a Faculty of Pharmacy, Research Institute for Medicines (iMed.ULisboa) , Universidade de Lisboa , Lisboa , Portugal.
J Microencapsul. 2018 Jun;35(4):344-356. doi: 10.1080/02652048.2018.1487472. Epub 2018 Aug 14.
Pharmaceutical research has been focussed on developing improved delivery systems while exploring new ways of using approved excipients. The present work investigated the potential of starch nanocapsules (StNC) as a topical delivery platform for hydrophilic antimicrobial drugs using minocycline hydrochloride (MH) as a model drug. Thus, a quality by design approach was used to assess the role of different factors that affect the main pharmaceutical properties of StNC prepared using an emulsification-solvent evaporation method. Full characterisation was performed in terms of particle size, encapsulation efficiency, morphology and physical stability at 5 ± 3 °C. Results show the surfactant and lipid contents play a major role in StNC particle size distribution. The MH loading only promoted minor changes upon StNC properties. Formulations were stable without variations on physicochemical properties. All tested formulations presented a zeta-potential of +33.6 ± 6.7 mV, indicating a good physical stability and evidencing that StNC are suitable nanocarriers for topical use.
药物研究一直专注于开发改良的输送系统,同时探索使用已批准的赋形剂的新方法。本工作研究了使用淀粉纳米胶囊(StNC)作为亲水性抗菌药物的局部递药平台的潜力,以盐酸米诺环素(MH)为模型药物。因此,采用质量源于设计的方法来评估不同因素对使用乳化-溶剂蒸发法制备的 StNC 的主要药物性质的影响。根据粒径、包封效率、形态和在 5±3°C 下的物理稳定性进行全面表征。结果表明,表面活性剂和脂质含量在 StNC 粒径分布中起主要作用。MH 负载仅在 StNC 性质上引起微小变化。制剂稳定,理化性质无变化。所有测试的制剂均具有+33.6±6.7 mV 的 ζ-电位,表明具有良好的物理稳定性,并证明 StNC 适合用作局部给药的纳米载体。
