The aim of this study was to evaluate the impact of different densities on MC3T3 cells attachment onto polyethylene terephthalate (PET) film surfaces. Biomimetic modifications were performed by means of a three-step reaction procedure: creation of COOH functions onto PET surface, coupling agent grafting and finally immobilization of peptides. The originality of this work consist, in one hand on quantifying RGD peptides densities grafted onto PET, and on the other hand on studying MC3T3 cells responses after seeding on such biomimetic surfaces. After each functionnalization step, modifications were validated by several physicochemical techniques: X-Ray Photoelectron Spectroscopy permitted to prove the grafting and high-resolution β-imager co...
The present work aimed to treat a polyethylene terephthalate (PET) surface to make the biomaterial m...
Abstract of article examining the chemical modification of polyurethane with RGD-containing peptides...
A common theme in engineering cell and tissue behavior at device surfaces is the biomimetic modifica...
International audienceHybrid materials combining polyethylene terephthalate and different types of c...
International audienceHybrid materials combining polyethylene terephthalate and different types of c...
he aim of this study was to evaluate the impact of RGD micro-patterned poly(ethylene terephthalate) ...
International audienceTo control specific endothelial cell (EC) functions, cell adhesive RGDS, EC sp...
The cell recognition of bioactive ligands immobilized on polymeric surfaces is strongly dependent on...
A non-peptide mimic of the Arg-Gly Asp (RGD) active sequence of adhesive proteins (such as vitronect...
This study presents the comparative cell attachment investigation of TAT and well-known RGD peptide ...
A two-step wet chemistry protocol has been developed for the surface derivatization of poly(ethylene...
The present work aimed to treat a polyethylene terephthalate (PET) surface to make the biomaterial m...
Abstract of article examining the chemical modification of polyurethane with RGD-containing peptides...
A common theme in engineering cell and tissue behavior at device surfaces is the biomimetic modifica...
International audienceHybrid materials combining polyethylene terephthalate and different types of c...
International audienceHybrid materials combining polyethylene terephthalate and different types of c...
he aim of this study was to evaluate the impact of RGD micro-patterned poly(ethylene terephthalate) ...
International audienceTo control specific endothelial cell (EC) functions, cell adhesive RGDS, EC sp...
The cell recognition of bioactive ligands immobilized on polymeric surfaces is strongly dependent on...
A non-peptide mimic of the Arg-Gly Asp (RGD) active sequence of adhesive proteins (such as vitronect...
This study presents the comparative cell attachment investigation of TAT and well-known RGD peptide ...
A two-step wet chemistry protocol has been developed for the surface derivatization of poly(ethylene...
The present work aimed to treat a polyethylene terephthalate (PET) surface to make the biomaterial m...
Abstract of article examining the chemical modification of polyurethane with RGD-containing peptides...
A common theme in engineering cell and tissue behavior at device surfaces is the biomimetic modifica...