RESUMO
Objective:To optimize the extraction process for the total saponins from the root of Thladiantha dubia Bunge. Meth-ods:The extraction technology was optimized by orthogonal experiment with the dissolution content of total saponins as the index and the extraction times, extraction duration and ratio of solid to liquid as the influencing factors. Results:The optimum extraction condi-tions for the total saponins from the root of Thladiantha dubia Bunge were as follows:the reflux extraction was conducted twice(1. 5 h per time) with 70% ethanol as the solvent, and the ratio of solid to liquid was 1 ∶6. Conclusion:The optimum extraction technology is simple, reproducible and stable.
RESUMO
Objective To prepare and characterize salinomycin sodium‐loaded nano liposomes(SLN) .Methods The nano liposomes were prepared by a thin‐film dispersion method .The formula of SLN was optimized by regulating the cholesterol ratio of the nano liposomes ,using the encapsulation efficacy (EE) of SLN as the primary outcome measure .Results Transmission e‐lectron microscope (TEM) showed that SLN was round and had a good dispersion .Dynamic laser scatter (DLS) showed that SLN was of a desired size of 99 nm ,and zeta potential of -33 .5 mV .EE of SLN was 85 .7% and drug loading of 6 .7% .Ac‐cording to the formulation of nano liposomes ,the concentration of salinomycin sodium in water was greatly improved by 15 folds .Additionally ,the nano liposomes were observed to exhibit sustained release characteristics .Conclusion Salinomycin sodi‐um‐loaded nanoliposomes of a desired size of about 100 nm were obtained ,which were well dispersion ,and high EE and drug loading .Solid pharmaceutics foundation for the activity examination of SLN was provided in this research .