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利用皮肤电阻筛选用于透皮给药的化学渗透促进剂。

Screening of chemical penetration enhancers for transdermal drug delivery using electrical resistance of skin.

作者信息

Rachakonda Vijay Krishna, Yerramsetty Krishna Mohan, Madihally Sundararajan V, Robinson Robert L, Gasem Khaled A M

机构信息

School of Chemical Engineering, Oklahoma State University, Stillwater, Oklahoma 74078, USA.

出版信息

Pharm Res. 2008 Nov;25(11):2697-704. doi: 10.1007/s11095-008-9696-y. Epub 2008 Aug 6.

DOI:10.1007/s11095-008-9696-y
PMID:18683029
Abstract

PURPOSE

A novel technique is presented for identifying potential chemical penetration enhancers (CPEs) based on changes in the electrical resistance of skin.

METHODS

Specifically, a multi-well resistance chamber was designed and constructed to facilitate more rapid determination of the effect of CPEs on skin resistance. The experimental setup was validated using nicotine and decanol on porcine skin in vitro. The multi-well resistance chambers were capable of operating at 37 degrees C in order to simulate the physiological temperature of the human body. Further, the utility of the multi-well resistance chamber technique was validated using standard Franz diffusion cells. Electrical resistance measurements were used to evaluate the potency of seven new potential CPEs, identified using virtual screening algorithms. From the resistance measurements, the chemicals 1-dodecyl-2-pyrrolidinone (P), menthone (M) and R(+)-3-amino-1-hydroxy-2-pyrrolidinone (C) were identified as the better penetration enhancers among the seven tested. Further, traditional permeation experiments were performed in Franz diffusion cells to confirm our findings.

RESULTS

The permeation test results indicated that, of the three CPEs deemed potentially viable using the newly-developed resistance screening technique, both P and M increased the permeation of the test drug (melatonin) through skin in 48 h.

CONCLUSION

In summary, this resistance technique can be used to effectively pre-evaluate potential CPEs, thereby reducing the time required to conduct the permeability studies.

摘要

目的

提出一种基于皮肤电阻变化来识别潜在化学渗透促进剂(CPEs)的新技术。

方法

具体而言,设计并构建了一个多孔电阻室,以更快速地测定CPEs对皮肤电阻的影响。使用尼古丁和癸醇在猪皮上进行体外实验,对实验装置进行验证。多孔电阻室能够在37摄氏度下运行,以模拟人体的生理温度。此外,使用标准的弗兰兹扩散池对多孔电阻室技术的实用性进行了验证。通过电阻测量来评估使用虚拟筛选算法识别出的七种新的潜在CPEs的效力。从电阻测量结果来看,在测试的七种物质中,化学物质1-十二烷基-2-吡咯烷酮(P)、薄荷酮(M)和R(+)-3-氨基-1-羟基-2-吡咯烷酮(C)被确定为较好的渗透促进剂。此外,在弗兰兹扩散池中进行了传统的渗透实验以证实我们的发现。

结果

渗透测试结果表明,在使用新开发的电阻筛选技术认为可能可行的三种CPEs中,P和M在48小时内均增加了测试药物(褪黑素)透过皮肤的渗透率。

结论

总之,这种电阻技术可用于有效地预先评估潜在的CPEs,从而减少进行渗透性研究所需的时间。

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