ABSTRACT
Objective To explore the pharmacokinetic properties of curcumin nano emulsion and its pharmacodynamic effects on hyperlipidemia in rats. Methods The method for determination of curcumin was established by HPLC-MS. The pharmacokinetics characteristics of curcumin nano emulsion oral administration system were investigated. SD rats were used as model animals to establish hyperlipidemia animal models, and the pharmacodynamic effects of curcumin nano emulsion on hyperlipidemia induced by high fat diet was preliminarily investigated. Results The results of pharmacokinetic studies in vivo showed that the relative bioavailability of curcumin nano emulsion was 313.47% with bulk drug group as the reference preparation. The relative bioavailability of curcumin nano emulsion was 279.52 % with tablets as reference preparation. Cmax of curcumin nano emulsion group was 201.48 % of that of bulk drug group and 193.02 % of that of tablet group, and had higher MRT value (183.52 % of that of bulk drug group and 154.21 % of that of tablet group) than bulk drug group and tablet group. Pharmacodynamics research results showed that curcumin nano emulsion oral administration system could significantly reduce the levels of triglyceride and LDL-c in serum of model rats, and relieve liver lipid deposition and liver injury caused by high-fat diet in model animals. Conclusion The oral administration system of curcumin nano emulsion could effectively improve the bioavailability of curcumin, which has a good hypolipidemic effect. It also could control the weight gain of hyperlipidemia rats and improve the changes of liver coefficient caused by lipid metabolism disorder.
ABSTRACT
Objective To establish the HPLC method of assay for diphenhydramine hydrochloride in compound diphenhydramine cream. Method HPLC analysis was carried on ACE5C18S/N-A66766 column (150 mm×4.6 mm, 5 µm) with the mobile phase of methanol-water-triethylamine (70:30:0.67, adjusting pH to 6.50 with phosphoric acid) at room temperature. The detection wavelength was set at 230 nm and the flow rate was 1.0 ml/min. The analyte was extracted from the cream and 20 μl of sample was injected. Results The calibration curve of diphenhydramine hydrochloride was linear in the range of 39.52-197.6 µg/ml (r=0.999 7). The average recovery of diphenhydramine hydrochloride was 100.5% (RSD=1.25%, n=9). The repeatability of the method was expressed using RSD with 0.78% (n=6). The results of assay were 101.3%, 99.83% and 99.62%. Conclusion The method is accurate, sensitive, selective and repeatable, which can be applied for improving the quality standard of compound diphenhydramine cream.
ABSTRACT
Objective Colon-targeting capsules based on gastric pellets and enteric pellets were prepared from Baizhu Huanglian prescription. The formulation composition and preparation process were optimized and the in-vitro release characteristics were investigated. Methods Optimum formulation composition and process parameters of Baizhu Huanglian pellets were screened out by single factor experiment and orthogonal design. The pellets core were prepared by extrusion-spheronization technique and coated in the fluid bed using bottom spray coating technique. To investigate the effect of coating level of the isolation layer, the proportion of polymer, the amount of plasticizer and weight gain of enteric coating on the release behavior of the enteric pellets. The pellets release behavior was fitted by model as well. Results The prescription of gastric pellets was drug loading 50%, PVPP 5%, MCC to lactose 1∶2 and wetting agent 40%. The process parameters were extrusion frequency 20 Hz, rounding speed 500 r/min and rounding time 5 min. The prescription of enteric pellets was drug loading 27%, PVPP 5%, MCC to lactose 5∶2, wetting agent 30% and adhesive 20%. The process parameters were extrusion frequency 20 Hz, rounding speed 700 r/min and rounding time 7 min. For enteric coating layer, the coating mixture of EUDRAGIT®L30D-55 to EUDRAGIT® FS30D was 1∶2. The amount of plasticizer was 10%. The increased weight of coating layer was 15%. The release time of enteric pellets in-vitro was up to 24 hours. The release behavior of the pellets conforms to the Higuchi model. Conclusion The colon targeting capsule of Baizhu Huanglian pellets were successfully prepared and showed the characteristics of sustained release and colon targeting.