Effect of Acid Type, Acetic Acid and Sodium Carboxymethyl Cellulose Consentrations on the Formation, Micromeritic, Dissolution and Floating Properties of Theophylline Chitosan Microcapsules
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概要
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An emulsion-phase separation method was devised to prepare chitosan microcapsules containing theophylline and sodium carboxymethyl cellulose (Na CMC). The effect of acid type (acetic acid, ascorbic acid or citric acid) and Na CMC consentration on the formation, micromeritic property, release behavior and floating phenomenon of chitosan microcapsules was studied. Chitosan microcapsules prepared using an acetic acid aqueous solution as a solvent showed a more compact and less porous structure, and exhibited slow release action when compared with other chitosan microcapsules made from ascorbic acid ro citric acid. We also found that the greater the amount of Na CMC used, the slower the release and the larger the particle size of the microcapsules obtanied. The acetic acid concentration significantly influenced the formation, micromeritic property and release behavior of theophylline chitosan microcapsules containing Na CMC. When the acetic acid consentration was less than 30%, chitosan mirocapsules did not form. The particle size of the microcapsules decreased with the increase of acetic acid concentration. Moreover, the higher the acetic acid concentration used the faster was the release tate of microcapsules. The interaction between chitosan and Na CMC in microcapsules caused the formation of a water-insoluble complex, and this complex might significantly affect the formation, micromeritic property and release bahavior of chitosan mirocapsules. The acetic acid and Na CMC concentrations also played an important role in controlling the floating property of the microcapsules.
- 公益社団法人日本薬学会の論文
- 1992-09-25
著者
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林 山陽
Biopharmaceutics Laboratory Department Of Medical Research Veterans General Hospital-taipei
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林 佩洋
Biopharmaceutics Laboratory Department Of Medical Research Veterans General Hospital-taipei
関連論文
- Zero-Order or First-Order Release Kinetics of Water-in Oil-in-Water (W/O/W) Multiple Emulsions of Lipiodol Dependent on the Types of Surfactants
- Effect of Acid Type, Acetic Acid and Sodium Carboxymethyl Cellulose Consentrations on the Formation, Micromeritic, Dissolution and Floating Properties of Theophylline Chitosan Microcapsules
- Adsorption and Desorption of Indomethacin on Cellulose-like Biopolymers : Chitin and Chitosan