Ricerc@Sapienza

Although in recent years several methods have been studied and developed to obtain different types of nanosized drug delivery systems, the set up of suitable procedures and materials remains highly expensive, their preparation is time consuming and often not feasible for a scale-up process. Furthermore, the sterilisation and storage of nanocarrier formulations represents a complicated but mandatory step for their effective use.

In the present work, the preparation, characterization and therapeutic potential of baicalin-loaded nanohydrogels are reported. The nanohydrogels were prepared by sonicating (S nanohydrogel) or autoclaving (A nanohydrogel) a dispersion of cholesterol-derivatized gellan in phosphate buffer. The nanohydrogel obtained by
autoclave treatment showed the most promising results: smaller particles (∼362 nm vs. ∼530 nm), higher
homogeneity (polydispersity index = ∼0.24 vs. ∼0.47), and lower viscosity than those obtained by sonication.

The feasibility to use gellan nanohydrogels (Ge-NHs) as delivery system for the cutaneous administration of piroxicam (PRX) was investigated using gellan conjugated with cholesterol or riboflavin. The in vitro skin penetration studies through human epidermis were performed using a saturated aqueous drug solution, a 50% w/v Transcutol aqueous solution, and a commercially available PRX plaster as controls. Confocal microscopy, ATR-FTIR spectroscopy, circular dichroism, and a dynamometer assisted extrusion assay were performed to clarify the permeation mechanism of Ge-NHs.