通过用两种物理增强剂预处理皮肤:微针和超声导入来增强齐多夫定的透皮递送。

Irene de Jesús Martínez-Segoviano, Adriana Ganem-Rondero
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引用次数: 1

摘要

背景:齐多夫定(AZT)是抗逆转录病毒治疗中应用最广泛的药物。为了改善这种药物的治疗,已经提出了不同的替代方案,如经皮给药。由于其物理化学性质和皮肤施加的天然渗透屏障,使用渗透增强剂对于促进药物通过皮肤是必要的。目的:评价超声和微针两种渗透增强剂对AZT经皮渗透的影响。方法:采用猪皮夹持法观察AZT溶液对弗兰兹型细胞的渗透作用。根据实验设计选择不同的条件(即振幅、占空比和应用时间),其中响应变量为皮肤表面温度的升高和经皮失水的增加。ATR-FTIR也用于证明增强剂对膜组分的影响。结果:AZT在完整皮肤中的渗透性很差,滞后期很长。皮肤超声预处理显著增加AZT转运,减少延迟时间。超声电泳在连续模式下,振幅为20%,时间为2min,获得最大通量(27.52µgcm-2 h-1)和最高总渗透量(约624µg/cm2)。超声电泳似乎对角质层蛋白有影响。相对于声泳,微针的使用进一步增加了通量(30.41µgcm-2 h-1)和总渗透量(约916µg/cm2)。结论:超声透入或微针透入促进AZT通过皮肤转运的结果令人鼓舞。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhancement of the transdermal delivery of zidovudine by pretreating the skin with two physical enhancers: microneedles and sonophoresis.

Background: Zidovudine (AZT) has been the most widely used drug for antiretroviral therapy. In order to improve the therapy with this drug, different alternatives have been proposed, such as the transdermal administration. The use of permeation enhancers is necessary to favor the passage of this drug through the skin, due to its physicochemical properties and to the natural permeation barrier imposed by the skin.

Objectives: To evaluate the effect of two permeation enhancers, sonophoresis and microneedles, on the permeability of AZT through the skin.

Methods: Permeation studies with an AZT solution were performed using pigskin clamped in Franz-type cells. Sonophoresis was applied under different conditions (i.e., amplitude, duty cycle and application time), selected according to an experimental design, where the response variables were the increase in temperature of the skin surface and the increase in transepidermal water loss. ATR-FTIR was also used to demonstrate the effect of enhancers on membrane components.

Results: The permeability of AZT through intact skin was very poor, with a very long lag time. Pretreatment of the skin with sonophoresis increased AZT transport significantly, reducing the lag time. The maximum flux (27.52 µgcm-2 h-1) and the highest total amount permeated (about 624 µg/cm2) were obtained when applying sonophoresis in continuous mode, with an amplitude of 20%, and an application time of 2 min. Sonophoresis appears to have an impact on stratum corneum proteins. The use of microneedles further increased the flux (30.41 µgcm-2 h-1) and the total amount permeated (about 916 µg/cm2), relative to sonophoresis.

Conclusion: The results are encouraging in terms of promoting AZT transport through the skin using sonophoresis or microneedles as permeation enhancers.

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