尿硼浓度预测人体日硼暴露剂量

Prediction Human Daily Boron Exposure by Urine Boron Concentration

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摘要以辽宁某地硼矿开采和加工厂的硼作业工人以及远离硼矿的背景地区的人群作为研究对象,分析了班后尿液硼浓度与日硼暴露剂量之间的关系.结果表明,班后尿硼浓度与日硼暴露剂量之间存在着显著的对数线性关系,考虑了不同人群类别的影响之后,回归方程的拟合度达到85.9%,由此确立了用班后尿硼浓度预测日硼暴露剂量的预测方程.用此预测方程对本研究2004年的受试者日硼暴露剂量进行预测,并与实测值进行了比较,结果表明平均相对偏差为13.4%,预测值与实测值之间没有显著性的差异.说明用班后尿硼浓度预测日硼暴露剂量是可行的.对2004年所有受试者的日硼暴露剂量预测结果分析表明,硼职业暴露组、社区对照组和背景对照组的日硼暴露剂量平均值分别为36.1、4.13和1.31mg/d. Relationship between post-shift boron concentration and daily boron exposure was analyzed with the workers from boron mining and processing plants in Liaoning Province and population from sanitary background area far from boron industry as subjects. The results demonstrate that there was significant logarithm linearity correlativity between post-shift urine boron concentration and daily boron exposure, and the fittingness of the regression equation was up to 85.9% by considering of the effect of the different group of population, and the equation predicting daily boron exposure by post-shift urine boron concentration was determined. Daily boron exposures of the subjects in 2004 were predicted using this equation. Comparing of the daily boron exposure observed, the average of deviation between the boron exposures predicted and observed was 13.4 %, and there was no significant difference between the exposure value predicted and observed. Therefore, It is feasible to predict daily boron exposure by boron concentration of postshift urine. The analyzing of predicted daily boron exposure of all subjects in 2004 show that the daily boron exposure of peoples from occupational exposure group, community group and background control group were respectively 36.1, 4.13 and 1.31mg/d.

作者邢小茹魏复盛胡伟吴国平王春利

机构地区北京科技大学土木与环境工程学院中国环境监测总站丹东市环境监测站

出处《环境科学》 EI CAS CSCD 北大核心 2006年第6期1208-1211,共4页 Environmental Science

基金中美科技合作项目(1900-G-CD114) 国家环境保护总局科技项目(2002-07-08)

关键词尿硼浓度日硼暴露剂量相关性分析预测 urine boron concentration daily boron exposure relativity analysis predicting

分类号 X511.031 [环境科学与工程—环境工程] O151.21 [理学—基础数学]

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参考文献7

1Department of Health. Dietary Reference Values for Food Energy and Nutrients for the UK[R]. Report on Health and Social Subjects 41. London: HMSO, 1991.
2WHO/FAO/IAEA. Trace elements in human nutrition and health[R]. Geneva: World Health Organization, 1996,175-179.
3Wester R C, Hui X, Maibach H I, et al. In vivo percutaneous absorption of boron as boric acid, borax, and disodium octaborate tetrahydrate in humans: a summary [J ]. Biol.Trace. Elem. Res, 1998, 66: 1-3, 101-109.
4Dweight Culver B, Peter T Shen, Thomas H Taylor, et al.The relationship of blood- and urine-boron to boron exposure in borax-workers and the usefulness of urine-boron as an exposure marker [ J ]. Environment Health Perspectives, 1994, 102:(suppl 7) : 133- 137.
5邢小茹,魏复盛,吴国平,荀琳,Wendie A Robbins,王春利,魏春,姜欣,葛宏斌.硼污染的个人暴露剂量及其代谢的研究[J].中国环境科学,2005,25(3):271-274. 被引量：10
6GB4883-85．数据的统计处理和解释—正常样本异常值的判断和处理[S]．1985．
7Charlene Rainey, Leslie Nyquist. Multicountry estimation of dietary boron intake [ J ]. Biological Trace Element Research,1998, 66: 79-86.

二级参考文献7

1Murray F J. Issue in boron risk assessment: pivotal study, uncertainty factors, and ADIs [J]. Trace Element Exp. Med., 1996,9:231-243.
2Linden C H, Hall A H, Kulig K W, et al. Acute ingestions of boric acid [J]. Clin. Toxicol., 1986,24(4):269-279.
3Charlene Rainey, Leslie Nyquist. Multicountry estimation of dietary boron intake [J]. Biological Trace Element Research, 1998,66(1-3):79-86.
4Anderson D L, Cunninggham W C, Lindstrom T R. Concentrations and intakes of H, B, S, K, Na, Cl, and NaCl in foods [J]. Food Comp. Anal., 1994,7(1-2):59-82.
5WHO/FAO/IAEA. Trace elements in human nutrition and health [R]. Geneva: World Health Organization, 1996.175-179.
6Murray F J. A comparative review of the pharmacokinetics of boric acid in rodents and humans [J]. Biol. Trace Element Res., 1998,66(1-3):331-341.
7王春利,邢小茹,吴国平,司杨,魏复盛.宽甸土壤及部分农作物中硼的分布及污染分析[J].中国环境监测,2003,19(5):4-7. 被引量：25

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2邢小茹,魏复盛,吴国平,胡伟,王春利.人体硼暴露生物标志物的筛选研究[J].环境科学学报,2006,26(2):323-330. 被引量：3
3刘平,胡伟,许军,Wendie A Robbins,Xun lin,吴国平,魏复盛.硼暴露对男性精液质量的影响[J].中国环境科学,2006,26(1):43-47.
4刘平,胡伟,魏复盛,许军,吴国平,Xun lin,Wendia A Robbins.硼暴露对男性精液质量影响[J].中国公共卫生,2006,22(8):940-942. 被引量：1
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7赵英政,徐光翠,陈小玉.硼酸对去卵巢大鼠子宫雌激素受体的影响[J].环境与健康杂志,2013,30(1):75-76. 被引量：2
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5张玲玲,高志康.BOD_(5)的动态预测方程[J].淮南工业学院学报,2000,20(4):5-8.
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9廖飞,赵宝江,王秀英,谢威,赵文英.GM(1,1)模型的参数优化[J].科技致富向导,2011(33):9-9. 被引量：3
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尿硼浓度预测人体日硼暴露剂量

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