Hybrid printing of mechanically and biologically improved constructs for cartilage tissue engineering applications

Biofabrication

Volumn 5, Issue 1, 2013, Pages

  Xu, Tao ^a   Binder, Kyle W ^a   Albanna, Mohammad Z ^a   Dice, Dennis ^a   Zhao, Weixin ^a   Yoo, James J ^a   Atala, Anthony ^a  

^a WAKE FOREST SCHOOL OF MEDICINE   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

ADVANCED FABRICATION; BIOLOGICAL PROPERTIES; BIOPRINTING; CARTILAGE TISSUE ENGINEERING; CARTILAGE-LIKE TISSUES; CHONDROCYTES; CONTROLLED ARCHITECTURE; DEPOSITION SYSTEMS; GLYCOSAMINOGLYCANS; HIGH COSTS; HYBRID CONSTRUCTS; HYBRID PRINTING; HYBRID SCAFFOLDS; IN-VITRO; IN-VIVO; INKJET PRINTING SYSTEM; LAYER-BY-LAYERS; LOAD-BEARING TISSUES; NATURAL MATERIALS; OFF-THE-SHELF COMPONENTS; POLYCAPROLACTONE FIBERS; ROBOTIC SYSTEMS; SYNTHETIC POLYMERS; TISSUE CONSTRUCTS; TYPE II COLLAGENS;

APPLICATIONS; AUTOMOBILE MANUFACTURE; BODY FLUIDS; CARTILAGE; COLLAGEN; DEPOSITION; ELECTROSPINNING; FABRICATION; HISTOLOGY; HYDROGELS; NATURAL POLYMERS; PRINTING; STRENGTH OF MATERIALS; THREE DIMENSIONAL COMPUTER GRAPHICS; TISSUE; TISSUE ENGINEERING;

BIOMECHANICS;

BIOTECHNOLOGY; CELLS; COLLAGEN; HISTOLOGY; INK JET PRINTING; MECHANICAL PROPERTIES; ROBOTS; SYNTHETIC POLYMERS; THREE DIMENSIONAL DESIGN; TISSUE CULTURE;

ORYCTOLAGUS CUNICULUS;

BIOMATERIAL; POLYMER; TISSUE SCAFFOLD;

ANIMAL; ARTICLE; BIOMECHANICS; BIOPRINTING; CARTILAGE; CARTILAGE CELL; CELL PROLIFERATION; CHEMISTRY; CYTOLOGY; EQUIPMENT; EVALUATION; GROWTH, DEVELOPMENT AND AGING; HYDROGEL; METHODOLOGY; RABBIT; TISSUE ENGINEERING;

ANIMALS; BIOCOMPATIBLE MATERIALS; BIOMECHANICS; BIOPRINTING; CARTILAGE; CELL PROLIFERATION; CHONDROCYTES; HYDROGEL; POLYMERS; RABBITS; TISSUE ENGINEERING; TISSUE SCAFFOLDS;

MLCS; MLOWN;

EID: 84870316597     PISSN: 17585082     EISSN: 17585090     Source Type: Journal    
DOI: 10.1088/1758-5082/5/1/015001     Document Type: Article

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