Add to ORKGProtein-based biopolymers derived from natural tissues possess a hierarchical structure in their native state. Strongly solvating, reducing and stabilizing agents, as well as heat, pressure, and enzymes are used to isolate protein-based biopolymers from their natural tissue, solubilize them in aqueous solution and convert them into injectable or preformed hydrogels for applications in tissue engineering and regenerative medicine. This review aims to highlight the need to investigate the nano-/micro-structure of hydrogels derived from the extracellular matrix proteins of natural tissues. Future work should focus on identifying the nature of secondary, tertiary, and higher order structure formation in protein-based hydrogels derived from natu...
Recent advances in tissue engineering and regenerative medicine have shown that combining biomateria...
Hydrogels from biopolymers are readily synthesized, can possess various characteristics for differen...
Hydrogels are soft, jelly-like, polymeric networks with very high water retention capacity. They are...
Protein-based biopolymers derived from natural tissues possess a hierarchical structure in their nat...
In the field of tissue engineering and regenerative medicine, hydrogels are used as biomaterials to ...
Tissue engineering (TE) has been used as an attractive and efficient process to restore the original...
Hydrogels are three-dimensional polymeric network, capable of entrapping substantial amounts of flui...
International audienceCell-encapsulating hydrogels are of tremendous interest in regenerative medici...
The use of naturally occurring materials as scaffolds to support cell growth and proliferation signi...
Organ failure is a major health problem, and annually thousands of people die or develop long-term m...
Hydrogels from biopolymers are readily synthesized, can possess various characteristics for differen...
Biomaterials are dynamic tools with many applications: from the primitive use of bone and wood in th...
Biomaterial design is an important component towards tissue engineering applications. There are many...
Advances in synthetic routes to chemically modify natural macromolecules such as polysaccharides and...
Natural-based hydrogels have been widely used for Tissue Engineering and Regenerative Medicine (TERM...
Recent advances in tissue engineering and regenerative medicine have shown that combining biomateria...
Hydrogels from biopolymers are readily synthesized, can possess various characteristics for differen...
Hydrogels are soft, jelly-like, polymeric networks with very high water retention capacity. They are...
Protein-based biopolymers derived from natural tissues possess a hierarchical structure in their nat...
In the field of tissue engineering and regenerative medicine, hydrogels are used as biomaterials to ...
Tissue engineering (TE) has been used as an attractive and efficient process to restore the original...
Hydrogels are three-dimensional polymeric network, capable of entrapping substantial amounts of flui...
International audienceCell-encapsulating hydrogels are of tremendous interest in regenerative medici...
The use of naturally occurring materials as scaffolds to support cell growth and proliferation signi...
Organ failure is a major health problem, and annually thousands of people die or develop long-term m...
Hydrogels from biopolymers are readily synthesized, can possess various characteristics for differen...
Biomaterials are dynamic tools with many applications: from the primitive use of bone and wood in th...
Biomaterial design is an important component towards tissue engineering applications. There are many...
Advances in synthetic routes to chemically modify natural macromolecules such as polysaccharides and...
Natural-based hydrogels have been widely used for Tissue Engineering and Regenerative Medicine (TERM...
Recent advances in tissue engineering and regenerative medicine have shown that combining biomateria...
Hydrogels from biopolymers are readily synthesized, can possess various characteristics for differen...
Hydrogels are soft, jelly-like, polymeric networks with very high water retention capacity. They are...