尼古丁水溶液经皮渗透通量的浓度依赖性反映了载体引起的尼古丁在角质层中滞留情况的变化。

Concentration dependency in nicotine skin penetration flux from aqueous solutions reflects vehicle induced changes in nicotine stratum corneum retention.

作者信息

Kuswahyuning Rina, Roberts Michael S

机构信息

Therapeutics Research Centre, School of Pharmacy & Medical Sciences, University of South Australia, Adelaide, SA, 5000, Australia.

出版信息

Pharm Res. 2014 Jun;31(6):1501-11. doi: 10.1007/s11095-013-1256-4. Epub 2014 Jan 23.

DOI:10.1007/s11095-013-1256-4

PMID:24452807

Abstract

PURPOSE

This study sought to understand the mechanism by which the steady state flux of nicotine across the human skin from aqueous solutions is markedly decreased at higher nicotine concentrations.

METHODS

Nicotine's steady state flux through human epidermis and its amount in the stratum corneum for a range of aqueous nicotine solutions was determined using Franz diffusion cells, with the nicotine analysed by high performance liquid chromatography (HPLC). Nicotine's thermodynamic activity in the various solutions was estimated from its partial vapour pressure and stratum corneum hydration was determined using a corneometer. The amount of nicotine retained in the stratum corneum was estimated from the nicotine amount found in individual stratum corneum tape strips and a D-Squame determined weight for each strip.

RESULTS

The observed steady state flux of nicotine across human epidermis was found to show a parabolic dependence on nicotine concentration, with the flux proportional to its thermodynamic activity up to a concentration of 48% w/w. The nicotine retention in the stratum corneum showed a similar dependency on concentration whereas the diffusivity of nicotine in the stratum corneum appeared to be concentration independent. This retention, in turn, could be estimated from the extent of stratum corneum hydration and the nicotine concentration in the applied solution and volume of water in the skin.

CONCLUSIONS

Nonlinear dependency of nicotine skin flux on its concentration results from a dehydration induced decrease in its stratum corneum retention at higher concentration and not dehydration induced changes nicotine diffusivity in the stratum corneum.

摘要

目的

本研究旨在了解在较高尼古丁浓度下，尼古丁从水溶液穿过人体皮肤的稳态通量显著降低的机制。

方法

使用Franz扩散池测定一系列尼古丁水溶液中尼古丁穿过人表皮的稳态通量及其在角质层中的含量，采用高效液相色谱法（HPLC）分析尼古丁。根据其分压估算各种溶液中尼古丁的热力学活性，使用角质层水合测定仪测定角质层水合情况。根据单个角质层胶带条中发现的尼古丁量以及每个条带的D-Squame测定重量估算角质层中保留的尼古丁量。

结果

观察到尼古丁穿过人表皮的稳态通量对尼古丁浓度呈抛物线依赖性，在浓度达到48% w/w之前，通量与其热力学活性成正比。角质层中尼古丁的保留量对浓度也有类似的依赖性，而尼古丁在角质层中的扩散率似乎与浓度无关。这种保留量反过来可以根据角质层水合程度、所用溶液中的尼古丁浓度以及皮肤中的水量来估算。

结论

尼古丁皮肤通量对其浓度的非线性依赖性是由于在较高浓度下脱水导致其在角质层中的保留量减少，而不是脱水导致尼古丁在角质层中的扩散率发生变化。

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尼古丁水溶液经皮渗透通量的浓度依赖性反映了载体引起的尼古丁在角质层中滞留情况的变化。

Concentration dependency in nicotine skin penetration flux from aqueous solutions reflects vehicle induced changes in nicotine stratum corneum retention.

作者信息

Kuswahyuning Rina, Roberts Michael S

机构信息

Therapeutics Research Centre, School of Pharmacy & Medical Sciences, University of South Australia, Adelaide, SA, 5000, Australia.

出版信息

Pharm Res. 2014 Jun;31(6):1501-11. doi: 10.1007/s11095-013-1256-4. Epub 2014 Jan 23.

DOI:10.1007/s11095-013-1256-4

PMID:24452807

Abstract

PURPOSE

This study sought to understand the mechanism by which the steady state flux of nicotine across the human skin from aqueous solutions is markedly decreased at higher nicotine concentrations.

METHODS

RESULTS

CONCLUSIONS

摘要

目的

本研究旨在了解在较高尼古丁浓度下，尼古丁从水溶液穿过人体皮肤的稳态通量显著降低的机制。

尼古丁水溶液经皮渗透通量的浓度依赖性反映了载体引起的尼古丁在角质层中滞留情况的变化。

Concentration dependency in nicotine skin penetration flux from aqueous solutions reflects vehicle induced changes in nicotine stratum corneum retention.

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尼古丁水溶液经皮渗透通量的浓度依赖性反映了载体引起的尼古丁在角质层中滞留情况的变化。

Concentration dependency in nicotine skin penetration flux from aqueous solutions reflects vehicle induced changes in nicotine stratum corneum retention.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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