Department of Chemistry, Faculty of Applied Sciences, University of Sri Jayewardenepura, Nugegoda 10250, Sri Lanka.
Department of Chemistry, Faculty of Applied Sciences, University of Sri Jayewardenepura, Nugegoda 10250, Sri Lanka.
Biomater Adv. 2024 Sep;162:213930. doi: 10.1016/j.bioadv.2024.213930. Epub 2024 Jun 19.
An estimated 1.7 million fatalities and 150 million cases worldwide are attributed to fungal infections annually, that are in rise due to immunocompromised patient population. The challenges posed by traditional treatments can be addressed with the help of nanotechnology advancements. In this study, Co, Cu, and Ag-were doped into silica nanoparticles. Then the synthesized monometallic silica nanohybrids were combined to formulate heterometallic silica nanohybrids, characterized structurally and morphologically, compared, and evaluated for antifungal activity based on their individual and synergistic activity. The antifungal assays were conducted by using ATCC cultures of Candida albicans and QC samples of Trichophyton rubrum, Microsporum gypseum, and Aspergillus niger. The MIC (ranging from 49.00 to 1560.00 μg/mL), MFC (ranging from 197.00 to 3125.00 μg/mL), IC values (ranging from 31.10 to 400.80 μg/mL), and FICI of nanohybrids were determined and compared. Moreover, well diffusion assay was performed. ABTS assay and DPPH assay were conducted to investigate the radical scavenging activity (RSA) of nanohybrids. SEM analysis clearly evidenced the structural deformations of each fungal cells and spores due to the treatment with trimetallic nanohybrid. According to the results, the trimetallic silica nanohybrids exhibited the most powerful synergistic RSA and the most effective antifungal activity, compared to the bimetallic silica nanohybrids.
据估计,每年有 170 万人死于真菌感染,1.5 亿人感染真菌,这一数字还在上升,因为免疫功能低下的患者人数不断增加。传统治疗方法所带来的挑战可以借助纳米技术的进步来解决。在这项研究中,Co、Cu 和 Ag 被掺杂到硅纳米颗粒中。然后将合成的单金属硅纳米杂化物组合起来,形成杂化硅纳米杂化物,对其进行结构和形态学的表征、比较,并根据其单独和协同的活性来评估其抗真菌活性。通过使用 ATCC 培养的白色念珠菌和 QC 样本的红色毛癣菌、石膏样小孢子菌和黑曲霉进行抗真菌试验。MIC(范围为 49.00 至 1560.00μg/mL)、MFC(范围为 197.00 至 3125.00μg/mL)、IC 值(范围为 31.10 至 400.80μg/mL)和纳米杂化物的 FICI 被确定并进行了比较。此外,还进行了平板扩散试验。进行 ABTS 试验和 DPPH 试验以研究纳米杂化物的自由基清除活性(RSA)。SEM 分析清楚地证明了由于三金属纳米杂化物的处理,每种真菌细胞和孢子的结构变形。根据结果,与双金属硅纳米杂化物相比,三金属硅纳米杂化物表现出最强的协同 RSA 和最有效的抗真菌活性。
