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Cell survival and proliferation after encapsulation in a chemically modified Pluronic® F127 hydrogel
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Evaluation of de novo bone formation in a goat model using an injectable UV cross-linkable Pluronic® F127 modified hydrogel in combination with autologous mesenchymal stem cells
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Vernetbare, thermoresponsieve hydrogelen, als potentiële dragersystemen voor geneesmiddelafgifte en matrices voorweefselregeneratie.
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Modiefied Pluronic F127 hydrogel as a cell delivery system for bone tissue engineering
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Biodegradable scaffolds for tissue engineering prepared from crosslinkable precursors
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In Situ Crosslinkable Thermo-Responsive Hydrogels for Drug Delivery
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Thermo-responsive hydrogels based on Pluronic F127 as drug delivery systems
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In-situ croslinkable thermo-responsive hydrogels for drug delivery
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Biodegradable Polymers for Tissue Engineering Applications
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Tailor made matrices for tissue engineering derived from crosslinkable polymeric precursors (ILect)
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Biodegradable polymers for tissue engineering applications
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Degradable pluronic(R) F127-based hydrogels (Lect. by I.Swennen)
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Thermo-responsive properties of novel degradable hydrogels for biomedical applications. (Lecture by I.Swennen)
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Degradable thermo-responsive pluronic(R) based hydrogels for medical applications. (Poster by I.Swennen)
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Degradable pluronic(R) based hydrogels for biomedical applications
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Degradable Pluronic (R) based hydrogels for biomedical applications
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Epoxy polymer surface roughness modeling based on kinetic studies of wet chemical treatments
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Influence of wet chemical treatments on the evolution of epoxy polymer layer surface roughness for use as a build-up layer
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Synthesis and evaluation of in situ crosslinkable epsipeptide terminated polymers for bone tissue regeneration (Poster by I. Swennen)
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Synthesis and evaluation of in situ crosslinkable depsipeptide terminated prepolymers for tissue engineering (Poster by I. Swennen)
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Influence of wet chemical treatments on the evolution of epoxy polymer layer surface roughness for use as build-up layer
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Micropatterning of polyurethanes with lasers.