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Abstract
The investigation was aimed at developing thermodynamically stable topical delivery system of nanostructured lipid carrier of econazole nitrate (EN) for the treatment of deep seated fungal infection by improving its permeability. Fifteen formulations (F1–F15) of nanostructured lipid carriers (NLCs) were prepared by solvent injection technique using central composite design and characterized for particle size and % entrapment efficiency. Closeness in the results, guided the selection of five NLC formulations which were formulated as hydrogels (G1–G5) using Carbopol 934. The permeation studies of gels demonstrated G3 with flux rate of 3.21 ± 0.03 µg/cm2/min (> target flux of 1.46 µg/cm2/min) as the best formulation that exhibited zero order permeation. The amount of drug/unit area demonstrated linear dependency on flux rate. Confocal laser scanning microscopy demonstrated penetration of rhodamine red till the stratum basale due to hydration of stratum corneum. Hydrogel G3 containing NLC formulation (F5) was selected as the optimized topical gel. TEM of F5 revealed spherical particles that presented low recrystallization index of 72.35%. Stability profile for 90 days revealed insignificant change (p < 0.05) in the particle size and zeta potential indicating substantial stability of the system. Thus, EN-loaded NLC indicated better permeability and thermodynamic stability as effective topical delivery system for deep seated fungal infection.
Acknowledgement
Authors are grateful to Diya labs, Mumbai for providing DSC facility; AIRF-JNU, New Delhi, India for providing assistance in CLSM scan; DIPSARU, New Delhi and Jamia Hamdard University, New Delhi, India, for providing zeta sizing facility.
Declaration of interest
Financial support provided to Mr. Lav Keshri by All India Council for Technical Education (AICTE), New Delhi, India, is gratefully acknowledged.