Formulation and evaluation of butenafine loaded PLGA-nanoparticulate laden chitosan nano gel

The present research work is designed to prepare and optimize butenafine (BT) loaded poly lactic co glycolic acid (PLGA) nanoparticles (BT-NPs). BT-NPs were prepared by emulsification probe sonication method using PLGA (A), PVA (B) as polymer and stabilizer, respectively. The optimum composition of BT-NPs was selected based on the point prediction method given by the Box Behnken design software. The optimized composition of BT-NPop showed a particle size of 267.21 +/- 3.54 nm with an entrapment efficiency of 72.43 +/- 3.11%. The optimum composition of BT-NPop was further converted into gel formulation using chitosan as a natural polymer. The prepared topical gel formulation (BT-NPopG) was further evaluated for gel characterization, drug release, permeation study, irritation, and antifungal studies. The prepared BT-NPopG formulation showed optimum pH, viscosity, spreadability, and drug content. The release and permeation study results revealed slow BT release (42.76 +/- 2.87%) with significantly enhanced permeation across the egg membrane. The irritation study data showed negligible irritation with a cumulative score of 0.33. The antifungal study results conclude higher activity than marketed as well as pure BT. The overall conclusion of the results revealed BT-NPopG as an ideal delivery system to treat topical fungal infection.

Automated summary

The study aimed to prepare and optimize butenafine-loaded PLGA nanoparticles (BT-NPs). The optimized BT-NPopG formulation showed slow drug release, enhanced permeation, minimal irritation, and higher antifungal activity compared to marketed and pure BT, making it an ideal delivery system for topical fungal infections.