A bio-inspired, microchanneled hydrogel with controlled spacing of cell adhesion ligands regulates 3D spatial organization of cells andtissue

Biomaterials

Volumn 58, Issue , 2015, Pages 26-34

  Lee, Min Kyung ^a   Rich, Max H ^a   Lee, Jonghwi ^b   Kong, Hyunjoon ^a,c  

^a UNIVERSITY OF ILLINOIS AT URBANA CHAMPAIGN   (United States)

^b Chung Ang University   (South Korea)

^c Soongsil University   (South Korea)

Author keywords

Bimodal hydrogels; Bio inspired; Differentiation; Glial cells; Microchannels; Neuron; RGD peptides; Stem cells; Uniaxial freeze drying

Indexed keywords

ALGINATE; BIOMIMETICS; BLOOD VESSELS; BONE; CELL ADHESION; CELL CULTURE; DIFFERENTIATION (CALCULUS); HYDROGELS; LOW TEMPERATURE DRYING; MICROCHANNELS; NEURONS; PEPTIDES; STEM CELLS; TISSUE;

BIO-INSPIRED; BONE MARROW STROMAL CELLS; CELL ADHESION PEPTIDES; FREEZE DRYING; GLIAL CELLS; RGD PEPTIDE; SPATIAL ORGANIZATION; VASCULAR ENDOTHELIAL GROWTH FACTOR;

CELL ENGINEERING;

ALGINIC ACID; ARGINYLGLYCYLASPARTIC ACID; LIGAND; VASCULOTROPIN; ARGINYL-GLYCYL-ASPARTIC ACID; BIOMATERIAL; HYDROGEL; MICROSPHERE; OLIGOPEPTIDE; VASCULOTROPIN A;

ANGIOGENESIS ASSAY; ARTICLE; BONE MARROW STROMA CELL; CALCIUM CELL LEVEL; CELL ADHESION; CELL FUNCTION; CHORIOALLANTOIS; FREEZE DRYING; GLIA CELL; HUMAN; HUMAN CELL; HYDROGEL; IN VIVO STUDY; NERVE CELL; NERVOUS TISSUE; PRIORITY JOURNAL; SPATIAL ANALYSIS; STRUCTURE ANALYSIS; VASCULAR TISSUE; YOUNG MODULUS; 3T3 CELL LINE; ANIMAL; ANISOTROPY; BIOMIMETICS; BONE MARROW CELL; CELL CULTURE TECHNIQUE; CHEMISTRY; CHICK EMBRYO; CYTOLOGY; MATERIALS TESTING; MECHANICAL STRESS; MESENCHYMAL STROMA CELL; METABOLISM; MOUSE; PROCEDURES; TISSUE ENGINEERING;

ANIMALS; ANISOTROPY; BIOCOMPATIBLE MATERIALS; BIOMIMETICS; BONE MARROW CELLS; CELL ADHESION; CELL CULTURE TECHNIQUES; CHICK EMBRYO; CHORIOALLANTOIC MEMBRANE; HUMANS; HYDROGELS; LIGANDS; MATERIALS TESTING; MESENCHYMAL STROMAL CELLS; MICE; MICROSPHERES; NIH 3T3 CELLS; OLIGOPEPTIDES; STRESS, MECHANICAL; TISSUE ENGINEERING; VASCULAR ENDOTHELIAL GROWTH FACTOR A;

EID: 84929256909     PISSN: 01429612     EISSN: 18785905     Source Type: Journal    
DOI: 10.1016/j.biomaterials.2015.04.014     Document Type: Article

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