ethyl-cellulose and betamethasone-sodium-phosphate

ethyl-cellulose has been researched along with betamethasone-sodium-phosphate* in 1 studies

Other Studies

1 other study(ies) available for ethyl-cellulose and betamethasone-sodium-phosphate

Article	Year
Adsorption of betamethasone disodium phosphate on ethylcellulose latex: an electrokinetic study. Journal of pharmaceutical sciences, 1996, Volume: 85, Issue:5 The use of polymer latexes as vehicles for drug transport and controlled delivery in the body is a very active research field in applied colloid science. In this work, the polymer chosen is a commercially available ethylcellulose-based material, Aquacoat. We report electrokinetic (electrophoresis) data on this polymer in the presence of the soluble glucocorticoid betamethasone disodium phosphate (BMP). The electrophoretic mobility of the particles becomes more negative as the concentration of BMP in the medium is increased between 10(-5) and 10(-3) M, this demonstrating that the negative species produced upon dissolution of BMP adsorb on the particles; this trend is reversed for higher concentrations due to the phenomenon of double layer thickness. When pH is increased at constant BMP concentration, the negative mobility increases in absolute value, but it reaches lower values than attained in the absence of BMP. This is interpreted as another consequence of adsorption, since the ionization constants of the phosphate and sulfate groups are different. Such adsorption is confirmed and measured by spectrophotometric analysis of the supernatants after centrifugation of the suspensions; it is found that the adsorption density increases with the initial concentration of BMP in the medium, an almost vertical isotherm being obtained for concentrations above 5 x 10(-3) M, possibly due to bidimensional aggregation of the adsorbed molecules and multilayer adsorption at higher concentrations. It is found that the adsorbed amount increases with the ionic strength of the medium as a consequence of screening of the particle and BMP charges, whereas these electrostatic contributions to adsorption manifest also in the pH dependence of adsorption. IR analysis of the particles after equilibration with BMP solutions of increasing concentration agrees well with adsorption data. Topics: Adsorption; Antirheumatic Agents; Betamethasone; Cellulose; Electrophoresis; Kinetics; Latex; Spectrophotometry, Infrared; Suspensions	1996

Article

Year

Adsorption of betamethasone disodium phosphate on ethylcellulose latex: an electrokinetic study.

Journal of pharmaceutical sciences, 1996, Volume: 85, Issue:5

The use of polymer latexes as vehicles for drug transport and controlled delivery in the body is a very active research field in applied colloid science. In this work, the polymer chosen is a commercially available ethylcellulose-based material, Aquacoat. We report electrokinetic (electrophoresis) data on this polymer in the presence of the soluble glucocorticoid betamethasone disodium phosphate (BMP). The electrophoretic mobility of the particles becomes more negative as the concentration of BMP in the medium is increased between 10(-5) and 10(-3) M, this demonstrating that the negative species produced upon dissolution of BMP adsorb on the particles; this trend is reversed for higher concentrations due to the phenomenon of double layer thickness. When pH is increased at constant BMP concentration, the negative mobility increases in absolute value, but it reaches lower values than attained in the absence of BMP. This is interpreted as another consequence of adsorption, since the ionization constants of the phosphate and sulfate groups are different. Such adsorption is confirmed and measured by spectrophotometric analysis of the supernatants after centrifugation of the suspensions; it is found that the adsorption density increases with the initial concentration of BMP in the medium, an almost vertical isotherm being obtained for concentrations above 5 x 10(-3) M, possibly due to bidimensional aggregation of the adsorbed molecules and multilayer adsorption at higher concentrations. It is found that the adsorbed amount increases with the ionic strength of the medium as a consequence of screening of the particle and BMP charges, whereas these electrostatic contributions to adsorption manifest also in the pH dependence of adsorption. IR analysis of the particles after equilibration with BMP solutions of increasing concentration agrees well with adsorption data.

Topics: Adsorption; Antirheumatic Agents; Betamethasone; Cellulose; Electrophoresis; Kinetics; Latex; Spectrophotometry, Infrared; Suspensions

1996