31P multi-echo MRSI with low B1+ dual-band refocusing RF pulses
Publication date
2025-01
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Abstract
31P magnetic resonance spectroscopy (MRS) can spectrally resolve metabolites involved in phospholipid metabolism whose levels are altered in many cancers. Ultra-high field facilitates the detection of phosphomonoesters (PMEs) and phosphodiesters (PDEs) with increased SNR and spectral resolution. Utilizing multi-echo MR spectroscopic imaging (MRSI) further enhances SNR and enables T2 information estimation per metabolite. To address the specific absorption rate (SAR) challenges associated with high-power demanding adiabatic or composite block pulses in multi-echo phosphorus imaging, we present a dual-band refocusing RF pulse designed for operation at B1 amplitudes of 14.8 μT which holds potential for integration into multi-echo sequences. Phantom and in vivo experiments conducted in the brain at 7 Tesla validated the effectiveness of this low-power dual-band RF pulse. Furthermore, we implemented the dual-band RF pulse into a multi-echo MRSI sequence where it offered the potential to increase the number of echo pulses within the same acquisition time compared to high-power adiabatic implementation, demonstrating its feasibility and practicality.
Keywords
dual-band refocusing pulse, increased SNR per unit of time, low-power RF pulse, phosphorus multi-echo MRSI, PME and PDE detection, ultra-high field MRSI, Molecular Medicine, Radiology Nuclear Medicine and imaging, Spectroscopy
Citation
Shams, Z, van der Kemp, W J M, Klomp, D W J, Wiegers, E C & Wijnen, J P 2025, '31 P multi-echo MRSI with low B 1 + dual-band refocusing RF pulses', NMR in Biomedicine, vol. 38, no. 1, e5273. https://doi.org/10.1002/nbm.5273