Flexible array coil for cervical and extraspinal (FACE) MRI at 3.0 Tesla.
| Autor: | Abel F; Hospital for Special Surgery, 535 East 70th Street, NY 10021, United States of America., Tan ET; Hospital for Special Surgery, 535 East 70th Street, NY 10021, United States of America., Lunenburg M; Tesla Dynamic Coils, Schimminck 12, 5301 Zaltbommel, The Netherlands., van Leeuwen C; Tesla Dynamic Coils, Schimminck 12, 5301 Zaltbommel, The Netherlands., van Hooren T; Tesla Dynamic Coils, Schimminck 12, 5301 Zaltbommel, The Netherlands., van Uden M; Tesla Dynamic Coils, Schimminck 12, 5301 Zaltbommel, The Netherlands., Arteaga C; Tesla Dynamic Coils, Schimminck 12, 5301 Zaltbommel, The Netherlands., Vincent J; GE HealthCare, 1515 Danner Dr, 44202 Aurora, OH, United States of America., Robb F; GE HealthCare, 1515 Danner Dr, 44202 Aurora, OH, United States of America., Sneag DB; Hospital for Special Surgery, 535 East 70th Street, NY 10021, United States of America. |
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| Jazyk: | angličtina |
| Zdroj: | Physics in medicine and biology [Phys Med Biol] 2023 Oct 26; Vol. 68 (21). Date of Electronic Publication: 2023 Oct 26. |
| DOI: | 10.1088/1361-6560/ad0217 |
| Abstrakt: | Objective. High-resolution MRI of the cervical spine (c-spine) and extraspinal neck region requires close-fitting receiver coils to maximize the signal-to-noise ratio (SNR). Conventional, rigid C-spine receiver coils do not adequately contour to the neck to accommodate varying body shapes, resulting in suboptimal SNR. Recent innovations in flexible surface coil array designs may provide three-dimensional (3D) bendability and conformability to optimize SNR, while improving capabilities for higher acceleration factors. Approach. This work describes the design, implementation, and preliminary in vivo testing of a novel, conformal 23-channel receive-only flexible array for cervical and extraspinal (FACE) MRI at 3-Tesla (T), with use of high-impedance elements to enhance the coil's flexibility. Coil performance was tested by assessing SNR and geometry factors ( g -factors) in a phantom compared to a conventional 21-channel head-neck-unit (HNU). In vivo imaging was performed in healthy human volunteers and patients using high-resolution c-spine and neck MRI protocols at 3T, including MR neurography (MRN). Main results. Mean SNR with the FACE was 141%-161% higher at left, right, and posterior off-isocenter positions and 4% higher at the isocenter of the phantom compared to the HNU. Parallel imaging performance was comparable for an acceleration factor ( R ) = 2 × 2 between the two coils, but improved for R = 3 × 3 with mean g -factors ranging from 1.46-2.15 with the FACE compared to 2.36-3.62 obtained with the HNU. Preliminary human volunteer and patient testing confirmed that equivalent or superior image quality could be obtained for evaluation of osseous and soft tissue structures of the cervical region with the FACE. Significance. A conformal and highly flexible cervical array with high-impedance coil elements can potentially enable higher-resolution imaging for cervical imaging. (© 2023 Institute of Physics and Engineering in Medicine.) |
| Databáze: | MEDLINE |
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