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使用多室动态单酶体模进行超极化磁共振剂的研究。

Use of a Multi-compartment Dynamic Single Enzyme Phantom for Studies of Hyperpolarized Magnetic Resonance Agents.

作者信息

Walker Christopher M, Merritt Matthew, Wang Jian-Xiong, Bankson James A

机构信息

Imaging Physics, University of Texas M.D. Anderson Cancer Center.

Advanced Imaging Research Center, University of Texas Southwestern Medical Center.

出版信息

J Vis Exp. 2016 Apr 15(110):e53607. doi: 10.3791/53607.

DOI:10.3791/53607
PMID:27166971
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4941925/
Abstract

Imaging of hyperpolarized substrates by magnetic resonance shows great clinical promise for assessment of critical biochemical processes in real time. Due to fundamental constraints imposed by the hyperpolarized state, exotic imaging and reconstruction techniques are commonly used. A practical system for characterization of dynamic, multi-spectral imaging methods is critically needed. Such a system must reproducibly recapitulate the relevant chemical dynamics of normal and pathological tissues. The most widely utilized substrate to date is hyperpolarized [1-(13)C]-pyruvate for assessment of cancer metabolism. We describe an enzyme-based phantom system that mediates the conversion of pyruvate to lactate. The reaction is initiated by injection of the hyperpolarized agent into multiple chambers within the phantom, each of which contains varying concentrations of reagents that control the reaction rate. Multiple compartments are necessary to ensure that imaging sequences faithfully capture the spatial and metabolic heterogeneity of tissue. This system will aid the development and validation of advanced imaging strategies by providing chemical dynamics that are not available from conventional phantoms, as well as control and reproducibility that is not possible in vivo.

摘要

通过磁共振对超极化底物进行成像显示出在实时评估关键生化过程方面具有巨大的临床前景。由于超极化状态所带来的基本限制,通常会使用特殊的成像和重建技术。迫切需要一个用于表征动态多光谱成像方法的实用系统。这样的系统必须能够可重复地概括正常组织和病理组织的相关化学动力学。迄今为止使用最广泛的底物是超极化的[1-(13)C]-丙酮酸,用于评估癌症代谢。我们描述了一种基于酶的体模系统,该系统介导丙酮酸向乳酸的转化。通过将超极化剂注入体模内的多个腔室来启动反应,每个腔室都含有不同浓度的控制反应速率的试剂。需要多个隔室以确保成像序列能够忠实地捕捉组织的空间和代谢异质性。该系统将通过提供传统体模无法提供的化学动力学以及体内无法实现的控制和可重复性,来帮助先进成像策略的开发和验证。

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In vivo measurement of apparent diffusion coefficients of hyperpolarized ¹³C-labeled metabolites.体内测量超极化 ¹³C 标记代谢物的表观扩散系数。
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Simultaneous multiagent hyperpolarized (13)C perfusion imaging.同步多剂超极化(13)C灌注成像
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