Microstructured Surfaces Cause Severe but Non-Detrimental Deformation of the Cell Nucleus
about
A high throughput approach for analysis of cell nuclear deformability at single cell levelMultiscale grooved titanium processed with femtosecond laser influences mesenchymal stem cell morphology, adhesion, and matrix organization.Peri-implant bone organization surrounding zirconia-microgrooved surfaces circularly polarized light and confocal laser scanning microscopy study.On-chip assay of the effect of topographical microenvironment on cell growth and cell-cell interactions during wound healing.Bridging the Gap: From 2D Cell Culture to 3D Microengineered Extracellular Matrices.Vertical nanopillars for in situ probing of nuclear mechanics in adherent cells.Relative influence of surface topography and surface chemistry on cell response to bone implant materials. Part 2: biological aspects.Cell-material interactions revealed via material techniques of surface patterning.Fabrication of highly modulable fibrous 3D extracellular microenvironments.Nucleus deformation of SaOs-2 cells on rhombic µ-pillars.Advanced Materials for the Recognition and Capture of Whole Cells and Microorganisms.In vitro and transdermal penetration of PHBV micro/nanoparticles.Nanoscale patterning of biopolymers for functional biosurfaces and controlled drug release.Quantification of Type, Timing, and Extent of Cell Body and Nucleus Deformations Caused by the Dimensions and Hydrophilicity of Square Prism Micropillars.Rapid Prototyping of Polymeric Nanopillars by 3D Direct Laser Writing for Controlling Cell Behavior.Mechanical Contact Characteristics of PC3 Human Prostate Cancer Cells on Complex-Shaped Silicon Micropillars.Rigidity-patterned polyelectrolyte films to control myoblast cell adhesion and spatial organization.Biodegradable photo-crosslinked polymer substrates with concentric microgrooves for regulating MC3T3-E1 cell behavior.Conformal Nanocoatings with Uniform and Controllable Thickness on Microstructured Surfaces: A General Assembly Route.The effect of ordered and partially ordered surface topography on bone cell responses: a review.Role of the Nucleus as a Sensor of Cell Environment Topography.Responsiveness of voltage-gated calcium channels in SH-SY5Y human neuroblastoma cells on micropillar substrates.Adhesion and migration of cells responding to microtopography.Severe Deformations of Malignant Bone and Skin Cells, as well as Aged Cells, on Micropatterned SurfacesBiomechanical Cell Regulation by High Aspect Ratio Nanoimprinted PillarsChanges in the internal organization of the cell by microstructured substrates
P2860
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P2860
Microstructured Surfaces Cause Severe but Non-Detrimental Deformation of the Cell Nucleus
description
im September 2009 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована у вересні 2009
@uk
name
Microstructured Surfaces Cause Severe but Non-Detrimental Deformation of the Cell Nucleus
@en
Microstructured Surfaces Cause Severe but Non-Detrimental Deformation of the Cell Nucleus
@nl
type
label
Microstructured Surfaces Cause Severe but Non-Detrimental Deformation of the Cell Nucleus
@en
Microstructured Surfaces Cause Severe but Non-Detrimental Deformation of the Cell Nucleus
@nl
prefLabel
Microstructured Surfaces Cause Severe but Non-Detrimental Deformation of the Cell Nucleus
@en
Microstructured Surfaces Cause Severe but Non-Detrimental Deformation of the Cell Nucleus
@nl
P2093
P356
P1433
P1476
Microstructured Surfaces Cause Severe but Non-Detrimental Deformation of the Cell Nucleus
@en
P2093
Hayriye Özçelik
Patricia M. Davidson
Vasif Hasirci
P304
P356
10.1002/ADMA.200900582
P407
P577
2009-09-18T00:00:00Z