Synthesis and 3D Printing of biodegradable polyurethane elastomer by a water-based process for cartilage tissue engineering applications

Advanced Healthcare Materials

Volumn 3, Issue 10, 2014, Pages 1578-1587

  Hung, Kun Che ^a   Tseng, Ching Shiow ^b   Hsu, Shan Hui ^a  

^a NATIONAL TAIWAN UNIVERSITY   (Taiwan)

^b NATIONAL CENTRAL UNIVERSITY   (Taiwan)

Author keywords

3D printing; Biodegradable polyurethane; Elasticity; Green process; Scaffold

Indexed keywords

BIOMECHANICS; CARTILAGE; DEGRADATION; DISPERSIONS; ELASTICITY; FABRICATION; MEDICAL APPLICATIONS; MORPHOLOGY; NANOPARTICLES; ORGANIC SOLVENTS; POLYETHYLENE OXIDES; POLYURETHANES; SCAFFOLDS; SCAFFOLDS (BIOLOGY); SURFACE MORPHOLOGY; SYNTHESIS (CHEMICAL); TISSUE;

3-D PRINTING; BIODEGRA-DABLE MATERIALS; BIODEGRADABLE POLYURETHANES; CARTILAGE TISSUE ENGINEERING; GREEN PROCESS; POLY LACTIC-CO-GLYCOLIC ACID; POLYETHYLENE OXIDE (PEO); TISSUE ENGINEERING SCAFFOLD;

3D PRINTERS;

ELASTOMER; MACROGOL; NANOPARTICLE; ORGANIC SOLVENT; POLYGLACTIN; POLYURETHAN; WATER; BIODEGRADABLE PLASTIC;

ARTICLE; BIODEGRADABILITY; CARTILAGE; CARTILAGE CELL; CELL PROLIFERATION; DEGRADATION KINETICS; PRIORITY JOURNAL; PROCESS DEVELOPMENT; SURFACE PROPERTY; SYNTHESIS; THREE DIMENSIONAL PRINTING; TISSUE ENGINEERING; VISCOSITY; ANIMAL; BIOPRINTING; CELL LINE; CHEMISTRY; CYTOLOGY; DEVICES; METABOLISM; PHYSIOLOGY; PROCEDURES; RAT; TISSUE SCAFFOLD;

ANIMALS; BIODEGRADABLE PLASTICS; BIOPRINTING; CARTILAGE; CELL LINE; CELL PROLIFERATION; CHONDROCYTES; POLYURETHANES; RATS; TISSUE ENGINEERING; TISSUE SCAFFOLDS;

EID: 84919343292     PISSN: 21922640     EISSN: 21922659     Source Type: Journal    
DOI: 10.1002/adhm.201400018     Document Type: Article

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