Starch-based Pickering emulsions for topical drug delivery: A QbD approach

•A QbD approach was successfully applied to obtain Starch Pickering emulsions.•Formulation and process parameters allowed modulating droplet size.•Starch amount highly influenced Pickering emulsions stability.•Starch Pickering emulsions with suitable rheological and mechanical properties.•Pickering...

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Published in:Colloids and surfaces, B, Biointerfaces Vol. 135; pp. 183 - 192
Main Authors: Marto, J., Gouveia, L., Jorge, I.M., Duarte, A., Gonçalves, L.M., Silva, S.M.C., Antunes, F., Pais, A.A.C.C., Oliveira, E., Almeida, A.J., Ribeiro, H.M.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-11-2015
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Summary:•A QbD approach was successfully applied to obtain Starch Pickering emulsions.•Formulation and process parameters allowed modulating droplet size.•Starch amount highly influenced Pickering emulsions stability.•Starch Pickering emulsions with suitable rheological and mechanical properties.•Pickering emulsions were self-preserving and non-irritant for skin application. Pickering emulsions are stabilized by solid particles instead of surfactants and have been widely investigated in pharmaceutical and cosmetic fields since they present less adverse effects than the classical emulsions. A quality by design (QbD) approach was applied to the production of w/o emulsions stabilized by starch. A screening design was conducted to identify the critical variables of the formula and the process affecting the critical quality properties of the emulsion (droplet size distribution). The optimization was made by establishing the Design Space, adjusting the concentration of starch and the quantity of the internal aqueous phase. The emulsion production process was, in turn, adjusted by varying the time and speed of stirring, to ensure quality and minimum variability. The stability was also investigated, demonstrating that an increase in starch concentration improves the stability of the emulsion. Rheological and mechanical studies indicated that the viscosity of the emulsions was enhanced by the addition of starch and, to a higher extent, by the presence of different lipids. The developed formulations was considered non-irritant, by an in vitro assay using human cells from skin (Df and HaCat) with the cell viability higher than 90% and, with self-preserving properties. Finally, the QbD approach successfully built quality in Pickering emulsions, allowing the development of hydrophilic drug-loaded emulsions stabilized by starch with desired organoleptic and structural characteristics. The results obtained suggest that these systems are a promising vehicle to be used in products for topical administration.
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ISSN:0927-7765
1873-4367
DOI:10.1016/j.colsurfb.2015.07.024