ABSTRACT
Objective: To prepare hydrogel matrix sustained-release tablets of resveratrol solid lipid nanoparticles, and the factors that might influence drug release and in vitro release models were also investigated in present study. Methods: The resveratrol-solid lipid nanoparticles (Res-SLN) were prepared by thin-film ultrasonic dispersion method, and then the hydrogel matrix was prepared by dispersed in excipients of hydrogel matrix sustained-release tablets. Single factor analysis was used to study the effects of varieties of adhesives, PEG, HPMC, and the amounts of HPMC K15 on drug release. Then the orthogonal design was used to gain the optimum formulation. Zero-order, first-order, Higuchi, and Ritger-Pappas models were used for the model fitting of drug release. Results: Hydrogel matrix sustained-release tablet of Res-SLN was better accorded with Zero-order kinetics model. The equation was Mt/M∞ = 0.078 7 t + 0.003 6 (r = 0.998 0). In vitro release behavior was in line with Ritger-Peppas equation, and the drug release from the tablets was controlled by degradation of the matrix. Conclusion: Prescription of hydrogel matrix sustained-release tablet of Res-SLN is reasonable; The preparation technology is feasible and exhibits perfect sustained-release characteristics in vitro in 12 h.
ABSTRACT
To improve the bioavailability of 10-hydroxycamptothecin, 10-hydroxycamptothecin solid dispersion(HCPT-SD) and 10-hydroxycamptothecin-phospholipid complex-solid dispersion(HCPT-PC-SD) were prepared, and their solubility and dissolution rate were evaluated in this study. SD rates were administered intragastrically with HCPT-SD or HCPT-PC-SD respectively, then their blood samples were collected at different time intervals. The concentration of HCPT in blood was detected by HPLC method with camptothecin as internal standard, and then its pharmacokinetic parameters were calculated and obtained. The results showed that the Cmax, AUC0-t and AUC0-∞ of both kinds of solid dispersion of HCPT were significantly increased than those of crude drug. The AUC0-t of HCPT-SD was increased by 176.87%, and AUC0-t of HCPT-PC-SD was increased by 254.31% as compared with crude drug. Therefore, the two kinds of solid dispersion of HCPT could significantly enhance the bioavailability of HCPT in SD rates, and the effect of HCPT-PC-SD was more obvious.