A Switched-Mode Breast Coil for 7 T MRI Using Forced-Current Excitation

Author

Jiaming Cui ; Bosshard, John C. ; Rispoli, Joseph V. ; Dimitrov, Ivan E. ; Cheshkov, Sergey ; McDougall, Mary Preston ; Malloy, Craig ; Wright, Steven M.

Author_Institution

Texas A&M Univ., College Station, TX, USA

Volume

62

Issue

7

fYear

2015

fDate

Jul-15

Firstpage

1777

Lastpage

1783

Abstract

In high-field magnetic resonance imaging, the radio frequency wavelength within the human body is comparable to anatomical dimensions, resulting in B1 inhomogeneity and nonuniform sensitivity patterns. Thus, this relatively short wavelength presents engineering challenges for RF coil design. In this study, a bilateral breast coil for ¹H imaging at 7 T was designed and constructed using forced-current excitation. By forcing equal current through the coil elements, we reduce the effects of coupling between the elements to simplify tuning and to ensure a uniform field across both breasts. To combine the benefits of the higher power efficiency of a unilateral coil with the bilateral coverage of a bilateral coil, a switching circuit was implemented to allow the coil to be reconfigured for imaging the left, right, or both breasts.

Keywords

biological organs; biomedical MRI; coils; MRI; RF coil; bilateral breast coil; coil elements; forced-current excitation; high-field magnetic resonance imaging; human body; magnetic flux density 7 T; radiofrequency wavelength; switched-mode breast coil; switching circuit; Breast; Coils; Imaging; Radio frequency; Sensitivity; Switches; Switching circuits; 7T; breast coils; dual mode; forced-current excitation (FCE); high field MRI;

fLanguage

English

Journal_Title

Biomedical Engineering, IEEE Transactions on

Publisher

ieee

ISSN

0018-9294

Type

jour

DOI

10.1109/TBME.2015.2403850

Filename

7045544