Bo Shao, Tai-Yi Jin, Xun-Wei Wu, Qing-Hu Kong, Ting-Ting Ye
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引用次数: 0
摘要
目的:基于两组职业流行病学资料,利用基准剂量(BMD)估算生物暴露限值(BEL)。方法:选取某镉冶炼厂和某锌制品厂镉暴露工人。居住在同一地区的医生、护士或店员作为对照组。以尿镉(UCd)作为暴露生物标志物,以尿β -微球蛋白(B2M)、n -乙酰-13- d -氨基葡萄糖酶(NAG)和白蛋白(ALB)作为效应生物标志物。所有尿液参数均通过尿肌酐调整。采用BMDS软件(Version 1.3.2, epa . usa)计算骨密度。结果:以对照组有效生物标志物的95%为上限确定分界点(异常值)。生物标志物(尿B2M、NAG;ALB)和暴露生物标志物(UCd)。作为有效的生物标志物,UB2M的BEL值为5微克/克肌酐,与世卫组织的推荐一致。利用BMD法可以估计BEL。作为UNAG的有效生物标志物,BEL值为3微克/克肌酐。使用的生物标志物越敏感,保护的职业人群就越多。结论:BMD可用于生物暴露限值(BEL)的估算。UNAG是评估镉暴露后BEL的敏感生物标志物。
Application of benchmark dose (BMD) in estimating biological exposure limit (BEL) to cadmium.
Objective: To estimate the biological exposure limit (BEL) using benchmark dose (BMD) based on two sets of data from occupational epidemiology.
Methods: Cadmium-exposed workers were selected from a cadmium smelting factory and a zinc product factory. Doctors, nurses or shop assistants living in the same area served as a control group. Urinary cadmium (UCd) was used as an exposure biomarker and urinary beta2-microgloburin (B2M), N-acetyl-13-D-glucosaminidase (NAG) and albumin (ALB) as effect biomarkers. All urine parameters were adjusted by urinary creatinine. Software of BMDS (Version 1.3.2, EPA.U.S.A) was used to calculate BMD.
Results: The cut-off point (abnormal values) was determined based on the upper limit of 95% of effect biomarkers in control group. There was a significant dose response relationship between the effect biomarkers (urinary B2M, NAG; and ALB) and exposure biomarker (UCd). BEL value was 5 microg/g creatinine for UB2M as an effect biomarker, consistent with the recommendation of WHO. BEL could be estimated by using the method of BMD. BEL value was 3 microg/g creatinine for UNAG as an effect biomarker. The more sensitive the used biomarker is, the more occupational population will be protected.
Conclusion: BMD can be used in estimating the biological exposure limit (BEL). UNAG is a sensitive biomarker for estimating BEL after cadmium exposure.
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