Paper Title
Genipin-crosslinked Chitosan Hydrogels as Scaffolds for Mammalian Cell Growth
Abstract
Abstract - While hydrogels can take many forms, covalently crosslinked structures are favoured when enhanced stability and
increased mechanical properties are required. One element of particular relevance to covalently crosslinked hydrogel
structures is the crosslinking agent involved in the scaffold formation, where at present, non-toxic options are limited. Recent
advances in research suggest that genipin is a beneficial crosslinking agent to consider. When such hydrogels are intended as
scaffolds for mammalian cells in tissue engineering applications, further consideration must be given to biocompatibility,
porosity and pore interconnection, so that appropriate cell activity within the bulk of the scaffold is achieved. Therefore, in this
work, the viability of genipin-crosslinked chitosan-polyvinylpyrrolidone hydrogels for culturing non-differentiated adult
mesenchymal stem cells is studied. Cell viability was observed through fluorescent microscopy and cell number assessed using
the MTT assay. Results confirmed that these hydrogels are benign to studied cells. Furthermore, it was shown that cell
proliferation propagates beneath the gel surface via interconnected pores within the hydrogels.
Keywords - Biomaterials, cell growth, chitosan, genipin, hydrogels, polyvinylpyrrolidone