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

被引:0
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作者
Susanne Keiding
Michael Sørensen
Ole Lajord Munk
Dirk Bender
机构
[1] Aarhus University Hospital,PET Centre
[2] Aarhus University Hospital,Department of Medicine V (Hepatology)
来源
Metabolic Brain Disease | 2010年 / 25卷
关键词
N-ammonia metabolism; Positron emission tomography; Ammonia metabolites; Solid-phase extraction; Brain PET;
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摘要
Dynamic 13N-ammonia PET is used to assess ammonia metabolism in brain, liver and muscle based on kinetic modeling of metabolic pathways, using arterial blood 13N-ammonia as input function. Rosenspire et al. (1990) introduced a solid phase extraction procedure for fractionation of 13N-content in blood into 13N-ammonia, 13N-urea, 13N-glutamine and 13N-glutamate. Due to a radioactive half-life for 13N 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 13N-ammonia injections with a 60-min interval. Blood data from a 13N-ammonia brain PET study (from Keiding et al. 2006) showed: (1) time courses of 13N-ammonia fractions could be described adequately by double exponential functions; (2) metabolic conversion of 13N-ammonia to 13N-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 13N-concentration in blood as input function, whereas assessment of metabolic processes requires 13N-ammonia measurements.
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页码:49 / 56
页数:7
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