Add to ORKGA method for producing collagen-based scaffolds with improved characteristics, which broadens the usage of collagen in tissue engineering and the products so produced are described. The method comprises reconstitution of three-dimensional collagen matrices from collagen monomer solution and crosslinking the matrix with a light source in the presence of a photosensitizing reagent. The crosslinked products can be in any shape and form and used in the dry or wet state, for applications including but not limited to tissue engineering and controlled drug delivery.published_or_final_versio
Collagen presents an attractive biomaterial for tissue engineering because of its excellent biocompa...
Abstract Collagen, the most abundant extracellular matrix protein in animal kingdom belongs to a fam...
Photo-crosslinked synthetic biodegradable polymer networks are highly interesting materials for util...
A Method For Producing Collagen-Based Scaffolds With Improved Characteristics, Which Broadens The Us...
A method for producing collagen-based scaffolds with improved characteristics, which broadens the us...
Collagen is a natural biomaterial with excellent biocompatibility. However, unprocessed collagen has...
Collagen gel is a natural biomaterial commonly used in tissue engineering because of its close resem...
Photochemical crosslinking is an emerging technique able to modify the physicochemical properties of...
Short wavelength (λ = 254 nm) UV irradiation was evaluated over a range of intensities (0.06 to 0.96...
Ideal properties of biomaterials for tissue engineering applications include biocompatibility, tissu...
The present work targets the development of collagen-based hydrogel precursors, functionalized with ...
The use of collagen scaffold in tissue engineering is on the rise, as modifications to mechanical pr...
Abstract Development of functional soft-tissue engineered constructs for use in regenerative medici...
Collagen is the major protein component of cartilage, bone, skin and connective tissue and constitut...
Collagen is the main structural protein of most hard and soft tissues in animals and the human body,...
Collagen presents an attractive biomaterial for tissue engineering because of its excellent biocompa...
Abstract Collagen, the most abundant extracellular matrix protein in animal kingdom belongs to a fam...
Photo-crosslinked synthetic biodegradable polymer networks are highly interesting materials for util...
A Method For Producing Collagen-Based Scaffolds With Improved Characteristics, Which Broadens The Us...
A method for producing collagen-based scaffolds with improved characteristics, which broadens the us...
Collagen is a natural biomaterial with excellent biocompatibility. However, unprocessed collagen has...
Collagen gel is a natural biomaterial commonly used in tissue engineering because of its close resem...
Photochemical crosslinking is an emerging technique able to modify the physicochemical properties of...
Short wavelength (λ = 254 nm) UV irradiation was evaluated over a range of intensities (0.06 to 0.96...
Ideal properties of biomaterials for tissue engineering applications include biocompatibility, tissu...
The present work targets the development of collagen-based hydrogel precursors, functionalized with ...
The use of collagen scaffold in tissue engineering is on the rise, as modifications to mechanical pr...
Abstract Development of functional soft-tissue engineered constructs for use in regenerative medici...
Collagen is the major protein component of cartilage, bone, skin and connective tissue and constitut...
Collagen is the main structural protein of most hard and soft tissues in animals and the human body,...
Collagen presents an attractive biomaterial for tissue engineering because of its excellent biocompa...
Abstract Collagen, the most abundant extracellular matrix protein in animal kingdom belongs to a fam...
Photo-crosslinked synthetic biodegradable polymer networks are highly interesting materials for util...