经皮渗透研究中皮肤厚度与受试化合物物理化学性质的相互作用

Interactions of skin thickness and physicochemical properties of test compounds in percutaneous penetration studies.

作者信息

Wilkinson Simon C, Maas Wilfred J M, Nielsen Jesper Bo, Greaves Laura C, van de Sandt Johannes J M, Williams Faith M

机构信息

School of Clinical and Laboratory Sciences, University of Newcastle, Newcastle upon Tyne, NE2 4HH, UK.

出版信息

Int Arch Occup Environ Health. 2006 May;79(5):405-13. doi: 10.1007/s00420-005-0056-5. Epub 2006 Jan 25.

DOI:10.1007/s00420-005-0056-5

PMID:16435152

Abstract

OBJECTIVES

To determine the effect of skin thickness on the percutaneous penetration and distribution of test compounds with varying physicochemical properties using in vitro systems. Studies were carried out in accordance with OECD guidelines on skin absorption tests.

METHODS

Percutaneous penetration of caffeine (log P -0.01), testosterone (log P 3.32), propoxur (log P 1.52) (finite dose in ethanol to water vehicle ratio) and butoxyethanol (log P 0.83) (undiluted finite dose or as an infinite dose 50% [v/v] aqueous solution) through skin of varying thicknesses under occluded conditions was measured using flow through cells for 8-24 h. Saline (adjusted to pH 7.4) was used as receptor fluid, with BSA added for studies with testosterone and propoxur. Following exposure, the remaining surface dose was removed by swabbing and the skin digested prior to scintillation counting.

RESULTS

The maximum flux of caffeine was increased with decreasing skin thickness, although these differences were found to be non-significant. The presence of caffeine in the skin membrane was not altered by skin thickness. Maximum flux and cumulative dose absorbed of testosterone and butoxyethanol (in both finite and infinite doses) were markedly reduced with full thickness (about 1 mm thick) skin compared with split thickness skin (about 0.5 mm). Maximum flux of propoxur (dissolved in 60% ethanol) was clearly higher through skin of 0.71 mm than through skin of 1.36 mm, but no difference was found between 0.56 and 0.71 mm. The proportion of propoxur present in the membrane after 24 h increased significantly over the complete range of thicknesses tested (0.56-1.36 mm).

CONCLUSIONS

A complex relationship exists between skin thickness, lipophilicity and percutaneous penetration and distribution. This has implications for risk assessment studies and for the validation of models with data from different sources.

摘要

目的

使用体外系统确定皮肤厚度对具有不同理化性质的受试化合物经皮渗透和分布的影响。研究按照经合组织关于皮肤吸收试验的指南进行。

方法

使用流通池在封闭条件下测量咖啡因（log P -0.01）、睾酮（log P 3.32）、残杀威（log P 1.52）（在乙醇与水的载体比例中为有限剂量）和丁氧基乙醇（log P 0.83）（未稀释的有限剂量或作为50%[v/v]水溶液的无限剂量）透过不同厚度皮肤的经皮渗透情况，持续8 - 24小时。使用盐水（调节至pH 7.4）作为接受液，在睾酮和残杀威的研究中添加牛血清白蛋白。暴露后，通过擦拭去除剩余的表面剂量，并在闪烁计数前消化皮肤。

结果

咖啡因的最大通量随着皮肤厚度的减小而增加，尽管这些差异无统计学意义。皮肤厚度未改变皮肤膜中咖啡因的存在情况。与分层厚度皮肤（约0.5毫米厚）相比，全厚度（约1毫米厚）皮肤使睾酮和丁氧基乙醇（有限剂量和无限剂量）的最大通量和累积吸收剂量显著降低。残杀威（溶解于60%乙醇中）透过0.71毫米皮肤的最大通量明显高于透过1.36毫米皮肤的最大通量，但在0.56毫米和0.71毫米之间未发现差异。在测试的整个厚度范围内（0.56 - 1.36毫米），24小时后残杀威在膜中的比例显著增加。

结论

皮肤厚度、亲脂性与经皮渗透和分布之间存在复杂关系。这对风险评估研究以及使用来自不同来源的数据验证模型具有重要意义。

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经皮渗透研究中皮肤厚度与受试化合物物理化学性质的相互作用

Interactions of skin thickness and physicochemical properties of test compounds in percutaneous penetration studies.

作者信息

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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