Department of Applied Environmental Science, Stockholm University, S-106 91 Stockholm, Sweden.
Sci Total Environ. 2011 Apr 1;409(9):1726-31. doi: 10.1016/j.scitotenv.2011.01.044. Epub 2011 Feb 21.
Chemical partition coefficients between environmental media and biological tissues are a key component of bioaccumulation models. The single-parameter linear free energy relationships (spLFERs) commonly used for predicting partitioning are often derived using apolar chemicals and may not accurately capture polar chemicals. In this study, a poly-parameter LFER (ppLFER) based model of organic chemical bioaccumulation in humans is presented. Chemical partitioning was described by an air-body partition coefficient that was a volume weighted average of ppLFER based partition coefficients for the major organs and tissues constituting the human body. This model was compared to a spLFER model treating the body as a mixture of lipid (≈ octanol) and water. Although model agreement was good for hydrophobic chemicals (average difference 15% for log K(OW)>4 and log K(OA)>8), the ppLFER model predicted ~90% lower body burdens for hydrophilic chemicals (log K(OW)<0). This was mainly due to lower predictions of muscle and adipose tissue sorption capacity for these chemicals. A comparison of the predicted muscle and adipose tissue sorption capacities of hydrophilic chemicals with measurements indicated that the ppLFER and spLFER models' uncertainties were similar. Consequently, little benefit from the implementation of ppLFERs in this model was identified.
环境介质和生物组织之间的化学分配系数是生物累积模型的一个关键组成部分。用于预测分配的单参数线性自由能关系 (spLFER) 通常是使用非极性化学物质推导出来的,可能无法准确捕捉极性化学物质。在这项研究中,提出了一种基于多参数 LFER (ppLFER) 的人体有机化学生物累积模型。化学分配通过空气-体分配系数来描述,该系数是构成人体的主要器官和组织的基于 ppLFER 的分配系数的体积加权平均值。将该模型与将身体视为脂质 (≈辛醇) 和水混合物的 spLFER 模型进行了比较。尽管对于疏水性化学物质,模型的一致性很好(log K(OW)>4 和 log K(OA)>8 的平均差异为 15%),但 ppLFER 模型预测亲水性化学物质的体内负荷低约 90%(log K(OW)<0)。这主要是由于这些化学物质对肌肉和脂肪组织的吸附能力预测较低。亲水化学物质的预测肌肉和脂肪组织吸附能力与测量值的比较表明,ppLFER 和 spLFER 模型的不确定性相似。因此,在该模型中实施 ppLFER 没有带来明显的好处。
