Ionic liquid-in-oil microemulsions prepared with biocompatible choline carboxylic acids for improving the transdermal delivery of a sparingly soluble drug

Islam, M.R. and Chowdhury, M.R. and Wakabayashi, R. and Kamiya, N. and Moniruzzaman, M. and Goto, M. (2020) Ionic liquid-in-oil microemulsions prepared with biocompatible choline carboxylic acids for improving the transdermal delivery of a sparingly soluble drug. Pharmaceutics, 12 (4). ISSN 19994923

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Abstract

The transdermal delivery of sparingly soluble drugs is challenging due to of the need for a drug carrier. In the past few decades, ionic liquid (IL)-in-oil microemulsions (IL/O MEs) have been developed as potential carriers. By focusing on biocompatibility, we report on an IL/O ME that is designed to enhance the solubility and transdermal delivery of the sparingly soluble drug, acyclovir. The prepared MEs were composed of a hydrophilic IL (choline formate, choline lactate, or choline propionate) as the non-aqueous polar phase and a surface-active IL (choline oleate) as the surfactant in combination with sorbitan laurate in a continuous oil phase. The selected ILs were all biologically active ions. Optimized pseudo ternary phase diagrams indicated the MEs formed thermodynamically stable, spherically shaped, and nano-sized (<100 nm) droplets. An in vitro drug permeation study, using pig skin, showed the significantly enhanced permeation of acyclovir using the ME. A Fourier transform infrared spectroscopy study showed a reduction of the skin barrier function with the ME. Finally, a skin irritation study showed a high cell survival rate (>90) with the ME compared with Dulbecco�s phosphate-buffered saline, indicates the biocompatibility of the ME. Therefore, we conclude that IL/O ME may be a promising nano-carrier for the transdermal delivery of sparingly soluble drugs. © 2020 by the authors. Licensee MDPI, Basel, Switzerland.

Item Type: Article
Additional Information: cited By 48
Uncontrolled Keywords: aciclovir; carboxylic acid derivative; choline derivative; ionic liquid; oil; sorbitan laurate, animal tissue; Article; cell survival; controlled study; drug delivery system; Fourier transform infrared spectroscopy; human; human tissue; hydrophilicity; in vitro study; microemulsion; nonhuman; particle size; physical phase; pig; process optimization; survival rate; thermodynamics
Depositing User: Mr Ahmad Suhairi UTP
Date Deposited: 10 Nov 2023 03:27
Last Modified: 10 Nov 2023 03:27
URI: https://khub.utp.edu.my/scholars/id/eprint/13279

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