Chitosan, a biodegradable and biocompatible polymer, has attracted great attention in the pharmaceutical and biomedical fields especially due to its properties to reversibly open the tight junctions of the epithelial tissues and to allow for paracellular transport of hydrophilic macromolecules. However, chitosan exhibits low solubility at pH values above 6 that may prevent its enhancing effects at the sites of intestinal absorption. Hence, a number of alkylated chitosan salts have been synthesized and characterized. These derivatives have been shown to have good solubility at neutral pH and act as effective permeation enhancers. In this study, two new derivatives of chitosan, C2—C6 trimethyl 6-amino-6-deoxy chitosan and C2—C6 triethyl 6-amino-6-deoxy chitosan were synthesized and characterized using 1H-NMR and FTIR spectra. Moreover, the zeta potential and the antibacterial properties of these polymers were compared to chitosan, trimethyl chitosan (TMC) and triethyl chitosan (TEC). Our results suggest that both C2—C6 trimethyl and triethyl 6-amino-6-deoxy chitosan, as highly water soluble polymers, have higher positive surface charge than chitosan, TMC, and TEC. Moreover, the new synthesized polymers show higher antibacterial activity against Gram-positive Staphylococcus aureus bacteria. Consequently, these polymers with substitution degrees of 50—60% may be good candidates for the enhancement of peptides in mucosal drug delivery.
Polymeric delivery systems based on nanoparticles have emerged as a promising approach for peroral insulin delivery. The aim of the present study was to investigate the release of insulin nanoparticulate systems and ex vivo studies. The nanoparticles were prepared by the ion gelation method. Particle size distribution, zeta potential, and polydispersity index of the nanoparticles were determined. It was found that the nanoparticles carried positive charges and showed a size distribution in the range of 170–200 nm. The electrostatic interactions between the positively charged group of chitosan and negatively charged groups of Arabic gum play an important role in the association efficiency of insulin in nanoparticles.
In vitro insulin release studies showed an initial burst followed by a slow release of insulin. The mucoadhesion of the nanosystem was evaluated using excised rat jejunum. Ex vivo studies have shown a significant increase in absorption of insulin in the presence of chitosan nanoparticles in comparison with free insulin.
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