Preparation and biodistribution of  <sup>13</sup>N-ammonia

WANG Mingfang  1  TANG Ganghua  1  GAO Xiao  1  LI Zhi  1    CHEN Yuyao  2  WU Hubing  1  HUANG Zuhai  1  1

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Preparation and biodistribution of ¹³N-ammonia

更新时间：2021-03-12

- Preparation and biodistribution of ¹³N-ammonia
- NUCLEAR TECHNIQUES Issue 11, (2001)
- 作者机构：
  
  1. 广州第一军医大学南方医院
  2. 广州第一军医大学中医研究所
  3. 广州第一军医大学南方医院,广州,510515
- 作者简介：
- 基金信息：
- DOI：
  CLC： R817.4
- Published：01 November 2001
- 稿件说明：
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[1]王明芳,唐刚华,高晓,李志,陈育尧,吴湖炳,黄祖汉.~(13)N-NH_3·H_2O的制备及生物分布研究[J].核技术,2001(11):920-924.

WANG Mingfang 1 TANG Ganghua 1 GAO Xiao 1 LI Zhi 1 CHEN Yuyao 2 WU Hubing 1 HUANG Zuhai 1 1. Preparation and biodistribution of ¹³N-ammonia[J]. Nuclear techniques, 2001, (11): 920-924.
[1]王明芳,唐刚华,高晓,李志,陈育尧,吴湖炳,黄祖汉.~(13)N-NH_3·H_2O的制备及生物分布研究[J].核技术,2001(11):920-924. DOI：

WANG Mingfang 1 TANG Ganghua 1 GAO Xiao 1 LI Zhi 1 CHEN Yuyao 2 WU Hubing 1 HUANG Zuhai 1 1. Preparation and biodistribution of ¹³N-ammonia[J]. Nuclear techniques, 2001, (11): 920-924. DOI：

摘要

利用16O（p

α） 13 N核反应

经戴氏合金（Devarda’salloy）还原靶水制备出13 N -NH3 ·H2 O的生理盐水注射液。标记产物利用TLC、HPLC进行放射化学分析

放化纯度 >95 %

放射性浓度为（1.11— 2 .2 2 ）GBq/mL。小鼠分布实验显示心肌摄取率最高

平均 %ID/g为 19.5 4 % ;首次通过时

心肌和肺的摄取率最高

其 %ID/g各为 2 4 .90± 1.82和 2 2 .79± 1.94

约有 92 %的放射性从血液中清除 ;注射后 1min

各器官中的放射性急剧下降

5min时下降到最低值

10min时各器官中的放射性又明显升高

在 1— 30min内

心脏摄取稳定在 11.34%— 2 9.2 4 %。13 N -NH3 ·H2 O有较高的心 /肝和心 /肺比值和较快的血液清除率。结果表明

Devarda’salloy还原法是一种简单快速、可获得较高核纯度和放化纯度的13 N -NH3 ·H2 O的制备方法。小鼠分布实验提示在静脉注射13 N-NH3 ·H2 O后 2— 5min内进行PET显像

可获得满意的图象。

Abstract

To study the synthetic method

quality control and biodistribution of 13 N-ammonia

13 N-NO - 3 and 13 N-NO - 2 were produced from water via the 16 O(p

α) 13 N nuclear reaction with 16.5 MeV proton at 25-30 μA for 10-20 min and then converted to 13 N-ammonia by the Devarda’s alloy. Radiochemical purity was better than 95% as determined by HPLC and TLC. The biodistribution study of 13 N-ammonia in mice indicated that the mean uptake of 13 N-ammonia in myocardium was as high as 19.54%. At the first-pass time

the uptakes of myocardial and lung were (24.90±1.82)% and (22.79±1.94)%

respectiviely

and 92% radioactivity was cleared from blood. After injection

the radioactivity in each organ was significantly readuced at 1 min and was minimum at 5min

but significantly increased at 10min. The uptake of myocardium varied within the range of 11.34-29.24 during 1-30min. High heart-to-liver and heart-to-lung ratios and rapid blood clearance were found. The results suggust that the Devarda’s alloy method is a simple and rapid reducing means for the preparation of 13 N-ammonia. 13 N-ammonia was suitable for clinical regional blood perfusion imaging. PET imaging is suitable at 2-5min after injection.

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Preparation and biodistribution of 13N-ammonia

DOI：

摘要

Abstract

关键词

Keywords

references

Preparation and biodistribution of ¹³N-ammonia