. The MTMG-TLR design enables the construction of TLRs with multiple turns and multiple gaps. This presents an additional degree of freedom in tuning self-resonant TLRs, as their resonance frequency is fully determined by the coil geometry (e.g. diameter, number of turns, conductor width, etc.). The novel design is evaluated at 4.7T and 7T by simulations and experiments, where it is demonstrated that MTMG-TLRs can be used for MRI, and that the B1 distribution of MTMG-TLRs strongly depends on the number and distribution of turns. A comparison to conventional loop coils revealed that the B1 performance of MTMG-TLRs is comparable to a loop coil with the same mean diameter; however, lower 10g SAR values were found for MTMG-TLRs. The MTMG-TLR design is expected to bring most benefits at high static field, where it allows for independent size and frequency selection, which cannot be achieved with standard TLR design. However, it also enables more accurate geometric optimization at low static field. Thereby, the MTMG-TLR design preserves the intrinsic advantages of TLRs, i.e. mechanical flexibility, high SAR efficiency, mass production, and coil miniaturization.
ISSN:1090-7807
1096-0856
DOI:10.1016/j.jmr.2016.10.008