ABSTRACT
Objective: To prepare diphenidol hydrochloride push-pull osmotic pump tablets and in-vestigate the influence of differ-ent factors on in-vitro drug release. Methods: The cumulative release of different formulas was detected. Using the cumulative release and similarity factor f2as the evaluation criterion, single factor experiment was applied to screen the core formula and coating process. Results: The drug release behavior was affected by the content of PEO in the drug containing layer, the content of NaCl and the weight gain of the coating layer. After the formula was optimized, the NaCl content in the drug containing layer was 10mg, the PEO-N10 con-tent was 15mg. In the push layer, the content of PEO-WSR303 was 60 mg, that of NaCl was 20 mg. The optimized coating liquid for-mula contained 1. 25 g·L-1PEG4000 and the coating weight gain was 7% of the core. The optimized formula fitted a zero-order equa-tion within 2-12h with the drug release equation of Q=6. 308t-2. 5037(r=0. 995 8). Conclusion: The preparation technology of di-phenidol hydrochloride push-pull osmotic pump tablets is stable, and the in-vitro drug release fits zero-order model.
ABSTRACT
Objective To prepare micronized nimodipine push-pull osmotic pump (PPOP) controlled release tablets . Methods The nimodipine as a model drug ,micronization technique was applied to the PPOP method .Designed and prepared the controlled release of the nimodipine tablet for 12 hours in vitro .The factor f2 was used to evaluate the similarities of differ-ent dissolution profiles ,and the optimal formulation was performed .Results The micronized nimodipine PPOP controlled re-lease tablets were successfully prepared with excellent zero-order release characteristics .The PPOP tablet′s release behavior was close to the zero-order release equation (r= 0 .998 4) .Conclusions The controlled-release formulation was prepared suc-cessfully .Micronized technique combined with the PPOP method significantly increased the release of the nimodipine tablet , the poorly soluble drug ,in vitro .