Pharmaceutical Properties of Anti-inflammatory Analgesic Patches Using Acrylic Polymer

The mock patches were prepared with novel acrylic polymers as adhesive layer where biphenyl-4-ylacetic acid (BAA) or 2-(2-fluorobiphenyl-4-yl) propanoic acid (FPA) was used as model active pharmaceutical ingredients (APIs). In addition, the mock patches were formulated with typical ester ingredients...

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Veröffentlicht in:	YAKUGAKU ZASSHI 2020/09/01, Vol.140(9), pp.1175-1183
Hauptverfasser:	Gato, Katsuhiko, Shikaku, Ryogo, Kato, Suguru, Yoshimura-Fujii, Mika, Koide, Tatsuo, Fukami, Toshiro
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Sprache:	eng ; jpn
Schlagworte:	acrylic polymer adhesive property intermolecular interaction Life Sciences & Biomedicine low frequency Raman spectroscopy pharmaceutical patch Pharmacology & Pharmacy Science & Technology skin permeability
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container_title	YAKUGAKU ZASSHI
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creator	Gato, Katsuhiko Shikaku, Ryogo Kato, Suguru Yoshimura-Fujii, Mika Koide, Tatsuo Fukami, Toshiro
description	The mock patches were prepared with novel acrylic polymers as adhesive layer where biphenyl-4-ylacetic acid (BAA) or 2-(2-fluorobiphenyl-4-yl) propanoic acid (FPA) was used as model active pharmaceutical ingredients (APIs). In addition, the mock patches were formulated with typical ester ingredients for transdermal dosage forms. The molecular state of the model APIs in the adhesive layer was observed by polarized microscope and microscopic Raman spectroscopy, which contains both conventional and low frequency (LF) region. Crystallization behavior would be depended on the interaction between API and polymers in the adhesive layer. In particular, LF Raman measurement was useful to discriminate API polymorphs. The pharmaceutical properties including dissolution and skin permeation of APIs were also evaluated for mock patches. The drug release and transdermal permeation were enhanced with the ester ingredients such as isopropyl myristate and diethyl sebacate due to their diffusion to the test solution or the skin stratum corneum as well as reducing the interaction between API and polymers. Further, the tack strength was not changed, but the peel strength was weakened by the additives. Thus, the adhesive properties were controllable by formulation with the additives. These findings could enable to evaluate the interaction between API and the polymers for adhesive layer and select the appropriate polymer and additives for used APIs when designing the drug products.
doi_str_mv	10.1248/yakushi.20-00108
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subjects	acrylic polymer adhesive property intermolecular interaction Life Sciences & Biomedicine low frequency Raman spectroscopy pharmaceutical patch Pharmacology & Pharmacy Science & Technology skin permeability
title	Pharmaceutical Properties of Anti-inflammatory Analgesic Patches Using Acrylic Polymer
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