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石墨炉原子吸收分光光度法测定人尿中砷含量 被引量:3

Determination of arsenic in human urine by graphite furnace atomic absorption spectroscopy
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摘要 目的:建立石墨炉原子吸收分光光度法测定人尿中砷含量。方法:使用镀层石墨管、塞曼背景校正,用氯化钯、高锰酸钾和 Triton X-100处理样品,在193.7nm 波长处测定。结果:测定尿砷浓度的线性范围10~100ng·mL^(-1)(r=0.9993),定量下限10ng·mL^(-1);石墨管管内 RSD 为6.23%~4.74%,管间 RSD 为6.30%~4.26%;方法回收率99.60%~102.9%;20,40,100ng·mL^(-1)质控 RSD 为10.63%,7.88%,5.57%;测定了158名住院病人尿砷含量,75.95%的尿样砷含量低于定量下限,砷含量最高的样品浓度为268.4ng·mL^(-1)。结论:本方法简便、可靠,适用于临床尿砷含量测定和筛查。 Objective:To establish an atomic absorption spectroscopy method to determinate concentration of arsenic in human urine. Method:The analysis was carried on plating graphite tube,with zeeman background correction. We used PdCl2, KMnO4 and Triton X - 100 to deal with sample, and determined under 193.7 nm. Results:The linear range was 10 - 100 ng · mL^-1 ( r = 0. 9993 ) , the limit of quantitation was 10 ng · mL ^- 1, intra - tube RSD was 6. 23% -4.74% ,inter - tube RSD was 6. 30% -4.26%, recovery rate was 99.60% - 102.9%, RSD of quality control by 20,40,100 ng · mL^-1 was 10.63% ,7.88% ,5.57% ;we used this method on 158 patients' urine samples, the arsenic concentration in 75.95% samples was below limit of quantitation (10 ng · mL^-1 ), the highest arsenic concentration was 268.4 ng · mL^-1. Conclusion:This method is rapid, reliable and suitable for clinical samples screening.
作者 丁庆明 王辉 张相林
机构地区 中日友好医院药学部
出处 《药物分析杂志》 CAS CSCD 北大核心 2006年第10期1441-1444,共4页 Chinese Journal of Pharmaceutical Analysis
关键词 石墨炉原子吸收分光光度法 尿砷含量测定 graphite furnace atomic absorption spectrometer determination of arsenic in human urine
分类号 R917 [医药卫生—药物分析学]
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参考文献5

  • 1倪建华,陈国强,沈志祥,李秀松,刘海卫,黄燕婷,方智雯,陈赛娟,王振义,陈竺.静脉滴注三氧化二砷治疗急性早幼粒细胞白血病的药代动力学分析[J].中华血液学杂志,1997,18(5):250-253. 被引量:102
  • 2Tseng WC, Yang MH, Chen TP,et al. Automated, continuous, and dynamic speciation of urinary arsenic in the bladder of living organisms using microdialysis sampling coupled on - line with high performance liquid chromatography and hydride generation atomic absorption spectrometry. Analyst ,2002,127 (4) :560
  • 3Alauddin M, Alauddin ST, Bhattacharjee M, et al. Speciation of arsenic metabolite intermediates in human urine by ion - exchange chromatography and flow injection hydride generation atomic absorption spectrometry. J Environ Sci Health A ,2003,38 (1) :115
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二级参考文献9

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共引文献110

同被引文献30

  • 1赵磊,肖婷婷,张爱华.HG-ICP-OES检测尿中总砷含量的方法探讨[J].黔南民族医专学报,2009,22(1):9-13. 被引量:7
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  • 3尹之全,姜严.应用DDC-Ag分光光度法检测尿砷需要注意的几个问题[J].卫生职业教育,2007,25(4):113-113. 被引量:5
  • 4闫惠珍,刘俊娓,樊荣涛.顺序注射氢化物发生—原子荧光法测定尿中砷[J].卫生研究,2007,36(5):614-615. 被引量:1
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  • 10Alauddin M, Alauddin ST. Speciation of arsenic metabolite intermediate in human urine by ion-exchange hromatography and flow injection hy- dride generation atomic absorption spectrometry [ J ]. J Environ Sci Health A,2003,38:115.

引证文献3

二级引证文献10

药物分析杂志
2006年 第10期

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