DESIGN, FORMULATION, AND CHARACTERIZATION OF LIPOSOMAL-ENCAPSULATED GEL FOR TRANSDERMAL DELIVERY OF FLUCONAZOLE

Princely S; Dhanaraju Md

doi:10.22159/ajpcr.2018.v11i8.25621

Authors

Princely S Department of Pharmaceutical Biotechnology, Research Laboratory, GIET School of Pharmacy, Rajahmundry - 533 296, Andhra Pradesh, India.
Dhanaraju Md Department of Pharmaceutical Biotechnology, Research Laboratory, GIET School of Pharmacy, Rajahmundry - 533 296, Andhra Pradesh, India.

DOI:

https://doi.org/10.22159/ajpcr.2018.v11i8.25621

Keywords:

Fluconazole (FLZ), Proliposome, Gel, Release kinetics, Transdermal delivery

Abstract

Objectives: The present objective for the study was to prepare proliposomal gel bearing an antifungal agent, fluconazole (FLZ) intended for topical application.

Methods: Various proliposome formulations were prepared using thin-film hydration technique by varying the lipid phase composition (phosphatidylcholine/cholesterol). Proliposome formulations were characterized for vesicle size, vesicle size distribution, vesicle morphology, drug content, entrapment efficiency, percentage yield value, storage stability analysis, Fourier-transform infrared spectroscopy (FTIR), differential scanning calorimetry (DSC), in vitro diffusion study, release kinetic studies, and antifungal activity. Topical proliposomal gels were prepared by incorporation of lyophilized proliposome into a structured vehicle carbopol 934 (2.5%).

Results: A spherical shape of reconstituted FLZ liposome with an average vesicle about 5â€“8 Î¼m was observed in photomicrographs. The percentage entrapment of drug was increased with increase in phospholipid composition in the range of 55.13â€“69.61%. The FTIR and DSC studies showed no possible drug-excipient interaction. Proliposomal gel showed the prolonged release of FLZ than the lyophilized liposomes. The release kinetic values of regression coefficients confirmed the diffusion-dependent release of the drug. Stability studies indicated that product is stable and should be stored at low temperature.

Conclusion: The proposed FLZ proliposomal gel showed sustained release with enhanced antifungal activity implicating its potential in effective transdermal delivery for the topical pharmacotherapy.

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