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尿样中14C的分析方法
引用本文:熊强,闫琳琳,陈飞,杨胜园,杨海兰,张震. 尿样中14C的分析方法[J]. 中华放射医学与防护杂志, 2021, 41(11): 843-846
作者姓名:熊强  闫琳琳  陈飞  杨胜园  杨海兰  张震
作者单位:国家卫生健康委职业安全卫生研究中心, 北京 102308;南华大学衡阳医学院, 公共卫生学院 421001;中国辐射防护研究院, 太原 030006
基金项目:环境放射性研究网络中心国际合作项目(I-21-18);天津市自然科学基金重点项目(19JCZDJC40500)
摘    要:目的 为了完善放射性核素14C的监测方法,估算14C对人体造成的内照射剂量,保护14C暴露行业职工和公众的身体健康。方法 用湿法氧化法对尿样进行前处理。分析时用过硫酸钾作为氧化剂把尿素氧化分解为二氧化碳,并用1 mol/L氢氧化钠吸收后,使吸收液转化为碳酸钙沉淀,碳酸钙粉末悬浮法制样,低本底液体闪烁计数仪检测计数并计算分析结果。结果 用尿素作为载体优化后的反应时间为1 h,对于80 ml尿样,过硫酸钾的使用量为10 g,方法回收率可达到97.15%~102.09%,测量时间300 min时,方法检测下限为0.22 Bq/L。实际检测的4个尿样中,14C活度浓度分别为0.32、0.60、0.86和0.74 Bq/L。结论 优化后的方法稳定性好,准确度高,能够满足放射卫生工作中14C日常检测的需求。尿样中14C定量方法的建立进一步完善了14C监测的方法体系。

关 键 词:14C  β核素  尿样  内照射
收稿时间:2021-05-26

Analytical method for 14C in urine
Xiong Qiang,Yan Linlin,Chen Fei,Yang Shengyuan,Yang Hailan,Zhang Zhen. Analytical method for 14C in urine[J]. Chinese Journal of Radiological Medicine and Protection, 2021, 41(11): 843-846
Authors:Xiong Qiang  Yan Linlin  Chen Fei  Yang Shengyuan  Yang Hailan  Zhang Zhen
Affiliation:National Center for Occupational Safety and Health, National Health Commission of the People''s Republic of China, Beijing 102308, China;School of Public Health, Hengyang Medical School, University of South China, Hengyang 421001, China;China Institute for Radiation Protection, Taiyuan 030006, China
Abstract:Objective To improve the analytical method of radionuclide 14C, and estimate the internal dose caused by 14C to human, in order to protect the health of workers and the public in workplaces involving potential 14C exposure. Methods Urine samples were pretreated by wet oxidation. In the analysis, potassium persulfate was used as an oxidant to decompose urea into carbon dioxide, which was absorbed by 1 mol/L sodium hydroxide, and the absorption solution was converted into calcium carbonate precipitation. After calcium carbonate powder was prepared into sample source by suspension method, the low background liquid scintillation counter was applied to measure the radioactivity, which can be used for calculating the result. Results The reaction time optimized by using carbamide as carrier was 1 h. For 80 ml urine, the amount of potassium persulfate used was 10 g. The method recovery rate reached about 100%. Four real urine samples were tested using the optimized method, and the result of activity concentration 14C was 0.32, 0.60, 0.86 and 0.74 Bq/L, respectively. Conclusions The optimized method had good stability, high accuracy and stable experimental result, which could meet the needs of routine radiological detection. The establishment of a quantitative method for 14C in urine sample has improved the methodological system for 14C monitoring.
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