Chitin and chitosan: Properties and applications

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Chitin and chitosan polymers: Chemistry, solubility and fiber formation

Injectable hydrogels with biodegradability have in situ formability which in vitro/in vivo allows an effective and homogeneous encapsulation of drugs/cells, and convenient in vivo surgical operation in a minimally invasive way, causing smaller scar size and less pain for patients. Therefore, they have found a variety of biomedical applications, such as drug delivery, cell encapsulation, and tissue engineering. This critical review systematically summarizes the recent progresses on biodegradable and injectable hydrogels fabricated from natural polymers (chitosan, hyaluronic acid, alginates, gelatin, heparin, chondroitin sulfate, etc.) and biodegradable synthetic polymers (polypeptides, polyesters, polyphosphazenes, etc.). The review includes the novel naturally based hydrogels with high potential for biomedical applications developed in the past five years which integrate the excellent biocompatibility of natural polymers/synthetic polypeptides with structural controllability via chemical modification. The gelation and biodegradation which are two key factors to affect the cell fate or drug delivery are highlighted. A brief outlook on the future of injectable and biodegradable hydrogels is also presented (326 references).

Injectable and biodegradable hydrogels: gelation, biodegradation and biomedical applications

Antibacterial adhesive injectable hydrogels with rapid self-healing, extensibility and compressibility as wound dressing for joints skin wound healing.

Current research on the blends of natural and synthetic polymers as new biomaterials: Review

Physical Gelation of Chitosan in the Presence of β-Glycerophosphate: The Effect of Temperature

Viscoelastic properties of chitosan solutions: Effect of concentration and ionic strength

Synthesis and physicochemical and dynamic mechanical properties of a water-soluble chitosan derivative as a biomaterial.

Chitosan and glycerophosphate concentration dependence of solution behaviour and gel point using small amplitude oscillatory rheometry

Drug release mechanism of paclitaxel from a chitosan–lipid implant system: Effect of swelling, degradation and morphology

Jaepyoung Cho

Papers

Physical Gelation of Chitosan in the Presence of β-Glycerophosphate: The Effect of Temperature

Viscoelastic properties of chitosan solutions: Effect of concentration and ionic strength

Synthesis and physicochemical and dynamic mechanical properties of a water-soluble chitosan derivative as a biomaterial.

Chitosan and glycerophosphate concentration dependence of solution behaviour and gel point using small amplitude oscillatory rheometry

Drug release mechanism of paclitaxel from a chitosan–lipid implant system: Effect of swelling, degradation and morphology