Keat Theng Chow1, Lai Wah Chan, Paul W S Heng. 1. Department of Pharmacy, Faculty of Science, National University of Singapore, Singapore. keatchow@uts.cc.utexas.edu
Abstract
PURPOSE: This study was aimed at formulating a hydrophilic non-aqueous gel for topical delivery of the model moisture-sensitive drug, minocycline hydrochloride (MH). METHODS: Stability study of MH dissolved in water and various hydrophilic non-aqueous solvents was performed over a period of four months in order to select a suitable non-aqueous solvent for MH gel. To improve MH stability, the effect of different cation additives on MH stability in the selected solvent was investigated. Non-aqueous gel matrices were prepared from three different types of hydrophilic polymers in glycerin-propylene glycol mixture with Mg(2+) cation additive. Oscillatory shear rheometry was performed on the gel matrices using a cone-and-plate rheometer. RESULTS: MH stability was affected by the type of solvent employed and the duration of storage. Different cation additives affected the extent of MH stabilization through MH-cation complex formation. Rheological properties of the non-aqueous gel matrices were significantly affected by the type and concentration of polymer, and the vehicle ratios in the formulations. CONCLUSIONS: MH stabilization could be achieved using the selected glycerin-propylene glycol mixture containing MgCl(2). Gel matrix formulated using this solvent system and 3%w/w N-vinylacetamide/sodium acrylate copolymer had demonstrated the most favorable rheological properties as a gel for topical application.
PURPOSE: This study was aimed at formulating a hydrophilic non-aqueous gel for topical delivery of the model moisture-sensitive drug, minocycline hydrochloride (MH). METHODS: Stability study of MH dissolved in water and various hydrophilic non-aqueous solvents was performed over a period of four months in order to select a suitable non-aqueous solvent for MH gel. To improve MH stability, the effect of different cation additives on MH stability in the selected solvent was investigated. Non-aqueous gel matrices were prepared from three different types of hydrophilic polymers in glycerin-propylene glycol mixture with Mg(2+) cation additive. Oscillatory shear rheometry was performed on the gel matrices using a cone-and-plate rheometer. RESULTS:MH stability was affected by the type of solvent employed and the duration of storage. Different cation additives affected the extent of MH stabilization through MH-cation complex formation. Rheological properties of the non-aqueous gel matrices were significantly affected by the type and concentration of polymer, and the vehicle ratios in the formulations. CONCLUSIONS:MH stabilization could be achieved using the selected glycerin-propylene glycol mixture containing MgCl(2). Gel matrix formulated using this solvent system and 3%w/w N-vinylacetamide/sodium acrylate copolymer had demonstrated the most favorable rheological properties as a gel for topical application.
Authors: Yong Zhang; Matthew P Sadgrove; Katsuhiko Sueda; Yu-Tsai Yang; Erik K Pacyniak; John R Kagel; Brenda A Braun; William C Zamboni; Russell J Mumper; Michael Jay Journal: AAPS J Date: 2013-02-07 Impact factor: 4.009