SAR reduction in 7T C-spine imaging using a "dark modes" transmit array strategy

Yigitcan Eryaman*, Bastien Guerin, Boris Keil, Azma Mareyam, Joaquin L. Herraiz, Robert K. Kosior, Adrian Martin, Angel Torrado-Carvajal, Norberto Malpica, Juan A. Hernandez-Tamames, Emanuele Schiavi, Elfar Adalsteinsson, Lawrence L. Wald

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

24 Citations (Scopus)


Purpose Local specific absorption rate (SAR) limits many applications of parallel transmit (pTx) in ultra high-field imaging. In this Note, we introduce the use of an array element, which is intentionally inefficient at generating spin excitation (a "dark mode") to attempt a partial cancellation of the electric field from those elements that do generate excitation. We show that adding dipole elements oriented orthogonal to their conventional orientation to a linear array of conventional loop elements can lower the local SAR hotspot in a C-spine array at 7 T. Methods We model electromagnetic fields in a head/torso model to calculate SAR and excitation B1+ patterns generated by conventional loop arrays and loop arrays with added electric dipole elements. We utilize the dark modes that are generated by the intentional and inefficient orientation of dipole elements in order to reduce peak 10g local SAR while maintaining excitation fidelity. Results For B1+ shimming in the spine, the addition of dipole elements did not significantly alter the B1+ spatial pattern but reduced local SAR by 36%. Conclusion The dipole elements provide a sufficiently complimentary B1+ and electric field pattern to the loop array that can be exploited by the radiofrequency shimming algorithm to reduce local SAR.

Original languageEnglish
Pages (from-to)1533-1539
Number of pages7
JournalMagnetic Resonance in Medicine
Issue number4
Early online date18 Apr 2014
Publication statusPublished - Apr 2015
Externally publishedYes

Bibliographical note

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© 2014 Wiley Periodicals, Inc.


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