about
Plasmid releasing multiple channel bridges for transgene expression after spinal cord injuryPatterned transgene expression in multiple-channel bridges after spinal cord injury.Tenascin C promiscuously binds growth factors via its fifth fibronectin type III-like domain.Design of modular non-viral gene therapy vectors.High-Affinity RGD-Knottin Peptide as a New Tool for Rapid Evaluation of the Binding Strength of Unlabeled RGD-Peptides to αvβ3, αvβ5, and α5β1 Integrin Receptors.Local gene delivery from ECM-coated poly(lactide-co-glycolide) multiple channel bridges after spinal cord injury.Multiple channel bridges for spinal cord injury: cellular characterization of host response.Engineering the regenerative microenvironment with biomaterials.Sustained transgene expression via citric acid-based polyester elastomers.Nerve Cells Decide to Orient inside an Injectable Hydrogel with Minimal Structural GuidanceHierarchical Design of Tissue Regenerative Constructs.An Injectable Hybrid Hydrogel with Oriented Short Fibers Induces Unidirectional Growth of Functional Nerve Cells.Microfluidic fabrication of polyethylene glycol microgel capsules with tailored properties for the delivery of biomolecules.A water-soluble PEGylated RGD-functionalized bisbithiophenyl diketopyrrolopyrrole as a photoacoustic sonophore.Bioactive Gyroid Scaffolds Formed by Sacrificial Templating of Nanocellulose and Nanochitin Hydrogels as Instructive Platforms for Biomimetic Tissue EngineeringA catalyst-free, temperature controlled gelation system for in-mold fabrication of microgelsCell Encapsulation in Soft, Anisometric Poly(ethylene) Glycol Microgels Using a Novel Radical‐Free Microfluidic SystemWater-soluble dopamine-based polymers for photoacoustic imagingRapid and Robust Coating Method to Render Polydimethylsiloxane Surfaces Cell-AdhesiveSynthetic 3D PEG-Anisogel Tailored with Fibronectin Fragments Induce Aligned Nerve ExtensionCompartmentalized Jet Polymerization as a High-Resolution Process to Continuously Produce Anisometric Microgel Rods with Adjustable Size and StiffnessSolvent-Induced Nanotopographies of Single Microfibers Regulate Cell MechanotransductionSoft temperature-responsive microgels of complex shape in stop-flow lithographyMetal-Organic Gels Based on a Bisamide Tetracarboxyl Ligand for Carbon Dioxide, Sulfur Dioxide, and Selective Dye UptakeA Layer-by-Layer Single-Cell Coating Technique To Produce Injectable Beating Mini Heart Tissues via MicrofluidicsCellular responses to beating hydrogels to investigate mechanotransduction
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description
researcher, ORCID id # 0000-0002-9438-0977
@en
wetenschapper
@nl
name
Laura De Laporte
@ast
Laura De Laporte
@en
Laura De Laporte
@es
Laura De Laporte
@nl
type
label
Laura De Laporte
@ast
Laura De Laporte
@en
Laura De Laporte
@es
Laura De Laporte
@nl
prefLabel
Laura De Laporte
@ast
Laura De Laporte
@en
Laura De Laporte
@es
Laura De Laporte
@nl
P106
P21
P31
P496
0000-0002-9438-0977