Harvard T.H. Chan School of Public Health, Exposure, Epidemiology and Risk, Occupational Hygiene Program, Boston, MA, United States.
Harvard T.H. Chan School of Public Health, Exposure, Epidemiology and Risk, Occupational Hygiene Program, Boston, MA, United States.
Int J Hyg Environ Health. 2018 Mar;221(2):231-238. doi: 10.1016/j.ijheh.2017.10.016. Epub 2017 Oct 31.
The Advanced Reach Tool V1.5 (ART) is a mathematical model for occupational exposures conceptually based on, but implemented differently than, the "classic" Near Field/Far Field (NF/FF) exposure model. The NF/FF model conceptualizes two distinct exposure "zones"; the near field, within approximately 1m of the breathing zone, and the far field, consisting of the rest of the room in which the exposure occurs. ART has been reported to provide "realistic and reasonable worst case" estimates of the exposure distribution. In this study, benzene exposure during the use of a metal parts washer was modeled using ART V1.5, and compared to actual measured workers samples and to NF/FF model results from three previous studies. Next, the exposure concentrations expected to be exceeded 25%, 10% and 5% of the time for the exposure scenario were calculated using ART. Lastly, ART exposure estimates were compared with and without Bayesian adjustment. The modeled parts washing benzene exposure scenario included distinct tasks, e.g. spraying, brushing, rinsing and soaking/drying. Because ART can directly incorporate specific types of tasks that are part of the exposure scenario, the present analysis identified each task's determinants of exposure and performance time, thus extending the work of the previous three studies where the process of parts washing was modeled as one event. The ART 50th percentile exposure estimate for benzene (0.425ppm) more closely approximated the reported measured mean value of 0.50ppm than the NF/FF model estimates of 0.33ppm, 0.070ppm or 0.2ppm obtained from other modeling studies of this exposure scenario. The ART model with the Bayesian analysis provided the closest estimate to the measured value (0.50ppm). ART (with Bayesian adjustment) was then used to assess the 75th, the 90th and 95th percentile exposures, predicting that on randomly selected days during this parts washing exposure scenario, 25% of the benzene exposures would be above 0.70ppm; 10% above 0.95ppm; and 5% above 1.15ppm. These exposure estimates at the three different percentiles of the ART exposure distribution refer to the modeled exposure scenario not a specific workplace or worker. This study provides a detailed comparison of modeling tools currently available to occupational hygienists and other exposure assessors. Possible applications are considered.
高级接触工具 V1.5(ART)是一种基于概念但与“经典”近场/远场(NF/FF)暴露模型不同的数学模型,用于职业暴露。NF/FF 模型将两种截然不同的暴露“区域”概念化;近场,在呼吸区域内约 1m 范围内,远场,由暴露发生的房间其余部分组成。ART 已被报道可提供暴露分布的“现实合理的最坏情况”估计。在这项研究中,使用金属零件清洗机时的苯暴露使用 ART V1.5 进行建模,并与实际测量的工人样本以及来自三项先前研究的 NF/FF 模型结果进行比较。接下来,使用 ART 计算了暴露场景中预计超过 25%、10%和 5%时间的暴露浓度。最后,ART 暴露估计值与未进行贝叶斯调整的暴露估计值进行了比较。建模的零件清洗苯暴露场景包括不同的任务,例如喷雾、刷洗、冲洗和浸泡/干燥。由于 ART 可以直接纳入暴露场景中特定类型的任务,因此本分析确定了每个任务的暴露和操作时间的决定因素,从而扩展了前三项研究的工作,其中零件清洗过程被建模为一个事件。ART 苯的 50 百分位数暴露估计值(0.425ppm)比 NF/FF 模型估计值(0.33ppm、0.070ppm 或 0.2ppm)更接近报告的测量平均值 0.50ppm,这三项模型估计值来自对这一暴露场景的其他建模研究。带有贝叶斯分析的 ART 模型提供了与测量值(0.50ppm)最接近的估计值。然后使用 ART(带有贝叶斯调整)来评估 75 百分位、90 百分位和 95 百分位暴露值,预测在这个零件清洗暴露场景中随机选择的日子,25%的苯暴露量将超过 0.70ppm;10%超过 0.95ppm;5%超过 1.15ppm。ART 暴露分布的这三个不同百分位的暴露估计值指的是模型化的暴露场景,而不是特定的工作场所或工人。本研究提供了目前可用于职业卫生学家和其他暴露评估人员的建模工具的详细比较。考虑了可能的应用。
