Hassan Abeer S, Soliman Ghareb M, El-Mahdy Mona M, El-Gindy Gamal El-Din A
Department of Pharmaceutics, Faculty of Pharmacy, Assiut University, Assiut, 71526. Egypt.
Curr Drug Deliv. 2018;15(1):110-121. doi: 10.2174/1567201814666170320142136.
Progesterone (PG), a natural female sex hormone is used clinically in menopausal hormone replacement therapy and to control reproductive functions. Its very limited aqueous solubility results in reduced oral bioavailability and low patient compliance when administered in high doses. The aim of this study was to enhance PG aqueous solubility and vaginal delivery using solid dispersion, inclusion complex and micellar solubilization techniques.
PG solid dispersions and inclusion complexes were prepared by solvent evaporation method using different polymers, such as cyclodextrins, polyvinyl pyrrolidone (PVP), poly (ethylene glycol) 6000, Pluronic® F-127 and Pluronic® F-68. PG was also incorporated into polymeric micelles of Pluronic® F-127, Pluronic® F- 68, Brij®35 and Myrj®52. The prepared solid dispersions, inclusion complexes and micelles were characterized using different techniques. Drug permeability across rabbit vaginal mucosa was also studied.
Dissolution studies of PG solid dispersions showed that the highest drug dissolution rate was achieved at PG/polymer weight ratio of 5:5. Further, complete drug dissolution was obtained for PG/Pluronic® F-127 solid dispersion after 15 min compared to 42% dissolution for the drug alone. Brij®35 micelles had a drug loading capacity ~15%, which increased the drug aqueous solubility by more than 20 folds. PG permeability coefficients through rabbit vaginal mucosa for PG/Brij®35 micelles and PG/Pluronic® F-127 micelles were ~ two times higher than that of the drug alone.
These results confirm that Brij®35 and Pluronic® F-127 micelles are promising carriers to overcome PG shortcomings through enhancing its aqueous solubility and vaginal permeability.
孕酮(PG)是一种天然的女性性激素,临床上用于更年期激素替代疗法及控制生殖功能。其水溶性非常有限,导致口服生物利用度降低,高剂量给药时患者依从性差。本研究的目的是利用固体分散体、包合物和胶束增溶技术提高PG的水溶性并实现阴道给药。
采用溶剂蒸发法,使用不同的聚合物,如环糊精、聚乙烯吡咯烷酮(PVP)、聚乙二醇6000、泊洛沙姆F-127和泊洛沙姆F-68,制备PG固体分散体和包合物。PG还被载入泊洛沙姆F-127、泊洛沙姆F-68、月桂醇聚醚35和聚山梨醇酯52的聚合物胶束中。使用不同技术对制备的固体分散体、包合物和胶束进行表征。还研究了药物透过兔阴道黏膜的渗透性。
PG固体分散体的溶出度研究表明,PG/聚合物重量比为5:5时药物溶出速率最高。此外,PG/泊洛沙姆F-127固体分散体在15分钟后药物完全溶解,而单独药物的溶出度为42%。月桂醇聚醚35胶束的载药量约为15%,使药物的水溶性增加了20多倍。PG/月桂醇聚醚35胶束和PG/泊洛沙姆F-127胶束透过兔阴道黏膜的渗透系数比单独药物高约两倍。
这些结果证实,月桂醇聚醚35和泊洛沙姆F-127胶束是有前景的载体,可通过提高PG的水溶性和阴道渗透性来克服其缺点。
