RGD sequences were covalently immobilized on PCL surface though grafting of DEDG after polymer amynolisys. Proposed approach allows for a spatial distribution and as well as peptide immobilization control on polymer surface. We also demonstrated that this bioconiugation is compatible with three-dimensional PCL substrate to be used as scaffold for tissue engineering.
Grafting of GRGDS on poly-epsilon-caprolactone surface: A versatile procedure for bioactivation of threedimensional porous scaffolds
Battista E.Co-primo
;
2008-01-01
Abstract
RGD sequences were covalently immobilized on PCL surface though grafting of DEDG after polymer amynolisys. Proposed approach allows for a spatial distribution and as well as peptide immobilization control on polymer surface. We also demonstrated that this bioconiugation is compatible with three-dimensional PCL substrate to be used as scaffold for tissue engineering.File in questo prodotto:
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