高纯竹叶碳苷黄酮复合纳米生物材料的制备及其结构表征（急）

采用离子交联法，以高纯竹叶碳苷黄酮制剂（碳苷总质量分数﹥90%，记为H-BLF）和芫根阴离子多糖（TP）为原料，通过ε-聚赖氨酸（ε-PL）的阳离子桥键合而成竹叶碳苷黄酮纳米混悬液（H-BLFnd），进一步在混悬液中添加8%（w/v）的γ-环糊精、经真空冷冻干燥得到纳米冻干粉（H-BLFnp），采用粒径分析、TEM、UV、FTIR、TG和DSC对其外观、性能、结构进行表征。结果表明： H-BLFnp外观为白色粉状，表面光洁平整，色泽均匀，平均粒径为（679±10.2）nm，分散系数为（0.349±0.004），包埋率为（92.39±0.34）%。     

Development of a nanoemulsion of Phyllanthus emblica L. branch extract

For potential topical administration, we formulated a nanoemulsion containing phenolic constituents of Phyllanthus emblica branch extract. The nanoemulsion has high entrapment efficiency, small particle size, is stable, and can release its main chemical components. Branches of P. emblica were extracted with 50% ethanol (EPE) with 5.4% yield. HPLC analysis indicated several phenolic compounds, including gallic acid, vanillic acid, epigallocatechin (EGC), epigallocatechin gallate (EGCG) and ellagic acid. These were selected as chemical markers of EPE in the nanoemulsion development. The nanoemulsion was prepared by microemulsion techniques with hot high pressure homogenization. A ternary phase diagram was constructed to obtain the optimized nanoemulsion. The obtained transparent EPE nanoemulsion is composed of isopropyl myristate (0.6% w/w), Brij® 78 (0.35% w/w), and 0.15% (w/w) EPE. The optimized EPE nanoemulsion had a median particle size of 191.63?±?4.07?nm with a narrow particle size distribution, a zeta potential of ?10.19?±?0.54?mV, high entrapment efficiency at 67.99?±?0.87% and good stability at 4?°C after 90?d of storage. The release of active ingredients from the EPE nanoemulsion was slower than that of the EPE aqueous formulation. The loading ratios of the five phenolic compounds were high, with relative order of EGC?>?EGCG?>?vanillic acid?>?gallic acid?>?ellagic acid, resulting in slow release profiles of EGC and EGCG in the EPE nanoemulsion. In conclusion, the obtained EPE nanoemulsion has good characteristics for future clinical trials.