CHOLLET, Céline; LAZARE, Sylvain; LABRUGÈRE, Christine; GUILLEMOT, Fabien; BAREILLE, Reine; DURRIEU, Marie-Christine

doi:10.1016/j.rbmret.2007.03.002

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CHOLLET, Céline
Biomateriaux et Reparation Tissulaire

LAZARE, Sylvain
Laboratoire de Physico-Chimie Moléculaire [LPCM]

LABRUGÈRE, Christine
Institut de Chimie de la Matière Condensée de Bordeaux [ICMCB]

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ITBM RBM. 2007, vol. 28, n° 1, p. 2-12

Elsevier

Résumé en anglais

he aim of this study was to evaluate the impact of RGD micro-patterned poly(ethylene terephthalate) (PET) on human osteoblast progenitor (HOP) cells attachment. Biomimetic modifications were performed by means of a four-step reaction: surface hydrolysis, oxidation in order to create COOH functions, coupling agent grafting (EDC, NHS) and finally immobilization of peptides. In addition to homogeneous or statistically distribution of peptides, micro-patterns of RGD were generated by: optical photolithography and UV excimer laser ablation. Modification steps were validated by physico-chemical techniques: XPS was used to prove covalent grafting at each stage of the surface functionalization, toluidine blue assay and high resolution µ-imager (using [3H]-Lys) to evaluate peptide densities and validate micro-patterns formation. Finally, the efficiency of this biomodification of PET was demonstrated onto homogeneous surfaces by measuring the adhesion between 1 and 24 h of osteoprogenitor cells isolated from HBMSC.< Réduire

Mots clés en anglais

Biomaterials

Grafting

Micro-patterning

RGD

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RGD peptides micro-patterning on poly(ethylene terephthalate) surfaces

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