THE MINIWID-COATER .3. EFFECT OF APPLICATION TEMPERATURE ON THE DISSOLUTION PROFILE OF SUSTAINED-RELEASE THEOPHYLLINE PELLETS COATED WITH EUDRAGIT RS 30-D

Theophylline pellets were coated with Eudragit RS 30 D in a miniature fluid-bed pan coater called MiniWiD developed recently. The dispersion s were plasticized with varying amounts of triethyl citrate (TEC), dib utyl phthalate (DBP), and polyethylene glycol 6000 (PEG) and applied a t different temperatures ranging from 25 to 45-degrees-C. Theophylline release was tested by dissolution using the USP Apparatus 2 (paddle) in 0.1 N hydrochloric acid under sink conditions over 6 hours. At a co ating level of 4% (0.7 mg/cm2) sustained-release profiles were obtaine d from dispersions plasticized with TEC or DBP. By reducing the amount of plasticizer from 20 to 10%, films with higher permeabilities were obtained. This effect was compensated by tempering the pellets at 50-d egrees-C for 24 hours. The coating temperature had little effect on th e dissolution profiles of TEC-plasticized films and no effect on films with DBP. Coatings plasticized with 20 % PEG were applied at temperat ures ranging from 25 to 45-degrees-C. These films required a coating l evel of about 18 % (3.3 mg/cm2) to provide comparable sustained-releas e properties. In contrast to DBP and TEC, a strong influence of the co ating temperature on the release rates was observed in which higher te mperatures led to slower release rates. This behavior can be explained by the minimum film-forming temperature (MFT). Since PEG does not low er the MFT of Eudragit RS 30 D, the application of these films below t he MFT of 45-degrees-C is associated with a lower degree of film forma tion.