In situ-forming robust chitosan-poly(ethylene glycol) hydrogels prepared by copper-free azide–alkyne click reaction for tissue engineering - Concepedia

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In situ-forming robust chitosan-poly(ethylene glycol) hydrogels prepared by copper-free azide–alkyne click reaction for tissue engineering

DOI Full Paper Access

90

Citations

40

References

2013

Year

Vinh X. Truong, Matthew P. Ablett, Hamish T. J. Gilbert, James Bowen, Stephen M. Richardson, Judith A. Hoyland, Andrew P. Dove

Biomaterials Science

Tissue EngineeringEthylene GlycolEngineeringBiomimetic MaterialsResponsive PolymersBiomaterials DesignBiofabricationBioresponsive MaterialsBiomedical EngineeringResultant Hydrogel MaterialsBioactive MaterialRegenerative MedicineHydrogelsSitu-forming Robust Chitosan-polyRegenerative BiomaterialsPolymer ChemistryWater-soluble Azide-functionalised ChitosanRegenerative EngineeringBiopolymersBiopolymer GelBiofunctional MaterialPolymer ScienceMedicineBiomaterialsBiocompatible Material

Abstract

A water-soluble azide-functionalised chitosan was crosslinked with propiolic acid ester-functional poly(ethylene glycol) using copper-free click chemistry. The resultant hydrogel materials were formed within 5-60 min at 37 °C and resulted in mechanically robust materials with tuneable properties such as swelling, mechanical strength and degradation. Importantly, the hydrogels supported mesenchymal stem cell attachment and proliferation and were also non-toxic to encapsulated cells. As such these studies indicate that the hydrogels have potential to be used as injectable biomaterials for tissue engineering.

References

	Year	Citations

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