ABSTRACT
OBJECTIVE:To prepare Diphenidol hydrochloride double-layer osmotic pump tablets,and study its in vitro release characteristics. METHODS:Double-layer compressing technique and film coating technology were conducted to prepare Diphenidol hydrochloride double-layer osmotic pump tablets. The in vitro releases of it,Difenidol hydrochloride tablets in market,self-made Difenidol hydrochloride single-layer osmotic pump tablets were compared. RESULTS:The formulation was as follow as diphenidol hydrochloride 75 mg,sodium chloride 10 mg,low-molecular-weight polyoxyethylene 15 mg and right amounts of 5% PVP K30 ethanol solution. Booster layer was high-molecular-weight polyoxyethylene 60 mg,sodium chloride 20 mg,PVP K306 mg,right amounts of magnesium stearate. 12 h cumulative release(Q)of prepared double-layer osmotic pump tablets reached 80%,and the release was in line with zero-order kinetic equation. Q15 min of Difenidol hydrochloride tablets had reached 90%;Q12 h of Difenidol hy-drochloride single-layer osmotic pump tablets was only 51.14%. CONCLUSIONS:The prepared Difenidol hydrochloride dou-ble-layer osmotic pump tablets have sustained release effect,with more complete drug release within 12 h than single-layer one.
ABSTRACT
OBJECTIVE: To improve the dissolution rate of fenofibrate (FNB) by using starch source mesoporous carbon (SMC) as a carrier and achieve controlled release of the drug by utilizing double-layer osmotic pump technology to improve the oral bioavailability. METHODS: FNB was loaded into the mesoporous of NMS by adsorption method to prepare the drug loading system (FNB-SMC). Differential scanning calorimetry (DSC) and powder X-ray diffraction (PXDR) were used to characterize the present state of the drug before and after being loaded. The dissolution rate of FNB-SMC was investigated by in vitro dissolution test, and the formulation of the double-layer osmotic pump tablets of FNB-SMC was optimized. The oral bioavailability of the self-made tablet was investigated by in vivo experiment in rabbits. RESULTS: FNB existed in the mesoporous of SMC in an amorphous state. The in vitro dissolution test showed that NMS could significantly increase the dissolution rate of FNB, and the double-layer osmotic pump technology could achieve Zero-order release of the drug. The in vivo experiments showed that the oral bioavailability of the self-made tablets was significantly improved. CONCLUSION: The combination of starch source mesoporous carbon carrier and double-layer osmotic pump technology prevente the burst effect and significantly improve the oral absorption of FNB.