School of Public Health, University of Memphis, Memphis, TN 38152, USA.
Sci Total Environ. 2012 Mar 1;419:225-32. doi: 10.1016/j.scitotenv.2011.12.055. Epub 2012 Jan 26.
Volatile organic compounds (VOCs) in human blood are an effective biomarker of environmental exposure and are closely linked to health outcomes. Unlike VOC concentrations in air, which are routinely collected, blood VOC data are not as readily available. This study aims to develop the quantitative relationship between air and blood VOCs by deriving population-based blood/air distribution coefficients (popKs) of ten common VOCs in the general U.S. population. Air and human blood samples were collected from 364 adults aged 20-59 years in 1999-2000 National Health and Nutrition Examination Survey (NHANES). Determinants of popKs were identified using weighted multivariate regression models. In the non-smoking population, median popKs ranged from 3.1 to 77.3, comparable to values obtained in the laboratory. PopKs decreased with increasing airborne VOC concentrations. Smoking elevated popKs by 1.5-3.5 times for aromatic compounds, but did not affect the popKs for methyl tert-butyl ether (MTBE) or chlorinated compounds. Drinking water concentration was a modifier of MTBE's popK. Age, gender, body composition, nor ethnicity affected popKs. PopKs were predictable using linear models with air concentration as the independent variable for both adults and children. This is the first study to estimate blood/air distribution coefficients using simultaneous environmental and biological monitoring on a national population sample. This study was also the first to determine the blood/air distribution coefficient of p-dichlorobenzene, a compound frequently found in indoor environments. These results have applications in exposure assessment, pharmacokinetic analysis, physiologically-based pharmacokinetic (PBPK) modeling, and uncertainty analysis.
血液中的挥发性有机化合物 (VOCs) 是环境暴露的有效生物标志物,与健康结果密切相关。与常规采集的空气 VOC 浓度不同,血液 VOC 数据并不容易获得。本研究旨在通过推导美国普通人群中十种常见 VOC 的基于人群的血/气分配系数 (popKs),建立空气和血液 VOC 之间的定量关系。1999-2000 年,在美国国家健康和营养调查 (NHANES) 中,从 364 名 20-59 岁的成年人中收集了空气和人血样本。使用加权多变量回归模型确定了 popKs 的决定因素。在不吸烟人群中,中位数 popKs 范围为 3.1 至 77.3,与实验室获得的值相当。popKs 随空气 VOC 浓度的增加而降低。芳香族化合物的吸烟使 popKs 增加了 1.5-3.5 倍,但对甲基叔丁基醚 (MTBE) 或氯化化合物的 popKs 没有影响。饮用水浓度是 MTBE popK 的修饰剂。年龄、性别、身体成分或种族均不影响 popKs。对于成年人和儿童,popKs 可以使用空气浓度作为自变量的线性模型进行预测。这是第一项使用环境和生物同时监测对全国人群样本估计血/气分配系数的研究。本研究还首次确定了 p-二氯苯的血/气分配系数,p-二氯苯是一种经常在室内环境中发现的化合物。这些结果在暴露评估、药代动力学分析、基于生理学的药代动力学 (PBPK) 建模和不确定性分析中具有应用。
