Abstract :
Aims: The objective of the investigation is to formulate self-nanoemulsifying drug delivery system
(SNEDDS) of Vitamin A (tocopherol) to improve its aqueous solubility as its fat-soluble vitamin.
Settings, Design, Methodology: Solubility of Vitamin A in various oil surfactants and cosurfactants is
determined. Ternary phase diagram is constructed at different ratios of surfactant and co-surfactants to determine
self-emulsifying region. Effect of oil content, pH of aqueous phase and mean globule size of resulting nanoemulsion
is studied. Optimized formulation was identified and was evaluated for in vitro dissolution profile
in comparison with pure drug. Results: Self-emulsifying drug delivery systems yielded nanoemulsion with
globule size range of 81.7 nm with the Z average of 504.4 nm indicating all the particles were in nano-meter
range. Drug content was measured and found to be 99.62% in optimized formulation A20. Phase inversion is
not noticed after thermodynamic studies. Conclusion: SNEDDS of Vitamin A comprising of clove oil, Tween
40, and polyethylene glycol 600 were prepared for enhancing the dissolution and bioavailability. SNEDDS
were optimized based on the optimum globule size, increased dissolution, and drug release. Close to complete
drug release was achieved from the formulation A20 which is significantly higher as compared to that of other
formulations.
Keyword :
Improving aqueous solubility, self-nanoemulsifying drug delivery system, Vitamin A