0000000000794231

AUTHOR

Sandra Van Vlierberghe

0000-0001-7688-1682

showing 3 related works from this author

Endothelialization and Anticoagulation Potential of Surface-Modified PET Intended for Vascular Applications.

2018

In vascular tissue engineering, great attention is paid to the immobilization of biomolecules onto synthetic grafts to increase bio- and hemocompatibility-two critical milestones in the field. The surface modification field of poly(ethylene terephthalate) (PET), a well-known vascular-graft material, is matured and oversaturated. Nevertheless, most developed methods are laborious multistep procedures generally accompanied by coating instability or toxicity issues. Herein, a straightforward surface modification procedure is presented engineered to simultaneously promote surface endothelialization and anticoagulation properties via the covalent immobilization of gelatin through a photoactivate…

LipopolysaccharidesPolymers and PlasticsPoly(ethylene terephthalate)Gene ExpressionBiocompatible Materials02 engineering and technology01 natural sciencesGelatinendothelializationchemistry.chemical_compoundCoatingPolyethylene terephthalateMaterials Chemistrychemistry.chemical_classificationPolyethylene TerephthalatesSurface modifiedhemocompatibility021001 nanoscience & nanotechnologyPlatelet Endothelial Cell Adhesion Molecule-10210 nano-technologyE-Selectinbiotechnologyendotoxin contentazide photograftingAzidesfood.ingredientMaterials scienceBiocompatibilityCell SurvivalSurface PropertiesBioengineeringengineering.material010402 general chemistryBiomaterialsfoodvon Willebrand FactorHuman Umbilical Vein Endothelial CellsHumansTissue EngineeringBiomoleculeAnticoagulants0104 chemical sciencesBlood Vessel ProsthesischemistryengineeringSurface modificationBlood VesselsGelatinAzideBiomarkersBiomedical engineeringMacromolecular bioscience
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Porous Gelatin Hydrogels:  2. In Vitro Cell Interaction Study

2007

We report on the feasibility of applying porous gelatin hydrogels, prepared by a novel and controlled cryogenic treatment, as cell-interactive scaffolds for tissue engineering applications. Despite the large number of publications on gelatin as a biomaterial, a detailed study of screening a limited number of gelatin scaffolds for their interaction with a panel of human cells has, to the best of our knowledge, not yet been published. In the present work, we have evaluated two types of porous gelatin scaffolds that differ in their pore geometry and pore size. Type I hydrogels contained top-to-bottom transverse channels (i.e. cones) with a decreasing diameter from the top (330 microm) to the b…

food.ingredientPolymers and PlasticsCellsConfocalCell Culture TechniquesBioengineeringNanotechnologyGelatinBiomaterialsfoodTissue engineeringFreezingMaterials TestingCell AdhesionMaterials ChemistrymedicineHumansCell ProliferationMicroscopy ConfocalTissue EngineeringChemistryBiomaterialHydrogelsOsteoblastAdhesionmedicine.anatomical_structureVital stainSelf-healing hydrogelsBiophysicsGelatinPorosityBiomacromolecules
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Biomimetic strategy towards gelatin coatings on PET. Effect of protocol on coating stability and cell-interactive properties

2019

Gelatin-modified poly(ethylene terephthalate) (PET) surfaces have been previously realized via an intermediate dopamine coating procedure that resulted in surfaces with superior haemocompatibility compared to unfunctionalized PET. The present study addresses the biocompatibility assessment of these coated PET surfaces. In this context, the stability of the gelatin coating upon exposure to physiological conditions and its cell-interactive properties were investigated. The proposed gelatin–dopamine-PET surfaces showed an increased protein coating stability up to 24 days and promoted the attachment and spreading of both endothelial cells (ECs) and smooth muscle cells (SMCs). In parallel, physi…

food.ingredientBiocompatibilityCellBiomedical Engineering02 engineering and technologyengineering.material010402 general chemistry01 natural sciencesGelatinfoodCoatingSmooth muscleBiomimeticsmedicineGeneral Materials ScienceChemistryPolyethylene TerephthalatesGeneral ChemistryGeneral Medicine021001 nanoscience & nanotechnology0104 chemical sciencesPolyestermedicine.anatomical_structureengineeringSurface modificationGelatin0210 nano-technologyVascular graftBiomedical engineeringSURFACE MODIFICATION; CHEMISTRY; POLYESTER; ADHESION; FUNCTIONALIZATION; BIOCOMPATIBILITY; IMMOBILIZATION; PROLIFERATION; COMPATIBILITY; BIOMATERIALS
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