Korea Institute of Radiological and Medical Sciences Seoul, Nowon-ro 75, Nowon-Gu, Seoul, Korea.
Q-Fitter Inc., 56-24 Banpo-daero 39-gil, Seocho-gu, Seoul, 06578, Korea.
Arch Toxicol. 2021 Jun;95(6):2019-2036. doi: 10.1007/s00204-021-03041-z. Epub 2021 Apr 12.
2-Phenoxyethanol (PE), ethylene glycol monophenyl ether, is widely used as a preservative in cosmetic products as well as in non-cosmetics. Since PE has been used in many types of products, it can be absorbed via dermal or inhaled route for systemic exposures. In this study, the pharmacokinetic (PK) studies of PE and its major metabolite, phenoxyacetic acid (PAA), after dermal (30 mg and 100 mg) and inhaled administration (77 mg) of PE in rats were performed. PE was administered daily for 4 days and blood samples were collected at day 1 and day 4 for PK analysis. PE was rapidly absorbed and extensively metabolized to form PAA. After multiple dosing, the exposures of PE and PAA were decreased presumably due to the induction of metabolizing enzymes of PE and PAA. In dermal mass balance study using [C]-phenoxyethanol ([C]PE) as a microtracer, most of the PE and its derivatives were excreted in urine (73.03%) and rarely found in feces (0.66%). Based on these PK results, a whole-body physiologically-based pharmacokinetic (PBPK) model of PE and PAA after dermal application and inhalation in rats was successfully developed. Most of parameters were obtained from the literatures and experiments, and intrinsic clearance at steady-state (CL) were optimized based on the observed multiple PK data. With the developed model, systemic exposures of PE and PAA after dermal application and inhalation were simulated following no-observed-adverse-effect level (NOAEL) of 500 mg/kg/day for dermal application and that of 12.7 mg/kg/day for inhalation provided by the Environmental Protection Agency. The area under the concentration-time curve at steady state (AUC) in kidney and liver (and lung for inhalations), which are known target organs of exhibiting toxicity of PE, as well as AUC in plasma of PE and PAA were obtained from the model.
2-苯氧乙醇(PE)、乙二醇单苯醚,作为一种防腐剂被广泛应用于化妆品及非化妆品产品中。由于 PE 已被应用于多种类型的产品,所以人们可能会通过皮肤接触或吸入的方式接触到它,进而造成全身性暴露。在这项研究中,我们对大鼠经皮(30mg 和 100mg)和吸入(77mg)PE 后,PE 及其主要代谢物苯氧基乙酸(PAA)的药代动力学(PK)进行了研究。PE 每天给药一次,连续给药 4 天,于第 1 天和第 4 天采集血样进行 PK 分析。结果表明,PE 吸收迅速,并广泛代谢形成 PAA。重复给药后,PE 和 PAA 的暴露量减少,推测是由于 PE 和 PAA 代谢酶的诱导所致。在使用 [C]苯氧乙醇([C]PE)作为示踪剂的经皮物料平衡研究中,大部分 PE 及其衍生物经尿液排泄(73.03%),很少在粪便中发现(0.66%)。基于这些 PK 结果,我们成功地建立了大鼠经皮和吸入给药后 PE 和 PAA 的全身生理基于药代动力学(PBPK)模型。大多数参数均来自文献和实验,稳态时的内在清除率(CL)则是根据观察到的多个 PK 数据进行优化的。利用该模型,模拟了经皮应用和吸入应用分别达到 500mg/kg/天(经皮应用的无观察到不良效应水平(NOAEL))和 12.7mg/kg/天(吸入应用的 NOAEL)后,PE 和 PAA 的全身暴露情况。模型中还得到了肾脏和肝脏(以及肺部对于吸入物)的稳态时浓度-时间曲线下面积(AUC),以及血浆中 PE 和 PAA 的 AUC。
