Objective: The lipid excipients of the self-emulsifying drug delivery systems (SEDDS) could play a role in interfering with the drug precipitation to maintain its supersaturation, a step with possible major significance on the SEDDS. Thus, the effect of lipid chain length on indomethacin precipitation rate from SEDDS upon dilution was studied.
Method: Indomethacin SEDDS were prepared using medium and long chain lipids at 5% and 13% (w/w) drug load. Two medium chain lipids Lauroglycol and Capryol, and two long chain lipids Labrafil and castor oil, were studied. The 13% w/w SEDDS were evaluated for drug release, and the physicochemical properties of the precipitated drug were characterized by PXRD, DSC, IR and Raman.
Key findings: The final optimized SEDDS consisted of Lauroglycol (lipid): Transcutol (co-solvent): Labrasol (surfactant). No precipitate was observed with long chain lipids SEDDS, whereas medium chain lipids SEDDS showed precipitation within 30 min of drug release from 13% w/w formulations. Precipitation studies showed that the medium chain lipids resulted in a modified indomethacin form possibly an ester. The ester formation signifies the interaction between indomethacin and medium chain length lipids.
Conclusions: The study emphasizes the importance of lipids chain length of excipients in successful SEDDS formulations. The study provides insight into the underlying drug lipid interactions in SEDDS formulations.
Keywords: drug and lipid interaction; indomethacin; precipitation inhibition; self-emulsifying drug delivery system (SEDDS).
© 2013 Royal Pharmaceutical Society.