PERIODIC CONTROL OF RATE OF DRUG PERMEATION THROUGH THE SKIN WITH IONTORHORESIS
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概要
- 論文の詳細を見る
Iontophoresis, which enhances the rate of charged drugs through a membrane by applying an electric current, is a novel promising technique for a drug delivery system. The authors used iontophoresis to enhance the skin permeability of drugs in transdermal delivery. In vitro permeation experiments across a piece of excised hairless mouse skin were made with/without electric field application. A model drug, benzoic acid (BA, MW = 122), did not passively penetrate through the intact hairless mouse skin at pH = 7.4 (almost completely ionized); however, it could appreciably permeate through the skin when an electric current density of 3.0 A/m2 was applied. The permeation flux of BA through the skin was linearly changed with the electric current density, which makes it possible to control drug concentration in the blood periodically. The permeation flux of dexamethasone sodium m-sulfobenzoate (MW = 599), which is larger than BA, was also enhanced by applying iontophoresis.Computer simulation was performed for iontophoresis experiments using transport parameters determined from passive diffusion experiments. Experimental findings under iontophoresis were well correlated by the results of computer simulation, which may be useful for designing an optimal administrating schedule for a specific drug.
- 社団法人 化学工学会の論文
- 1996-10-20
著者
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TANAKA Kohji
Department of Toxicology and Teratology Developmental Research Laboratories, Dainippon Pharmaceutica
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Tanaka Kohji
Department Of Biochemical Engineering And Science College Of Computer Science And Systems Engineerin
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Yamashita Akihiro
Department of Bioresource Science, Faculty of Agriculture, Kagawa University
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TOJO Kakuji
Department of Biochemical Science and Engineering, College of Computer Science and Biosystems Engine
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Yamashita Akihiro
Department Of Biochemical Engineering And Science College Of Computer Science And Systems Engineerin
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Tojo Kakuji
Department Of Biochemical Engineering And Science College Of Computer Science And Systems Engineerin
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