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Volumn 21, Issue 6-7, 2010, Pages 843-862
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Development of biodegradable polyurethane scaffolds using amino acid and dipeptide-based chain extenders for soft tissue engineering
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Author keywords
Biodegradable polyurethane; Biomaterial; Cell responsive; Elastomeric; Electrospinning; Matrix metalloproteinase; Scaffold; Soft tissue engineering
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Indexed keywords
AMINO ACIDS;
BIOMATERIALS;
BIOMECHANICS;
CELL CULTURE;
CELL ENGINEERING;
ELECTROSPINNING;
GLASS TRANSITION;
HYDROGEN BONDS;
PEPTIDES;
POLYMER FILMS;
POLYURETHANES;
SCAFFOLDS;
TENSILE STRENGTH;
TENSILE TESTING;
TISSUE;
YIELD STRESS;
BIODEGRADABLE POLYURETHANES;
ELASTOMERIC;
MATRIX METALLOPROTEINASES;
MOUSE EMBRYONIC FIBROBLASTS;
SOFT TISSUE ENGINEERING;
SYNTHESIS AND CHARACTERIZATIONS;
ULTIMATE TENSILE STRENGTH;
WEIGHT-AVERAGE MOLECULAR WEIGHT;
SCAFFOLDS (BIOLOGY);
GLYCYLLEUCINE;
POLYSTYRENE;
POLYURETHAN;
TISSUE SCAFFOLD;
AMINO ACID COMPOSITION;
ANIMAL CELL;
ARTICLE;
BIODEGRADABLE IMPLANT;
CELL VIABILITY;
CHEMICAL REACTION;
CONTROLLED STUDY;
HYDROGEN BOND;
IMMUNOHISTOCHEMISTRY;
MOLECULAR WEIGHT;
MOUSE;
NONHUMAN;
PRIORITY JOURNAL;
PROTEIN CLEAVAGE;
PURIFICATION;
SYNTHESIS;
TENSILE STRENGTH;
TISSUE ENGINEERING;
TRANSITION TEMPERATURE;
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EID: 77952146806
PISSN: 09205063
EISSN: 15685624
Source Type: Journal
DOI: 10.1163/156856209X446743 Document Type: Article |
Times cited : (31)
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References (30)
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