Abstract
The aim of the present work was to formulate and evaluate Miconazole nitrate (MN) polymeric nanoparticles (NPs) for systemic delivery of the active ingredient after topical administration. The Solvent evaporation approach was used to make nanoparticles for topical delivery of MN. Particle size, entrapment efficiency and SEM were all measured in MN-SLN. A consistent size distribution (PI 0.300) was used to generate aqueous NPs dispersions with a mean particle size less than 250 nm. After 3 months of storage, the produced semi-solid systems had a mean particle size of less than 250 nm and a PI of less than 0.500. The F5 formulation was been chosen as the model formulation from among the nine nanoparticle formulations developed (F1 to F9). The reason for this was that, according to the ICH stability guidelines, formulation F5 was judged to be optimal and stable. The F5 formulations of miconazole nanoparticles shows the highest entrapment efficiency (93.28%) and drug loading (86.64%). In conclusion, there are two major advantages of using miconazole nanoparticle drug delivery systems. i.e., they are topical preparations that assemble in the hair follicles and wrinkles to produce a systemic and local action. It is possible that nanoparticles will be the most effective treatment for fungal skin infections.
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