Add to ORKG[Excerpt] The success of some polymeric scaffolds for Tissue Engineering is hindered by its surface chemistry, which in many cases leads to a significant foreign body response. To overcome this, the present project intend to explore a strategy of surface modification through electrostatic self-assembly, first reported in the 1990s, by the construction of multilayered systems by assembling a polycation and a polyanion in an alternate fashion. [...]info:eu-repo/semantics/publishedVersio
We obtained a nano-fibrillar scaffold starting from a polymeric solution which, through electrospinn...
Tissue engineering and regenerative medicine are rapidly growing multidisciplinary fields that lie a...
[Excerpt] The field of tissue engineering has evolved greatly since the idea of combining active co...
[Excerpt] Surface design of biomedical devices is crucial for their acceptation or rejection by the...
[Excerpt] In tissue engineering (TE), several biological, mechanical and geometrical design constrai...
[Excerpt] Natural-based biomaterials are mainly constituted by proteins or polysaccharides which, un...
[Excerpt] Poly(L-lactic acid), a synthetic biodegradable polyester, is widely accepted for many tiss...
[Excerpt] The development of new coatings and surface modification strategies for biomaterial is of...
[Excerpt] Growth and differentiation factors can be used to guide the biology in tissue engineering,...
[Excerpt] Tissue engineering scaffolds must provide cell anchorage sites, mechanical stability and ...
In design of a tissue engineering scaffold, surface physicochemistry is one of the most important is...
[Excerpt] Despite some successes in the tissue engineering field its evolution seems to be tampered ...
[Excerpt] In the Tissue Engineering (TE) field, great attention has been given devoted to the use of...
1- articleInternational audienceBACKGROUND: Biodegradable polymers used in tissue engineering applic...
[Excerpt] Fibrous structures mimicking the natural extracellular matrix (ECM) morphology are conside...
We obtained a nano-fibrillar scaffold starting from a polymeric solution which, through electrospinn...
Tissue engineering and regenerative medicine are rapidly growing multidisciplinary fields that lie a...
[Excerpt] The field of tissue engineering has evolved greatly since the idea of combining active co...
[Excerpt] Surface design of biomedical devices is crucial for their acceptation or rejection by the...
[Excerpt] In tissue engineering (TE), several biological, mechanical and geometrical design constrai...
[Excerpt] Natural-based biomaterials are mainly constituted by proteins or polysaccharides which, un...
[Excerpt] Poly(L-lactic acid), a synthetic biodegradable polyester, is widely accepted for many tiss...
[Excerpt] The development of new coatings and surface modification strategies for biomaterial is of...
[Excerpt] Growth and differentiation factors can be used to guide the biology in tissue engineering,...
[Excerpt] Tissue engineering scaffolds must provide cell anchorage sites, mechanical stability and ...
In design of a tissue engineering scaffold, surface physicochemistry is one of the most important is...
[Excerpt] Despite some successes in the tissue engineering field its evolution seems to be tampered ...
[Excerpt] In the Tissue Engineering (TE) field, great attention has been given devoted to the use of...
1- articleInternational audienceBACKGROUND: Biodegradable polymers used in tissue engineering applic...
[Excerpt] Fibrous structures mimicking the natural extracellular matrix (ECM) morphology are conside...
We obtained a nano-fibrillar scaffold starting from a polymeric solution which, through electrospinn...
Tissue engineering and regenerative medicine are rapidly growing multidisciplinary fields that lie a...
[Excerpt] The field of tissue engineering has evolved greatly since the idea of combining active co...