Abstract
The primary objective of this study was to develop lipid-based self-microemulsifying drug delivery systems (SMEDDS) without using any organic cosolvents that would spontaneously form microemulsions upon dilution with water. Cosolvents were avoided to prevent possible precipitation of drug upon dilution and other stability issues. Different polysorbates, namely, Tween 20, Tween 40, Tween 60, and Tween 80, were used as surfactants, and Captex 355 EP/NF (glycerol tricaprylate/caprate) or its 1:1 mixture with Capmul MCM NF (glycerol monocaprylocaprate) were used as lipids. Captex 355-Tween-water ternary phase diagrams showed that oil-in-water microemulsions were formed only when the surfactant content was high (80–90%) and the lipid content low (10–20%). Thus, mixtures of Tweens with Captex 355 alone were not suitable to prepare SMEDDS with substantial lipid contents. However, when Captex 355 was replaced with the 1:1 mixture of Captex 355 and Capmul MCM, clear isotropic microemulsion regions in phase diagrams with sizes in the increasing order of Tween 20 < Tween 40 < Tween 60 < Tween 80 were obtained. Tween 80 had the most profound effect among all surfactants as microemulsions were formed with lipid to surfactant ratios as high as 7:3, which may be attributed to the presence of double bond in its side chain that increased the curvature of surfactant layer. Thus, lipid-surfactant mixtures containing 1:1 mixture of medium chain triglyceride (Captex 355) and monoglyceride (Capmul MCM) and as low as 30% Tween 80 were identified as organic cosolvent-free systems for the preparation of SMEDDS. Formulations with a model drug, probucol, dispersed spontaneously and rapidly upon dilution with water to form microemulsions without any drug precipitation.
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