一种用于评估特比萘芬离子导入经甲给药敷贴器的离体脚趾模型。

An ex vivo toe model used to assess applicators for the iontophoretic ungual delivery of terbinafine.

作者信息

Nair Anroop B, Kim Hyun D, Davis Shawn P, Etheredge Robert, Barsness Michael, Friden Phillip M, Murthy S Narasimha

机构信息

Department of Pharmaceutics, School of Pharmacy, The University of Mississippi, University, MS 38677, USA.

出版信息

Pharm Res. 2009 Sep;26(9):2194-201. doi: 10.1007/s11095-009-9934-y. Epub 2009 Jul 7.

DOI:10.1007/s11095-009-9934-y

PMID:19582550

Abstract

PURPOSE

An ex vivo intact toe model was developed to assess two different applicator designs for iontophoretic delivery of terbinafine into the nail only or the nail and surrounding skin.

METHODS

Iontophoretic permeation studies were carried out on intact cadaver toes using nail-only and nail/skin applicators with a current dose of 10 mA*min (0.5 mA for 20 min).

RESULTS

Iontophoresis enhanced drug permeation and tissue loading with both applicators tested. Greater drug delivery was observed with the nail/skin applicator due to the additional terbinafine being delivered directly through the lower impedance skin area surrounding the nail. The concentration of drug loaded into the contact area of the nail with the nail-only and nail/skin applicator was ~13 and ~7 fold higher than their respective passive delivery levels but equivalent from each other in total drug mass delivered over the whole nail plate. In vitro release of drug from the iontophoretically loaded nails into agar suggests that a single treatment could have a prolonged effect (>50 days).

CONCLUSIONS

This study demonstrates that the ex vivo toe model was useful in assessing the functionality of the different applicator designs. These results suggest that iontophoresis can significantly enhance the delivery of drugs to both the hard and soft tissues of the toe for the treatment of onychomycosis and other nail disorders.

摘要

目的

开发一种离体完整脚趾模型，以评估两种不同的给药器设计，用于将特比萘芬通过离子导入仅输送至指甲或同时输送至指甲及周围皮肤。

方法

使用仅针对指甲和针对指甲/皮肤的给药器，以10 mA·min（0.5 mA，持续20分钟）的电流剂量，对完整的尸体脚趾进行离子导入渗透研究。

结果

在所测试的两种给药器中，离子导入均增强了药物渗透和组织负载。由于额外的特比萘芬直接通过指甲周围较低阻抗的皮肤区域输送，因此在针对指甲/皮肤的给药器中观察到了更大的药物递送量。仅针对指甲和针对指甲/皮肤的给药器在指甲接触区域负载的药物浓度分别比各自的被动递送水平高约13倍和7倍，但在整个指甲板上递送的总药物量彼此相当。从离子导入负载的指甲向琼脂中的药物体外释放表明，单次治疗可能具有延长的效果（>50天）。

结论

本研究表明，离体脚趾模型可用于评估不同给药器设计的功能。这些结果表明，离子导入可显著增强药物向脚趾的硬组织和软组织的递送，用于治疗甲癣和其他指甲疾病。

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本文引用的文献

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一种用于评估特比萘芬离子导入经甲给药敷贴器的离体脚趾模型。

An ex vivo toe model used to assess applicators for the iontophoretic ungual delivery of terbinafine.

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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