In-Vitro And In-Vivo Antibacterial And Antifungal Activity Of Nanoformulations Of Curcumin Against Aspergillus- Ochraceus Induced Toxicity

Curcuma caesia rhizomes extract, It has dual stabilizing and reductant properties, is used in the room-temperature biosynthesis of Ag-NPs. The UV–visible spectrum, zeta potential and microscope imaging using transmission electron were utilized in order to characterize the C. caesia-mediated AgNPs. The formation of Curcuma caesia rhizomes mediated AgNPswasanalyzed usingUV–vis spectroscopy, which showed that the maximum surface plasmon absorption occurred between 400 and 460 nm. According to the results of the zeta potential study, the extract of Curcuma caesia had a negative value and a rising concentration of C.caesia-mediatedAgNPs. Based on TEM image analysis, we know that the average particle size is 31.37 nm, with a standard variation of 7.1 nm. According to the results of the XRD research, the Ag-NPs are crystalline in structure.  Gram-positive and Gram-negative bacteria were tested for the antibacterial activity of C. caesia-mediated Ag-NPs using the disc diffusion method. The results showed that the C.caesia-mediatedAgNPs had a strong antibacterial activity.  According to the findings presented here, There is great promise regarding Ag-NP usage in a wide range of biomedical and biological research.