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Volumn 9, Issue 1, 2013, Pages 81-89
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Microfabricated nanotopological surfaces for study of adhesion-dependent cell mechanosensitivity
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Author keywords
biomaterials; cells; mechanosensitivity; microfabrication; nanotopography
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Indexed keywords
ADHESION SIGNALING;
CELL FUNCTIONS;
CELL MORPHOLOGY;
CELLULAR RESPONSE;
CYTOSKELETAL;
CYTOSKELETONS;
EXTRACELLULAR MATRICES;
GLASS SURFACES;
HIGH SENSITIVITY;
IN-VIVO;
MECHANOSENSITIVITY;
MICROENVIRONMENTS;
MICROFABRICATED;
MICROFABRICATION METHODS;
NANO SCALE;
NANOROUGHNESS;
NANOTOPOGRAPHIES;
NOVEL METHODS;
PHYSICAL SIGNAL;
PRECISE CONTROL;
SIMPLE METHOD;
SPATIAL PATTERNING;
ADHESION;
BIOMATERIALS;
CELL CULTURE;
CELLS;
GLASS;
MACHINERY;
MICROANALYSIS;
MICROFABRICATION;
MORPHOLOGY;
NANOTECHNOLOGY;
PHOTOLITHOGRAPHY;
TISSUE ENGINEERING;
SURFACE ROUGHNESS;
BIOMATERIAL;
NANOMATERIAL;
ANIMAL;
ARTICLE;
ATOMIC FORCE MICROSCOPY;
BIOPHYSICS;
CELL ADHESION;
CELL MOTION;
CELL PROLIFERATION;
CELL STRAIN 3T3;
CHEMISTRY;
CYTOLOGY;
CYTOSKELETON;
EXTRACELLULAR MATRIX;
FIBROBLAST;
FLUORESCENCE MICROSCOPY;
METABOLISM;
METHODOLOGY;
MOUSE;
NANOTECHNOLOGY;
PHASE CONTRAST MICROSCOPY;
PHYSIOLOGY;
TISSUE ENGINEERING;
ANIMALS;
BIOCOMPATIBLE MATERIALS;
BIOPHYSICS;
CELL ADHESION;
CELL MOVEMENT;
CELL PROLIFERATION;
CYTOSKELETON;
EXTRACELLULAR MATRIX;
FIBROBLASTS;
MICE;
MICROSCOPY, ATOMIC FORCE;
MICROSCOPY, FLUORESCENCE;
MICROSCOPY, PHASE-CONTRAST;
NANOSTRUCTURES;
NANOTECHNOLOGY;
NIH 3T3 CELLS;
TISSUE ENGINEERING;
MLCS;
MLOWN;
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EID: 84872006359
PISSN: 16136810
EISSN: 16136829
Source Type: Journal
DOI: 10.1002/smll.201201098 Document Type: Article |
Times cited : (30)
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References (28)
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