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用于超极化碳 - 丙酮酸研究中估计极化的双峰不对称性。

Doublet asymmetry for estimating polarization in hyperpolarized C-pyruvate studies.

作者信息

Datta Keshav, Spielman Daniel M

机构信息

Department of Electrical Engineering, Stanford University, Stanford, California, USA.

Department of Radiology, Stanford University, Stanford, California, USA.

出版信息

NMR Biomed. 2017 Feb;30(2). doi: 10.1002/nbm.3670. Epub 2016 Dec 22.

DOI:10.1002/nbm.3670
PMID:28004867
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5330392/
Abstract

Hyperpolarized C MRS allows in vivo interrogation of key metabolic pathways, with pyruvate (Pyr) the substrate of choice for current clinical studies. Knowledge of the liquid-state polarization is needed for full quantitation, and asymmetry of the C doublet, arising from 1% naturally abundant [1,2- C]Pyr in any hyperpolarized [1- C]Pyr sample, has been suggested as a direct measure of in vivo C polarization via the use of an in vitro calibration curve. Here we show that different polarization levels can yield the same C -doublet asymmetry, thus limiting the utility of this metric for quantitation. Furthermore, although the time evolution of doublet asymmetry is poorly modeled using the expected dominant relaxation mechanisms of carbon-proton dipolar coupling and chemical shift anisotropy, the inclusion of a C-C dipolar coupling term can explain the observed initial evolution of the C doublet asymmetry beyond its expected thermal equilibrium value.

摘要

超极化碳磁共振波谱能够在体内对关键代谢途径进行检测,丙酮酸(Pyr)是当前临床研究中首选的底物。为了进行全面定量,需要了解液态极化情况,并且有人提出,在任何超极化的[1- C]Pyr样品中,由于1%天然丰度的[1,2- C]Pyr导致的碳双峰不对称性,可通过使用体外校准曲线直接测量体内碳极化情况。在此我们表明,不同的极化水平可产生相同的碳双峰不对称性,从而限制了该指标在定量方面的效用。此外,尽管使用预期的主要弛豫机制——碳-质子偶极耦合和化学位移各向异性,对双峰不对称性的时间演变进行建模效果不佳,但纳入碳-碳偶极耦合项可以解释所观察到的碳双峰不对称性超出其预期热平衡值的初始演变情况。

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