Because of their ease of handling and excellent biocompatibility, injectable macroporous hydrogels have received a considerable interest in the fields of tissue engineering and drug delivery systems because of their unique application in minimally invasive surgical procedures. In this study, in situ forming, injectable, macroporous, self-healing gelatin (GE)/oxidized alginate (OSA)/adipic acid dihydrazide (ADH) hydrogels were prepared using a high-speed shearing treatment and were stabilized by Schiff base reaction and acylhydrazone bonds. Their injectability, self-healing ability, rheology, microstructure, equilibrium water content, and in vitro biodegradation were investigated. We found that the injectable GE/OSA/ADH precursors remained i...
Dynamic chemistry has been recently applied to design injectable hydrogels capable of self-healing. ...
Alginate is a negative ionic polysaccharide that is found abundantly in nature. Calcium is usually u...
Generation of living tissues through tissue engineering can be achieved via incorporation of cells i...
Because of their ease of handling and excellent biocompatibility, injectable macroporous hydrogels h...
Injectable hydrogels can be useful tools for facilitating wound healing since they conform to the ir...
Injectable hydrogels represent a valuable tool for the delivery of therapeutic molecules aimed to re...
Bone tissue engineering is employed to help enhance regeneration of bone tissue that may have diffic...
A hydrogel for potential applications in wound dressing should possess several peculiar properties, ...
More and more studies have recognized that the nanosized pores of hydrogels are too small for cells ...
Biopolymeric hydrogels that mimic the properties of extracellular matrix have great potential in pro...
To assist or replace the traditional suture techniques for wound closure, soft-tissue adhesives with...
Hydrogels have been extensively used as scaffolds in tissue engineering for cell adhesion, prolifera...
Hydrogels have been used in the literature in tissue engineering, in drug delivery, and as enzyme bi...
International audienceRepairing or replacing damaged human tissues has been the ambitious goal of re...
Every year millions of people worldwide undergo surgical interventions, with the occur- rence of mi...
Dynamic chemistry has been recently applied to design injectable hydrogels capable of self-healing. ...
Alginate is a negative ionic polysaccharide that is found abundantly in nature. Calcium is usually u...
Generation of living tissues through tissue engineering can be achieved via incorporation of cells i...
Because of their ease of handling and excellent biocompatibility, injectable macroporous hydrogels h...
Injectable hydrogels can be useful tools for facilitating wound healing since they conform to the ir...
Injectable hydrogels represent a valuable tool for the delivery of therapeutic molecules aimed to re...
Bone tissue engineering is employed to help enhance regeneration of bone tissue that may have diffic...
A hydrogel for potential applications in wound dressing should possess several peculiar properties, ...
More and more studies have recognized that the nanosized pores of hydrogels are too small for cells ...
Biopolymeric hydrogels that mimic the properties of extracellular matrix have great potential in pro...
To assist or replace the traditional suture techniques for wound closure, soft-tissue adhesives with...
Hydrogels have been extensively used as scaffolds in tissue engineering for cell adhesion, prolifera...
Hydrogels have been used in the literature in tissue engineering, in drug delivery, and as enzyme bi...
International audienceRepairing or replacing damaged human tissues has been the ambitious goal of re...
Every year millions of people worldwide undergo surgical interventions, with the occur- rence of mi...
Dynamic chemistry has been recently applied to design injectable hydrogels capable of self-healing. ...
Alginate is a negative ionic polysaccharide that is found abundantly in nature. Calcium is usually u...
Generation of living tissues through tissue engineering can be achieved via incorporation of cells i...