Lucena Percília A, Nascimento Thais L, Gaeti Marilisa P N, de Ávila Renato I, Mendes Lívia P, Vieira Marcelo S, Fabrini Danillo, Amaral André C, Lima Eliana M
J Biomed Nanotechnol. 2018 Jul 1;14(7):1347-1358. doi: 10.1166/jbn.2018.2574.
Itraconazole (ITZ) has a broad spectrum of action and is commonly used for the treatment of fungal infections. Topic administration of ITZ is a promising strategy to improve vulvovaginal candidiasis treatment, which can be further optimized by its encapsulation in nanoparticles to increase drug delivery and reduce ITZ toxicity. In this work, we designed polycaprolactone nanoparticles containing ITZ and evaluated in vivo the efficacy of this yet unexplored approach. Nanocapsules (ITZ-NC) and nanospheres (ITZ-NS) were obtained by nanoprecipitation. ITZ-NC presented encapsulation efficiency of 99%, mean diameter of 190 nm, PDI 0.1 and zeta potential of -15 mV. ITZ-NS showed encapsulation efficiency of 97%, mean diameter of 120 nm, PDI 0.1 and zeta potential of -10 mV. Both particles were efficiently freeze-dried using 10% trehalose + 10% sucrose. Nanoparticles were then incorporated in a viscous formulation for vaginal application in female Balb/C mice infected with Candida albicans. Fungal load was significantly reduced in infected animals after treatment with ITZ-NC but not with ITZ-NS, compared to animals treated with ITZ solution. Histological analysis showed a clear difference between vaginal tissues of ITZ-NC and ITZ-NS and ITZ solution-treated animals, which correlated with IL-1β and TNF-α quantification. Animals treated with ITZ-NC showed reduced cytokine levels and healthy tissue characteristics, while animals treated with ITZ-NS and ITZ solution showed increased IL-1β and TNF-α levels and typical tissue inflammation. Our results demonstrate the potential of ITZ-NC to improve the treatment of vulvovaginal candidiasis after topical application in the vagina, opening new perspectives for the treatment of this disease.
伊曲康唑(ITZ)具有广泛的抗菌谱,常用于治疗真菌感染。局部应用ITZ是改善外阴阴道念珠菌病治疗的一种有前景的策略,将其封装在纳米颗粒中可进一步优化,以增加药物递送并降低ITZ毒性。在本研究中,我们设计了含ITZ的聚己内酯纳米颗粒,并在体内评估了这种尚未探索的方法的疗效。通过纳米沉淀法获得了纳米胶囊(ITZ-NC)和纳米球(ITZ-NS)。ITZ-NC的包封率为99%,平均直径为190nm,多分散指数(PDI)为0.1,ζ电位为-15mV。ITZ-NS的包封率为97%,平均直径为120nm,PDI为0.1,ζ电位为-10mV。两种颗粒均使用10%海藻糖+10%蔗糖进行了有效的冻干处理。然后将纳米颗粒加入粘性制剂中,用于感染白色念珠菌的雌性Balb/C小鼠的阴道给药。与用ITZ溶液治疗的动物相比,用ITZ-NC治疗后感染动物的真菌载量显著降低,但用ITZ-NS治疗的动物未降低。组织学分析显示,ITZ-NC、ITZ-NS和ITZ溶液治疗动物的阴道组织之间存在明显差异,这与IL-1β和TNF-α的定量结果相关。用ITZ-NC治疗的动物细胞因子水平降低且具有健康组织特征,而用ITZ-NS和ITZ溶液治疗的动物IL-1β和TNF-α水平升高且具有典型的组织炎症。我们的结果证明了ITZ-NC在阴道局部应用后改善外阴阴道念珠菌病治疗的潜力,为该疾病的治疗开辟了新的前景。
