Submicron poly(L-lactic acid) pillars affect fibroblast adhesion and proliferation.
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The Regulation of Cellular Responses to Mechanical Cues by Rho GTPasesAdult Stem Cell Responses to NanostimuliProteins, platelets, and blood coagulation at biomaterial interfacesUsing biomaterials to study stem cell mechanotransduction, growth and differentiationThe effect of tendon surface treatment on cell attachment for potential enhancement of tendon graft healing: an ex vivo modelNanotopographical modification: a regulator of cellular function through focal adhesions.Cell behaviour on a polyaniline nanoprotrusion structure surfaceLarge-Scale Nanoelectrode Arrays to Monitor the Dopaminergic Differentiation of Human Neural Stem CellsFibroblast response is enhanced by poly(L-lactic acid) nanotopography edge density and proximityPhysical approaches to biomaterial design.Combining topographical and genetic cues to promote neuronal fate specification in stem cells.Determinants of cell-material crosstalk at the interface: towards engineering of cell instructive materials.Surface chemical and physical modification in stent technology for the treatment of coronary artery disease.Nanoscale patterning of biopolymers for functional biosurfaces and controlled drug release.Contractility-dependent modulation of cell proliferation and adhesion by microscale topographical cues.Selective modulation of cell response on engineered fractal silicon substrates.Micropatterned surfaces with controlled ligand tethering.Geometry sensing by dendritic cells dictates spatial organization and PGE(2)-induced dissolution of podosomes.Three-dimensional culture with stiff microstructures increases proliferation and slows osteogenic differentiation of human mesenchymal stem cells.Design and characterization of a biodegradable composite scaffold for ligament tissue engineering.Fibroblast extracellular matrix and adhesion on microtextured polydimethylsiloxane scaffolds.Bioinspired superhydrophobic poly(L-lactic acid) surfaces control bone marrow derived cells adhesion and proliferation.Nanotopography-based strategy for the precise manipulation of osteoimmunomodulation in bone regeneration.Variation of the bone forming ability with the physicochemical properties of calcium phosphate bone substitutes.Modulation of collective cell behaviour by geometrical constraints.Polymer Patterns and Scaffolds for Biomedical Applications and Tissue Engineering
P2860
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P2860
Submicron poly(L-lactic acid) pillars affect fibroblast adhesion and proliferation.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Submicron poly(L-lactic acid) pillars affect fibroblast adhesion and proliferation.
@en
type
label
Submicron poly(L-lactic acid) pillars affect fibroblast adhesion and proliferation.
@en
prefLabel
Submicron poly(L-lactic acid) pillars affect fibroblast adhesion and proliferation.
@en
P2860
P356
P1476
Submicron poly(L-lactic acid) pillars affect fibroblast adhesion and proliferation.
@en
P2093
Christopher A Siedlecki
Keith R Milner
P2860
P356
10.1002/JBM.A.31049
P577
2007-07-01T00:00:00Z