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地塞米松磷酸酯离子导入法的体外优化。

In vitro optimization of dexamethasone phosphate delivery by iontophoresis.

作者信息

Sylvestre Jean-Philippe, Guy Richard H, Delgado-Charro M Begoña

机构信息

Department of Pharmacy and Pharmacology, University of Bath, Claverton Down, Bath, United Kingdom.

出版信息

Phys Ther. 2008 Oct;88(10):1177-85. doi: 10.2522/ptj.20080043. Epub 2008 Aug 21.

DOI:10.2522/ptj.20080043
PMID:18719003
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2557054/
Abstract

BACKGROUND AND PURPOSE

This study was designed to evaluate the effects of competing ions and electroosmosis on the transdermal iontophoresis of dexamethasone phosphate (Dex-Phos) and to identify the optimal conditions for its delivery.

METHODS

The experiments were performed using pig skin, in side-by-side diffusion cells (0.78 cm(2)), passing a constant current of 0.3 mA via Ag-AgCl electrodes. Dex-Phos transport was quantified for donor solutions (anodal and cathodal) containing different drug concentrations, with and without background electrolyte. Electrotransport of co-ion, citrate, and counterions Na(+) and K(+) also was quantified. The contribution of electroosmosis was evaluated by measuring the transport of the neutral marker (mannitol).

RESULTS

Electromigration was the dominant mechanism of drug iontophoresis, and reduction in electroosmotic flow directed against the cathodic delivery of Dex-Phos did not improve drug delivery. The Dex-Phos flux from the cathode was found to be optimal (transport number of approximately 0.012) when background electrolyte was excluded from the formulation. In this case, transport of the drug is limited principally by the competition with counterions (mainly Na(+) with a transport number of approximately 0.8) and the mobility of the drug in the membrane.

DISCUSSION AND CONCLUSION

Dex-Phos must be delivered from the cathode and formulated rationally, excluding mobile co-anions, to achieve optimal iontophoretic delivery.

摘要

背景与目的

本研究旨在评估竞争离子和电渗对磷酸地塞米松(Dex-Phos)经皮离子导入的影响,并确定其给药的最佳条件。

方法

实验采用猪皮,在并排扩散池(0.78平方厘米)中进行,通过银-氯化银电极施加0.3毫安的恒定电流。对含有不同药物浓度、有无背景电解质的供体溶液(阳极和阴极)中的Dex-Phos转运进行定量。同时对共离子柠檬酸盐以及反离子Na⁺和K⁺的电转运也进行了定量。通过测量中性标记物(甘露醇)的转运来评估电渗的作用。

结果

电迁移是药物离子导入的主要机制,减少与Dex-Phos阴极给药方向相反的电渗流并不能提高药物递送效果。当制剂中不含背景电解质时,发现从阴极的Dex-Phos通量最佳(迁移数约为0.012)。在这种情况下,药物的转运主要受与反离子(主要是迁移数约为0.8的Na⁺)的竞争以及药物在膜中的迁移率限制。

讨论与结论

Dex-Phos必须从阴极给药并合理配制,排除可移动的共阴离子,以实现最佳的离子导入递送。

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