Colloids Surf B Biointerfaces. 2015 Oct 31;136:908-917
Propolis shows therapeutic properties ascribed to the presence of some flavonoids, phenolic acids, and their esters; it is a natural multifunctional material, solid at room temperature, and composed mainly of resin and waxes.
We therefore used propolis as a lipid material to prepare solid lipid nanoparticles (SLNs); SLNs are proposed bioactive medications for topical intranasal therapy. Suitable formulation parameters were studied and the SLNs obtained by the high shear homogenization method were characterized; a selected formulation was viscosized to increase the residence time. Dimensional, morphological, and solid-state characterizations of the formulated SLNs were performed. In vitro and ex vivo permeation tests of diclofenac sodium, the model drug, and polyphenols were carried out. The propolis amount and surfactant concentration represent the key parameters that affect nanoparticle properties in terms of size, drug and polyphenol content, and physical stability. Size dispersions of about 600nm and 0.4 PI were obtained, which do not change by increasing the viscosity. Drug is encapsulated in SLNs, as demonstrated by FTIR and DSC analyses.
In vitro and ex vivo studies prove that drug and polyphenols do not cross the membranes; therefore, propolis-based SLNs could be used as delivery systems of diclofenac and flavonoids for the local treatment of nasal cavity diseases. Due to propolis composition, the proposed formulation could be used as a bioactive medication in which the carrier can exert a complementary effect with the loaded drug.
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