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Article Abstract
Purpose: Phosphorus-31 (P) MR spectroscopy imaging (MRSI) at 7 T is a powerful tool for investigating high-energy phosphate metabolism in human brains with significantly improved signal-to-noise ratio (SNR) and spectral resolution. However, this imaging technique requires dual-frequency radiofrequency coil for performing brain anatomical imaging and B shimming at proton (H) operation frequency, and P MRSI at lower operation frequency. Herein, we introduce a novel P-H dual-frequency radiofrequency coil design using a double-tuned and double-matched (DODO) coil that does not require complex circuitry or two coil layers and exhibits similar imaging performance as to single-frequency control coils for both P and H imaging operations.
Methods: We constructed an eight-element P-H dual-frequency DODO transceiver array and compared its performance with a quadrature-driven dual-tuned eight-element P and eight-element H transverse electromagnetic volume coil for both phantom and in vivo human-brain P-MRSI studies at 7 T.
Results: The DODO transceiver array achieved high spatiotemporal resolution P MRSI with 2.5-cc nominal voxel size and 22-min scan time covering the entire human brain, showing excellent SNR for mapping cerebral phosphorous metabolites such as phosphocreatine, adenosine triphosphate, and other low-concentration metabolites. Compared with the transverse electromagnetic volume coil, the DODO array demonstrated large improvements in P-MRSI SNR in both phantom and human brain studies, with over 5-fold SNR gain in peripheral regions and over 2-fold SNR gain in central brain regions.
Conclusion: This simple and cost-effective array design and excellent performance can greatly benefit human-brain P-MRSI applications at 7 T.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11971487 | PMC |
| http://dx.doi.org/10.1002/mrm.30449 | DOI Listing |
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