Your browser doesn't support javascript.
Show: 20 | 50 | 100
Results 1 - 6 de 6
Add filters

Year range
China Pharmacy ; (12): 115-118, 2017.
Article in Chinese | WPRIM | ID: wpr-507832


OBJECTIVE:To prepare total flavonoids of Hippophae rhamnoides(TFH)-PVP K30 solid dispersion,and to char-acterize and study its in vitro dissolution. METHODS:Solvent method was used to prepare TFH-PVP K30 solid dispersion with dif-ferent drug-loading ratio of 1:1,1:2,1:3,1:4,1:5;single factor test was designed to screen drug-loading ratio using dissolution parameter Td as index;orthogonal test was designed to optimize ultrasonic time,temperature of water bath and drying time for prep-aration technology using in vitro dissolution rate as index,and then validated. SEM,DSC and FT-IR were used to characterize sol-id dispersion. RESULTS:Td of TFH-PVP K30 solid dispersion was the lowest when drug-loading ratio was 1:3. Optimal technolo-gy was ultrasonic time 10 min,temperature of water bath 60 ℃ and drying time 12 h. 90 min accumulative dissolution rate of pre-pared TFH-PVP K30 solid dispersion was 90.22% in average(RSD=1.74%,n=3). The results of SEM,DSC and FT-IR showed that the drug as amorphous form dispersed in the PVP K30,the formation of hydrogen bond of the both. CONCLUSIONS:TFH-PVP K30 solid dispersion is prepared successfully,and in vitro dissolution rate of it is improved significantly.

Article in Chinese | WPRIM | ID: wpr-463971


The self-microemulsion formulation of potassium dehydroandrographolidi succinas (PDS) has been optimized and the performance in vitro has been evaluated preliminary. Kinds of prescription accessories were screened by solubility based on the emulsifying result and efficiency, particle size of emulsions. The optimal formulation composition and compatibility proportion were determined by orthogonal design and pseudo-ternary phase diagrams. The appearance, particle size, Zeta potential and stability of this formulation were also investigated. The optimized prescription of PDS was 10% MCT, 40% Tween-20 and 50% glycerol. It can spontaneously form a transparent pale blue opalescent emulsion with emulsification time 31.27 s, particle size 37.1 nm, Zata potential -17.4 mV and good stability.

Article in Chinese | WPRIM | ID: wpr-447400


This study was aimed to prepare solid dispersions of Acanthopanax leaves total flavonoids in order to im-prove its bioavailability. PEG4000, PEG6000, F68, PVPK30 were used as carrier materials in the preparation of four different types of solid dispersion to screen the best type of carrier material and evaluate the amount of carrier mate-rial and its influence on the drug dissolution. Rutin was used as reference substance. NaNO2-Al(NO3)3-NaOH was used as the color system, with a UV spectrophotometer measured absorbance at 500 nm. The dissolution characteris-tics of different proportions of solid dispersions were examined in vitro. The results showed that compared with raw material, the in vitro drug release rate with PVPK30 as carrier material in the obtained solid dispersion of the pro-portion of the raw material was significantly improved, and the cumulative release rate was also increased significant-ly. It was concluded that the solid dispersion prepared by solvent method significantly improved in vitro drug release in water.

Article in Chinese | WPRIM | ID: wpr-564871


Objective To prepare gensenosides microbore osmotic pump tablet, and to investigate releasing in vitro. Methods We prepared gensenosides microbore osmotic pump tablet to investigate the release in vitro by cumulative release rate in different time. Results We prepared gensenosides microbore osmotic pump tablet successfully and investigated releasing in vitro and drew the release curve. Conclusion The release of gensenosides microbore osmotic pump tablet in vitro consists with zero order release rule. It can chalk the effect in ten hours.

Article in Chinese | WPRIM | ID: wpr-342640


The acoustic properties of ultrasound and the interaction of biomaterial and cavitation are analyzed. The relation between ultrasonic parameters and sonication is indicated. Our research revealed that different sonication aims must well match with different acoustic properties for optimizing the sonication technology. Based on the theory of wave superposition, a method for enhancement of ultrasonic intensity in wide dimension is introduced. A large scale powerful polyhedral acoustic field is built according to the research above. The rationality and effectiveness of the method are demonstrated through examination.

Acoustics , Biocompatible Materials , Humans , Sonication , Ultrasonics
Article in Chinese | WPRIM | ID: wpr-581162


AIM:To optimize total flavone of herba epimediumon microporosity osmotic pump tablets by boxbehnken design-response surface methodology. METHODS:Osmotic agent (lactose),dosage of plastificator (dibutyl phthalate),and coating weight gain were selected as key factors of influencing total flavone delivery. Total flavones cumulatiive yield in 12 h and fitting approximation was regarded as the response. Design Expert method useful for the modeling and analysis was to optimize the response. RESULTS:Response surface surface obtained repre-sented maximum one which conformed to the zero-order delivery rate equation. CONCLUSION:Optimal excipient formulation of total epimedium flavone microporosity osmotic pump tablet consists of 0. 18 g of lactose,0. 26 ratio of dibutyl phthalate to acetyl celulose and 7. 7% of coating weight gain.