Topics
polymerBand
cartilageAnatomical structure
HyaluronanChemical substance
acidChemical compound
chitosanChemical substance
denaturationElection
ChitosanChemical substance
Gelatin, chitosan and hyaluronic acid are natural components used to prepare polymeric scaffold in tissue engineering. The physical properties of these materials confer an appropriate microenvironment for cells, which can be used as a regeneration system for skin and cartilage. In this work, we prepared and characterized a Gelatin/Chitosan/Hyaluronan lyophilized-polymer. Physical properties of lyophilized-polymer changed slightly with moisture, but when polymer was totally hydrated the elasticity changed significantly. Thermophysical characterisation indicated that temperatures higher than 30°C could modify irreversibly the polymeric matrix probably due to protein denaturation. Besides, we used the polymer as scaffold to prepare a biosynthe...
A biodegradable polymer scaffold was developed using gelatin , chondroitin-6sullphate, and hyaluroni...
Tissue engineering is an important therapeutic strategy to be used in regenerative medicine in the p...
Hard tissue engineering holds the promise of restoring the function of failed hard tissues and invol...
Gelatin, chitosan and hyaluronic acid are natural components used to prepare polymeric scaffold in t...
Abstract Gelatin, chitosan and hyaluronic acid are natural components used to prepare polymeric scaf...
Scaffolds function as the body’s extra cellular matrix (ECM) in vitro, providing the necessary suppo...
In this work, two-component dialdehyde chitosan/hyaluronic acid scaffolds were developed and charact...
Chitosan is one of the most well-known and characterized materials applied in tissue engineering. Du...
Composite scaffolds of homogeneously mixed esterified hyaluronan (HY) and gelatin (G) were manufd. w...
In this study, synergistic effects of crosslinking and chitosan molecular weight on the microstructu...
Polysaccharide-based hydrogels are remarkable materials for the development of tissue engineering st...
Chitosan and gelatin are attractive polymeric feedstocks for developing environmentally benign, bio-...
Some of the current strategies for the development of scaffolding materials capable of inducing tiss...
Recently, bone tissue engineering emerged as a viable therapeutic alternative, comprising bone impla...
Tissue regeneration necessitates the development of appropriate scaffolds that facilitate cell growt...
A biodegradable polymer scaffold was developed using gelatin , chondroitin-6sullphate, and hyaluroni...
Tissue engineering is an important therapeutic strategy to be used in regenerative medicine in the p...
Hard tissue engineering holds the promise of restoring the function of failed hard tissues and invol...
Gelatin, chitosan and hyaluronic acid are natural components used to prepare polymeric scaffold in t...
Abstract Gelatin, chitosan and hyaluronic acid are natural components used to prepare polymeric scaf...
Scaffolds function as the body’s extra cellular matrix (ECM) in vitro, providing the necessary suppo...
In this work, two-component dialdehyde chitosan/hyaluronic acid scaffolds were developed and charact...
Chitosan is one of the most well-known and characterized materials applied in tissue engineering. Du...
Composite scaffolds of homogeneously mixed esterified hyaluronan (HY) and gelatin (G) were manufd. w...
In this study, synergistic effects of crosslinking and chitosan molecular weight on the microstructu...
Polysaccharide-based hydrogels are remarkable materials for the development of tissue engineering st...
Chitosan and gelatin are attractive polymeric feedstocks for developing environmentally benign, bio-...
Some of the current strategies for the development of scaffolding materials capable of inducing tiss...
Recently, bone tissue engineering emerged as a viable therapeutic alternative, comprising bone impla...
Tissue regeneration necessitates the development of appropriate scaffolds that facilitate cell growt...
A biodegradable polymer scaffold was developed using gelatin , chondroitin-6sullphate, and hyaluroni...
Tissue engineering is an important therapeutic strategy to be used in regenerative medicine in the p...
Hard tissue engineering holds the promise of restoring the function of failed hard tissues and invol...
Add to ORKG