Microporous biodegradable polyurethane membranes for tissue engineering

Journal of Materials Science: Materials in Medicine

Volumn 20, Issue 8, 2009, Pages 1729-1741

  Tsui, Yuen Kee ^a   Gogolewski, Sylwester ^b  

^a UNIVERSITY OF HONG KONG   (Hong Kong)

^b UNIVERSITY OF ZIELONA GÓRA   (Poland)

Author keywords

[No Author keywords available]

Indexed keywords

ALIPHATIC DIISOCYANATE; ARTICULAR CARTILAGE DEFECTS; BIODEGRADABLE POLYURETHANES; CAPROLACTONE; CHAIN EXTENDERS; CHONDROCYTES; DIMETHYLSULFOXIDE; EXPERIMENTAL SYSTEM; INTERCONNECTED PORES; ISOSORBIDE; MEMBRANE FORMATION; MICRO POROUS MEMBRANES; MICROPOROUS; N ,N-DIMETHYLACETAMIDE; N ,N-DIMETHYLFORMAMIDE; NON-SOLVENTS; OPTIMAL CONDITIONS; PHASE INVERSION; POLYMER CONCENTRATIONS; POLYURETHANE MEMBRANES; POTENTIAL APPLICATIONS; SOLIDIFICATION TIME; THREE SYSTEMS; WATER PERMEABILITY;

CARTILAGE; CRYSTALLIZATION; DIMETHYLFORMAMIDE; MECHANICAL PERMEABILITY; MECHANICAL PROPERTIES; MEMBRANES; MICROPOROSITY; POLYMER SOLUTIONS; PORE SIZE; SOLIDIFICATION; TISSUE ENGINEERING;

POLYMERS;

DIMETHYL SULFOXIDE; N,N DIMETHYLACETAMIDE; N,N DIMETHYLFORMAMIDE; POLYURETHAN; WATER;

ARTICLE; PRIORITY JOURNAL; SCANNING ELECTRON MICROSCOPY; TEMPERATURE MEASUREMENT; THERMAL ANALYSIS; THICKNESS; TISSUE ENGINEERING; WATER PERMEABILITY;

ABSORBABLE IMPLANTS; CELL MEMBRANE PERMEABILITY; MATERIALS TESTING; MEMBRANES, ARTIFICIAL; MODELS, BIOLOGICAL; OSMOLAR CONCENTRATION; PHASE TRANSITION; POLYMERS; POLYURETHANES; POROSITY; SOLVENTS; TENSILE STRENGTH; THERMODYNAMICS; TIME FACTORS; TISSUE ENGINEERING;

EID: 68149163188     PISSN: 09574530     EISSN: None     Source Type: Journal    
DOI: 10.1007/s10856-009-3722-4     Document Type: Article

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