Studies on Microcapsules. XIX. Effect of Phospholipid Treatment on Cation Uptake by Carboxylated Polyphthalamide Microcapsules
スポンサーリンク
概要
- 論文の詳細を見る
Poly (phthaloyl L-lysine) microcapsules were prepared by interfacial polymerization techniques and treated by lecithin. Various mono-, di-, and trivalent cations were found electrophoretically to be bound by both intact and lecithin-treated poly (phthaloyl L-lysine) microcapsules dispersed in aqueous media. In both cases, cation binding was stronger with ions of higher valency and charge reversal of the microcapsules was observed at high concentrations of polyvalent cations. However, the treatment of the microcapsules with lecithin caused appreciable changes in the zeta-potential and cation binding of the microcapsules. That is, the zeta-potential was less negative and the cation concentration needed to produce the charge reversal was lower for the lecithin treated microcapsules than for the intact microcapsules. The zetapotential was converted into the surface charge density by means of a modified Gony-Chapman equation. Finally, the free energy of cation binding was evaluated from the surface charge density as a function of the cation concentration using Stern's adsorption theory.
- 社団法人日本薬学会の論文
- 1976-11-25
著者
-
近藤 保
Faculty Of Pharmaceutical Sciences Science University Of Tokyo
-
亀井 一男
Research Laboratory, Banyu Pharmaceutical Company, Ltd.
-
亀井 一男
Research Laboratory Banyu Pharmaceutical Company Ltd.
関連論文
- The Freezing Point Depression Method for the Determination of Binding Parameters of Drugs by Polyvinylpyrrolidone and Polyoxyethylene n-Dodecylether
- A Study of 1 : 1 Plus 1 : 2 Complexes between Barbiturate and α-Cyclodextrin Using the Freezing Point Depression Method
- A Study of Cyclodextrin Complex Formation by a Freezing Point Depression Method
- Studies on Microcapsules. XIX. Effect of Phospholipid Treatment on Cation Uptake by Carboxylated Polyphthalamide Microcapsules
- Studies on Microcapsules. XVII. Effect of Chemical Structure of Acid Dichlorides and Bisphenols on the Formation of Polyphenyl Ester Microcapsules
- Studies on Microcapsules. V. Preparation of Polyamide Microcapsules containing Aqueous Protein Solution
- Studies on Microcapsules. III. Permeability of Polyurethane Microcapsule Membranes
- Studies on Microcapsules. II. Preparation of Polyphthalamide Microcapsules
- Interactions of Microcapsules with Human Polymorphonuclear Leucocytes
- Possible Applicatin of Polyamine Graft Copolymer to Targeting Drug Delivery
- Adsorption Characteristics of γ-Globulin on Carboxylated Microcapsules
- Preparation and in Vitro Degradation Properties of Polylactide Microcapsules
- Effects of Plasma Components on Platelet Adhesion to Microcapsules
- Platelet Adhesion to Microcapsules with Different Potentials
- Platelet Adhesion to Artificial Red Blood Cells having Different Membrane Compositions
- Studies on Microcapsules. I. Preparation of Polyurethane and Polyphenolester Microcapsules
- Effect of Ionic Head of Cationic Surface Active Agents on Their Hemolytic Activity
- Release of Lipids from Red Cell Membrane by Surface-active Agents