人体 (13)N-氨 PET 研究：测量血液中 (13)N-氨代谢物的重要性。

Human (13)N-ammonia PET studies: the importance of measuring (13)N-ammonia metabolites in blood.

机构信息

PET Centre, Aarhus University Hospital, Aarhus, 8000, Denmark.

出版信息

Metab Brain Dis. 2010 Mar;25(1):49-56. doi: 10.1007/s11011-010-9181-2. Epub 2010 Mar 9.

DOI:10.1007/s11011-010-9181-2

PMID:20217201

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2850514/

Abstract

Dynamic (13)N-ammonia PET is used to assess ammonia metabolism in brain, liver and muscle based on kinetic modeling of metabolic pathways, using arterial blood (13)N-ammonia as input function. Rosenspire et al. (1990) introduced a solid phase extraction procedure for fractionation of (13)N-content in blood into (13)N-ammonia, (13)N-urea, (13)N-glutamine and (13)N-glutamate. Due to a radioactive half-life for (13)N of 10 min, the procedure is not suitable for blood samples taken beyond 5-7 min after tracer injection. By modifying Rosenspire's method, we established a method enabling analysis of up to 10 blood samples in the course of 30 min. The modified procedure was validated by HPLC and by 30-min reproducibility studies in humans examined by duplicate (13)N-ammonia injections with a 60-min interval. Blood data from a (13)N-ammonia brain PET study (from Keiding et al. 2006) showed: (1) time courses of (13)N-ammonia fractions could be described adequately by double exponential functions; (2) metabolic conversion of (13)N-ammonia to (13)N-metabolites were in the order: healthy subjects > cirrhotic patients without HE > cirrhotic patients with HE; (3) kinetics of initial tracer distribution in tissue can be assessed by using total (13)N-concentration in blood as input function, whereas assessment of metabolic processes requires (13)N-ammonia measurements.

摘要

动态 (13)N-氨 PET 用于评估脑、肝和肌肉中的氨代谢，方法是基于代谢途径的动力学模型，使用动脉血 (13)N-氨作为输入函数。Rosenspire 等人（1990 年）引入了一种固相萃取程序，用于将血液中 (13)N-含量分馏为 (13)N-氨、(13)N-尿素、(13)N-谷氨酰胺和 (13)N-谷氨酸。由于 (13)N 的放射性半衰期为 10 分钟，因此该程序不适用于在示踪剂注射后 5-7 分钟之外采集的血液样本。通过修改 Rosenspire 的方法，我们建立了一种能够在 30 分钟内分析多达 10 个血液样本的方法。通过 HPLC 和在人类中进行的 30 分钟重复性研究（通过重复注射 (13)N-氨进行，间隔 60 分钟）验证了修改后的程序。来自 (13)N-氨脑 PET 研究（来自 Keiding 等人，2006 年）的血液数据显示：(1) (13)N-氨分数的时间过程可以通过双指数函数充分描述；(2) (13)N-氨向 (13)N-代谢物的代谢转化顺序为：健康受试者>无 HE 的肝硬化患者>有 HE 的肝硬化患者；(3)可以使用血液中的总 (13)N 浓度作为输入函数来评估初始示踪剂在组织中的分布动力学，而代谢过程的评估则需要 (13)N-氨测量。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/58d1/2850514/92740a28edee/11011_2010_9181_Fig1_HTML.jpg

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人体 (13)N-氨 PET 研究：测量血液中 (13)N-氨代谢物的重要性。

Human (13)N-ammonia PET studies: the importance of measuring (13)N-ammonia metabolites in blood.

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