X-nuclear MRS and MRI on a standard clinical proton-only MRI scanner

IF 2.624
Yi-Fen Yen , Atsushi M. Takahashi , Jerome L. Ackerman
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引用次数: 0

Abstract

In light of the growing interest in-vivo deuterium metabolic imaging, hyperpolarized 13C, 15N, 3He, and 129Xe imaging, as well as 31P spectroscopy and imaging in large animals on clinical MR scanners, we demonstrate the use of a (radio)frequency converter system to allow X-nuclear MR spectroscopy (MRS) and MR imaging (MRI) on standard clinical MRI scanners without multinuclear capability. This is not only an economical alternative to the multinuclear system (MNS) provided by the scanner vendors, but also overcomes the frequency bandwidth problem of some vendor-provided MNSs that prohibit users from applications with X-nuclei of low magnetogyric ratio, such as deuterium (6.536 MHz/Tesla) and 15N (-4.316 MHz/Tesla). Here we illustrate the design of the frequency converter system and demonstrate its feasibility for 31P (17.235 MHz/Tesla), 13C (10.708 MHz/Tesla), and 15N MRS and MRI on a clinical MRI scanner without vendor-provided multinuclear hardware.

Abstract Image

在标准的临床质子核磁共振扫描仪上的x核MRS和MRI
鉴于人们对体内氘代谢成像、超极化13C、15N、3He和129Xe成像以及31P光谱和大型动物临床磁共振扫描仪成像的兴趣日益浓厚,我们演示了使用(无线电)变频器系统在标准临床磁共振扫描仪上实现x核磁共振光谱(MRS)和磁共振成像(MRI),而不需要多核能力。这不仅是扫描仪供应商提供的多核系统(MNS)的经济替代方案,而且还克服了一些供应商提供的MNS的频率带宽问题,这些MNS禁止用户使用低磁重比的x核,例如氘(6.536 MHz/Tesla)和15N (-4.316 MHz/Tesla)。在这里,我们演示了变频器系统的设计,并证明了其在临床MRI扫描仪上用于31P (17.235 MHz/Tesla), 13C (10.708 MHz/Tesla)和15N MRS和MRI的可行性,而无需供应商提供的多核硬件。
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CiteScore
1.90
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