使用二维异核单量子相干技术在7T场强下对人体进行高灵敏度、宽带去耦¹³C磁共振波谱分析。
High-sensitivity, broadband-decoupled (13) C MR spectroscopy in humans at 7T using two-dimensional heteronuclear single-quantum coherence.
作者信息
de Graaf Robin A, De Feyter Henk M, Rothman Douglas L
机构信息
Department of Diagnostic Radiology, Magnetic Resonance Research Center, Yale University School of Medicine, New Haven, Connecticut, USA.
出版信息
Magn Reson Med. 2015 Oct;74(4):903-14. doi: 10.1002/mrm.25470. Epub 2014 Sep 29.
PURPOSE
Carbon-13 ((13) C) magnetic resonance spectroscopy (MRS) has an intrinsically low NMR sensitivity that often leads to large acquisition volumes or long scan times. While the use of higher magnetic fields can overcome the sensitivity limitations, high radiofrequency (RF) power deposition associated with proton-decoupling limits the achievable gain. Two-dimensional (2D) heteronuclear single quantum coherence (HSQC) MRS is a method that uses the high chemical specificity of (13) C MRS while retaining the high sensitivity of (1) H detection. Due to the 2D nature of the method, proton-decoupled (13) C MR spectra can be obtained without the use of high-powered decoupling pulses.
METHODS
A novel three-dimensional (3D) localized 2D HSQC method based on 3D STEAM localization is presented and implemented at 7T. The low RF power deposition of the method allows TR variation along the indirect dimension which, in combination with controlled aliasing, leads to an acceleration of 11.8 relative to a standard 2D NMR acquisition.
RESULTS
Artifact-free, high-quality and high-sensitivity 2D HSQC spectra were obtained for all subjects in 19 min from a small (9 mL) volume placed in the leg adipose tissue. Complete proton decoupling was achieved along the indirect (13) C dimension despite the absence of broadband proton-decoupling pulses. The high chemical specificity along the indirect (13) C dimension allowed the detection of 19 unique resonances from which the lipids could be characterized in terms of saturation and omega-6/omega-3 fatty acid ratio.
CONCLUSION
It has been demonstrated that high-quality 2D HSQC NMR spectra can be acquired from human adipose tissue at 7T. The HSQC method is methodologically simple and robust and is flexible regarding trade-offs between temporal and spectral resolution. 2D HSQC has a strong potential to become a default method in natural-abundance or (13) C-enriched studies of human metabolism in vivo.
目的
碳 - 13(¹³C)磁共振波谱(MRS)本质上具有较低的核磁共振灵敏度,这常常导致需要采集大量数据或延长扫描时间。虽然使用更高的磁场可以克服灵敏度限制,但与质子去耦相关的高射频(RF)功率沉积限制了可实现的增益。二维(2D)异核单量子相干(HSQC)MRS是一种利用¹³C MRS的高化学特异性同时保持¹H检测高灵敏度的方法。由于该方法的二维特性,可以在不使用高功率去耦脉冲的情况下获得质子去耦的¹³C MR谱。
方法
提出了一种基于三维(3D)STEAM定位的新型三维(3D)局部2D HSQC方法,并在7T磁场下实现。该方法的低RF功率沉积允许在间接维度上变化重复时间(TR),结合受控混叠,相对于标准二维核磁共振采集实现了11.8倍的加速。
结果
从放置在腿部脂肪组织中的小体积(9 mL)样本中,在19分钟内为所有受试者获得了无伪影、高质量和高灵敏度的二维HSQC谱。尽管没有宽带质子去耦脉冲,但在间接¹³C维度上实现了完全的质子去耦。间接¹³C维度上的高化学特异性允许检测到19种独特的共振,据此可以根据饱和度和ω-6/ω-3脂肪酸比例对脂质进行表征。
结论
已证明在7T磁场下可以从人体脂肪组织中获取高质量的二维HSQC核磁共振谱。HSQC方法在方法上简单且稳健,在时间分辨率和谱分辨率之间的权衡方面具有灵活性。二维HSQC在天然丰度或¹³C富集的人体体内代谢研究中极有可能成为默认方法。
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