A biodegradable in situ injectable hydrogel based on chitosan and oxidized hyaluronic acid for tissue engineering applications

A biodegradable in situ injectable hydrogel based on chitosan and oxidized hyaluronic acid for tissue engineering applications

An “in situ” biodegradable gel consisting of chitosan, glycerol phosphate (GP) and oxidized hyaluronic acid (HDA) were synthesised and characterized .This is a two component hydrogel system where chitosan neutralized with GP resulted in instantaneous gelling when combined with HDA. The gels are cyto...

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Veröffentlicht in:Carbohydrate polymers 2011-07, Vol.85 (4), p.838-844
Hauptverfasser: Nair, Sandhya, Remya, N.S., Remya, S., Nair, Prabha D.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Biodegradability
Biological and medical sciences
Carbohydrates
Chitosan
Chondrocytes
encapsulation
Exact sciences and technology
Extracellular matrix
Fibroblasts
freeze drying
gelation
gels
Glycerol
Hyaluronic acid
hydrocolloids
Hydrogels
Medical sciences
Natural polymers
Oxidation
Phosphate
phosphates
Physicochemistry of polymers
Porosity
scaffolds
Starch and polysaccharides
Surgery (general aspects). Transplantations, organ and tissue grafts. Graft diseases
Technology. Biomaterials. Equipments
Tissue engineering
viability
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Beschreibung
Zusammenfassung:An “in situ” biodegradable gel consisting of chitosan, glycerol phosphate (GP) and oxidized hyaluronic acid (HDA) were synthesised and characterized .This is a two component hydrogel system where chitosan neutralized with GP resulted in instantaneous gelling when combined with HDA. The gels are cytocompatible and could be freeze dried to form porous scaffolds. The percentage porosity of the freeze-dried chitosan hyaluronic acid dialdehyde gels (CHDA) increased with increasing oxidation. Fibroblast cells seeded onto CHDA porous scaffolds adhered, proliferated and produced ECM components on the scaffold. Chondrocytes encapsulated in CHDA gels retained their viability and specific phenotypic characteristics. The gel material is hence proposed as a scaffold and encapsulating material for tissue engineering applications.
ISSN:0144-8617
1879-1344
DOI:10.1016/j.carbpol.2011.04.004