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In vitro evaluation on a model of blood brain barrier of idebenone-loaded solid lipid nanoparticles.

Journal of nanoscience and nanotechnology (2012-04-25)
L Montenegro, A Trapani, A Latrofa, G Puglisi
RESUMEN

The aim of this study was to evaluate in vitro the permeation of the antioxidant agent Idebenone (IDE) loaded into solid lipid nanoparticles (SLN) across MDCKII-MDR1 cell monolayer, selected as an in vitro model of the Blood Brain Barrier (BBB). SLN were prepared using cetyl palmitate as solid lipid and different non-ionic surfactants, oleth-20, ceteth-20 and isoceth-20, by the phase inversion temperature (PIT) technique. The resulting SLN showed physiological pH and osmolarity values, a mean particle diameter in the range of 33-63 nm, a single peak in size distribution, and a zeta potential ranging from +3.14 to -2.89 mV. When incubating these SLN in Simulated Body Fluid (SBF), the particle size was maintained for all samples throughout the study. IDE permeability across MDCKII-MDR1 cell monolayers from the SLN under investigation was 0.40-0.53 fold lower than free IDE and no significant difference was observed comparing IDE permeation from all the SLN tested. It is noteworthy that IDE loading into SLN avoided the use of an organic solvent to solubilize IDE, a poor water soluble compound, allowing the parenteral administration of this drug in aqueous vehicles. Furthermore, the results of in vitro transport studies, performed using fluorescein-dextran 4000 (FD4) and diazepam (DZ) as markers of the paracellular pathway and the transcellular pathway, respectively, pointed out that IDE could permeate via a transcellular pathway. Therefore, these novel nanocarriers could be regarded as a promising strategy to design delivery systems for IDE administration to the brain, deserving further investigations under in vivo conditions.

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Sigma-Aldrich
Idevenone, ≥98% (HPLC)