Department of Pharmacy, Post Graduate Program in Pharmaceutical Sciences, State University of Maringá, Maringá 87020-900, Brazil.
Post graduate Program in Chemistry - PQU, State University of Maringá, Maringá 87020-900, Brasil.
J Appl Microbiol. 2023 Dec 1;134(12). doi: 10.1093/jambio/lxad291.
This study aims to incorporate alginate microparticles containing berberine and fluconazole into two different types of pharmaceutical formulations, to subsequently evaluate the antifungal activity against Candida albicans.
Alginate microparticles containing BBR (berberine) and FLU (fluconazole) were produced by the spray-drying technique, characterized and incorporated in two pharmaceutical formulations, a vaginal cream and artificial saliva. Broth microdilution, checkerboard, time-kill curve, and scanning electron microscopy were carried out to determine the antifungal effects of BBR and FLU against C. albicans. The minimum inhibitory concentration (MIC) and minimum fungicidal concentration (MFC) values of free BBR were 125 μg ml-1. Synergism between BBR and FLU was demonstrated by a fractional inhibitory concentration index (FICI) = 0.0762. The time-kill curve for the combination BBR + FLU showed a more pronounced decrease in fungal growth in comparison to free drugs, and an antibiofilm effect of BBR occurred in the formation and preformed biofilm.
Alginate microparticles containing BBR and FLU were obtained and incorporated in a vaginal cream and artificial saliva. Both formulations showed good stability, antifungal effects, and organoleptic characteristics, which suggest that BBR-FLU microparticles in formulations have potential as antifungal therapy.
本研究旨在将含有小檗碱和氟康唑的海藻酸钠微球纳入两种不同的药物制剂中,随后评估其抗白色念珠菌的活性。
采用喷雾干燥技术制备载有 BBR(小檗碱)和 FLU(氟康唑)的海藻酸钠微球,对其进行表征,并将其纳入两种药物制剂中,即阴道乳膏和人工唾液。采用肉汤微量稀释法、棋盘法、时间杀伤曲线和扫描电子显微镜法来确定 BBR 和 FLU 对白色念珠菌的抗真菌作用。游离 BBR 的最小抑菌浓度(MIC)和最小杀菌浓度(MFC)值分别为 125 μg ml-1。BBR 和 FLU 之间的协同作用通过部分抑菌浓度指数(FICI)= 0.0762 得到证明。BBR+FLU 联合用药的时间杀伤曲线显示出比游离药物更明显的真菌生长减少,并且 BBR 对生物膜形成和预形成生物膜具有抗生物膜作用。
成功制备并纳入阴道乳膏和人工唾液中的载有 BBR 和 FLU 的海藻酸钠微球。两种制剂均表现出良好的稳定性、抗真菌作用和感官特性,这表明制剂中的 BBR-FLU 微球具有作为抗真菌治疗的潜力。
