Add to ORKG[Excerpt] Surface design of biomedical devices is crucial for their acceptation or rejection by the body. One of the most versatile and effective tools to tailor surface chemistry and properties of solids is polymer grafting. This work describes the modification of starch/polycaprolactone scaffolds by surface grafting of sulfonic and phosphonic groups and the effect of those groups on osteoblast-like cells behaviour on a preliminary base. [...]info:eu-repo/semantics/publishedVersio
A commonly applied strategy in the field of tissue engineering (TE) is the use of temporary three-di...
In scaffold-based tissue engineering strategies, the successful regeneration of tissues from matrixp...
The establishment of a functional vasculature is as yet an unrealized milestone in bone reconstructi...
[Excerpt] Surface design of biomedical devices is crucial for their acceptation or rejection by the...
In design of a tissue engineering scaffold, surface physicochemistry is one of the most important is...
[Excerpt] The success of some polymeric scaffolds for Tissue Engineering is hindered by its surface ...
[Excerpt] In tissue engineering (TE), several biological, mechanical and geometrical design constrai...
[Excerpt] Tissue engineering scaffolds must provide cell anchorage sites, mechanical stability and ...
[Excerpt] Natural-based biomaterials are mainly constituted by proteins or polysaccharides which, un...
This study proposes a new route for producing fiber mesh scaffolds from a starch-polycaprolactone (S...
Uncorrected proofTissue engineering has emerged as a new interdisciplinary field for the repair of v...
[Excerpt] Fibrous structures mimicking the natural extracellular matrix (ECM) morphology are conside...
[Excerpt] The success of bone tissue engineering (TE) strategies is strongly dependent on the develo...
[Excerpt] For bone TE applications the formation of a prevascularized structure is not only required...
peer-reviewedBone defects arising from injury and/or disease are a common and debilitating clinical ...
A commonly applied strategy in the field of tissue engineering (TE) is the use of temporary three-di...
In scaffold-based tissue engineering strategies, the successful regeneration of tissues from matrixp...
The establishment of a functional vasculature is as yet an unrealized milestone in bone reconstructi...
[Excerpt] Surface design of biomedical devices is crucial for their acceptation or rejection by the...
In design of a tissue engineering scaffold, surface physicochemistry is one of the most important is...
[Excerpt] The success of some polymeric scaffolds for Tissue Engineering is hindered by its surface ...
[Excerpt] In tissue engineering (TE), several biological, mechanical and geometrical design constrai...
[Excerpt] Tissue engineering scaffolds must provide cell anchorage sites, mechanical stability and ...
[Excerpt] Natural-based biomaterials are mainly constituted by proteins or polysaccharides which, un...
This study proposes a new route for producing fiber mesh scaffolds from a starch-polycaprolactone (S...
Uncorrected proofTissue engineering has emerged as a new interdisciplinary field for the repair of v...
[Excerpt] Fibrous structures mimicking the natural extracellular matrix (ECM) morphology are conside...
[Excerpt] The success of bone tissue engineering (TE) strategies is strongly dependent on the develo...
[Excerpt] For bone TE applications the formation of a prevascularized structure is not only required...
peer-reviewedBone defects arising from injury and/or disease are a common and debilitating clinical ...
A commonly applied strategy in the field of tissue engineering (TE) is the use of temporary three-di...
In scaffold-based tissue engineering strategies, the successful regeneration of tissues from matrixp...
The establishment of a functional vasculature is as yet an unrealized milestone in bone reconstructi...