Summit Toxicology, L.L.P., Allenspark, CO, USA.
Regul Toxicol Pharmacol. 2012 Feb;62(1):62-73. doi: 10.1016/j.yrtph.2011.12.001. Epub 2011 Dec 9.
Biomonitoring Equivalents (BEs) are defined as the concentration or range of concentrations of a chemical or its metabolite in a biological medium (blood, urine, or other medium) that is consistent with an existing health-based exposure guideline such as a reference dose (RfD) or tolerable daily intake (TDI). BE values can be used as a screening tool for the evaluation of population-based biomonitoring data in the context of existing risk assessments. This study reviews available health based risk assessments and exposure guidance values for benzene from the United States Environmental Protection Agency (US EPA), Texas Commission on Environmental Quality (TCEQ), California's Office of Environmental Health Hazard Assessment (OEHHA) and the Agency for Toxic Substances and Disease Registry (ATSDR) to derive BE values for benzene in blood and urine. No BE values were derived for any of the numerous benzene metabolites or hemoglobin and albumin adducts. Using existing physiologically based pharmacokinetic (PBPK) models, government risk assessment values were translated into corresponding benzene levels in blood assuming chronic steady-state exposures. BEs for benzene in urine were derived using measured correlations between benzene in urine with benzene in blood. The BE values for benzene in blood range from 0.04 to 1.29 μg/L, depending upon the underlying non-cancer risk assessment used in deriving the BE. Sources of uncertainty relating to both the basis for the BE values and their use in evaluation of biomonitoring data, including the transience of the biomarkers relative to exposure frequency, are discussed. The BE values derived here can be used as screening tools for evaluation of population biomonitoring data for benzene in the context of the existing risk assessment and can assist in prioritization of the potential need for additional risk assessment efforts for benzene relative to other chemicals.
生物监测等效物 (BEs) 定义为化学物质或其代谢物在生物介质(血液、尿液或其他介质)中的浓度或浓度范围,与现有的基于健康的暴露指南(如参考剂量 (RfD) 或可耐受每日摄入量 (TDI))一致。BE 值可作为评估现有风险评估背景下基于人群的生物监测数据的筛选工具。本研究综述了来自美国环境保护署 (US EPA)、德克萨斯州环境质量委员会 (TCEQ)、加利福尼亚州环境健康危害评估办公室 (OEHHA) 和毒物和疾病登记署 (ATSDR) 的苯的基于健康的风险评估和暴露指导值,以推导出血液和尿液中苯的 BE 值。对于苯的许多代谢物或血红蛋白和白蛋白加合物,没有推导出任何 BE 值。使用现有的基于生理学的药代动力学 (PBPK) 模型,将政府风险评估值转换为假定慢性稳定暴露时血液中相应的苯水平。使用尿液中苯与血液中苯之间的实测相关性推导出尿液中苯的 BE 值。血液中苯的 BE 值范围为 0.04 至 1.29 μg/L,具体取决于推导 BE 时使用的非癌症风险评估。讨论了与 BE 值的基础及其在生物监测数据评估中的使用有关的不确定性来源,包括生物标志物相对于暴露频率的短暂性。这里推导的 BE 值可作为评估现有风险评估背景下人群生物监测数据的筛选工具,并有助于相对于其他化学物质优先考虑苯进行额外风险评估的潜在需求。
