Synthesis and characterization of a novel chitosan-based network prepared using naturally occurring crosslinker

Abstract

Novel chitosan-based polymeric networks were synthesized and characterized by FTIR, UV and C13 NMR. A naturally occurring crosslinking reagent—genipin, which has been used in herbal medicine and in the fabrication of food dyes, was used to prepare crosslinked chitosan hydrogel. The heterocyclic compound of genipin crosslinked chitosan was formed by a nucleophilic attack by amino group on the olefinic carbon atom at C-3 of deoxyloganin aglycone, followed by opening of the dihydropyran ring and attack by the secondary amine group on the intermediate aldehyde group. Additional, secondary amide linkages could be established in the genipin crosslinked chitosan network by the reaction of ester group of genipin with amino group of chitosan. This bifunctional linkages of genipin with amino group of chitosan leads to form crosslinked networks. Genipin reacted with nucleophilic reagent such as chitosan could further go through a polymerization to form oligomer-bridge in the crosslinked network. The finally formed chitosan networks are blue color, elastic and exhibits pH-dependent swelling characteristics. The swelling ratio of the chitosan hydrogel increased at pH lower than 3 and higher than 11 due to the hydrolysis of amide linkage in the genipin crosslinked chitosan network by acid or alkaline, followed by the protonation of amine group or ionization of carboxyl acid group in the network. © 2000 John Wiley & Sons, Inc. J Polym Sci A: Polym Chem 38: 2804–2814, 2000