辛醇/水分配系数与脂肪与血液交换扩散限制的定量关系。

David G Levitt
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引用次数: 51

摘要

背景:基于生理的药代动力学(PBPK)的目标是通过对器官/血液交换的理解来预测药物动力学。标准的方法是假设器官是“流动受限的”,这意味着离开器官的静脉血与充分搅拌的组织腔室平衡。虽然这一假设对大多数溶质是有效的,但对于一些脂溶性非常高的化合物,它似乎是“扩散限制”的,已被证明是不正确的。本文介绍了这种脂肪扩散限制的物理基础及其对血/水(kbd -wat)和辛醇/水(Kow)分配系数的定量依赖。方法:假设组织流动受限,使用静脉或口服输入后时间依赖性大鼠血液和脂肪浓度的实验测量来估计“表观”脂肪灌注率(FA)。结果表明,FA与解剖灌注率(F)的比值是衡量扩散限制的指标。推导了扩散限制与Kbld-wat和Kow之间的定量关系。该分析应用于先前发表的数据,包括Oberg等人在口服13种不同多氯联苯混合物后对大鼠血浆和脂肪组织浓度的测量。结果:当logkow大于5.6时,溶质的扩散受到限制,当logkow为7.36时,脂肪-血液交换率降低约30倍。定量地,假设脂肪渗透率-表面积积(PS)为750/min, FA/F与Kow的关系图得到了很好的描述。这个PS对应于一个0.14微米的水层,将充分搅拌的血液与脂肪脂分开。这大约等于大鼠脂肪毛细血管内皮的厚度。结论:这些结果可用于定量脂肪-血液扩散限制作为Kow的函数。这对于高脂溶性持久性有机化学品(如多氯联苯、二恶英)尤其重要,它们的药代动力学主要由脂肪-血液交换动力学决定。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Quantitative relationship between the octanol/water partition coefficient and the diffusion limitation of the exchange between adipose and blood.

Quantitative relationship between the octanol/water partition coefficient and the diffusion limitation of the exchange between adipose and blood.

Quantitative relationship between the octanol/water partition coefficient and the diffusion limitation of the exchange between adipose and blood.

Quantitative relationship between the octanol/water partition coefficient and the diffusion limitation of the exchange between adipose and blood.

Background: The goal of physiologically based pharmacokinetics (PBPK) is to predict drug kinetics from an understanding of the organ/blood exchange. The standard approach is to assume that the organ is "flow limited" which means that the venous blood leaving the organ equilibrates with the well-stirred tissue compartment. Although this assumption is valid for most solutes, it has been shown to be incorrect for several very highly fat soluble compounds which appear to be "diffusion limited". This paper describes the physical basis of this adipose diffusion limitation and its quantitative dependence on the blood/water (Kbld-wat) and octanol/water (Kow) partition coefficient.

Methods: Experimental measurements of the time dependent rat blood and adipose concentration following either intravenous or oral input were used to estimate the "apparent" adipose perfusion rate (FA) assuming that the tissue is flow limited. It is shown that the ratio of FA to the anatomic perfusion rate (F) provides a measure of the diffusion limitation. A quantitative relationship between this diffusion limitation and Kbld-wat and Kow is derived. This analysis was applied to previously published data, including the Oberg et. al. measurements of the rat plasma and adipose tissue concentration following an oral dose of a mixture of 13 different polychlorinated biphenyls.

Results: Solutes become diffusion limited at values of log Kow greater than about 5.6, with the adipose-blood exchange rate reduced by a factor of about 30 for a solute with a log Kow of 7.36. Quantitatively, a plot of FA/F versus Kow is well described assuming an adipose permeability-surface area product (PS) of 750/min. This PS corresponds to a 0.14 micron aqueous layer separating the well-stirred blood from the adipose lipid. This is approximately equal to the thickness of the rat adipose capillary endothelium.

Conclusions: These results can be used to quantitate the adipose-blood diffusion limitation as a function of Kow. This is especially important for the highly fat soluble persistent organic chemicals (e.g. polychlorinated biphenyls, dioxins) whose pharmacokinetics are primarily determined by the adipose-blood exchange kinetics.

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