Performance Enhancement of an MTL Coil Loaded with High-Permittivity Dielectric Liner for 7 T Brain MRIopen access
- Authors
- Ullah, Sana; Yoo, Hyoungsuk
- Issue Date
- Oct-2021
- Publisher
- Institute of Electrical and Electronics Engineers Inc.
- Keywords
- 7 T; dielectric pad; eight-element; MTL transmit array; radio frequency (RF) coil; RF shimming; region of interest
- Citation
- IEEE Access, v.9, pp 144417 - 144425
- Pages
- 9
- Indexed
- SCIE
SCOPUS
- Journal Title
- IEEE Access
- Volume
- 9
- Start Page
- 144417
- End Page
- 144425
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/140678
- DOI
- 10.1109/ACCESS.2021.3122122
- ISSN
- 2169-3536
2169-3536
- Abstract
- In a multi-element microstrip transmission line (MTL) transmit array coil, the transmit field (B-1(+)) distribution is inhomogeneous due to its standing-wave nature, and the interference effects can severely degrade the B-1(+) and imaging. Therefore, to improve the homogeneity and strength of B-1(+), this study focuses on the development of a multi-element MTL transmit array coil integrated with a dielectric liner (DL) material. Furthermore, the transmission efficiency (T-x,T-eff ) is improved in the head region. An eight-element MTL transmits array head coil is investigated using thinner DLs, and the optimized dimensions of the DL are found from its resonant mode at 7 Tesla (T). Simulations and measurements are performed with an MTL transmit array coil at 7 T, and the performance is analyzed for the DL positions and dimensions. Remarkably, the proposed DLs-integrated transmit array coil system offered significant improvements in the T(x,eff )at different DLs positions. Compared to the case without the DL, the T-x,T-eff is improved by 9% (DL close to the head model), 15% (DL at center), and 39% (DL close to the RF coil). Interestingly, the DL acts as an efficiency tuner element exhibiting a 9% to 39% T-x,T-eff tuning range of improvement. In addition, the RF-shimming technique improves the Bi F homogeneity and T-x,T-eff of the coil with DLs by 21% and 42%, respectively, compared to the case without the DL. Moreover, the specific absorption rate (SAR) analysis of the MTL transmit array coil with the DLs is performed. The peak 10g-averaged SAR is reduced from 3.1 W/kg to 2.13 W/kg in the head using DLs and RF-shimming technique. Finally, we used the bench measurement setup to obtain the measured magnetic field. The proposed work exhibits salient features with a smaller DL size and multi-element MTL transmit array coil than other proposed works.
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