Three-dimensional aqueous-derived biomaterial scaffolds from silk fibroin

Biomaterials

Volumn 26, Issue 15, 2005, Pages 2775-2785

  Kim, Ung Jin ^a,b   Park, Jaehyung ^a,b   Joo Kim, Hyeon ^a,b   Wada, Masahisa ^c   Kaplan, David L ^a,b  

^a Tufts University   (United States)

^b TUFTS UNIVERSITY   (United States)

^c UNIVERSITY OF TOKYO   (Japan)

Author keywords

Biodegradation; Biomaterial; Fibroin; Salt leaching; Scaffold; Silk

Indexed keywords

BIOMATERIAL MATRICES; BIOMATERIAL SCAFFOLDS; PROTEASES;

COMPRESSIVE STRENGTH; DEGRADATION; MORPHOLOGY; ORGANIC SOLVENTS; PORE SIZE; SCAFFOLDS; SILK;

BIOMATERIALS;

BIOMATERIAL; FIBROIN; ORGANIC SOLVENT; PROTEINASE; SODIUM CHLORIDE; WATER;

AQUEOUS SOLUTION; ARTICLE; BIODEGRADABILITY; CHEMICAL ENVIRONMENT; CHEMICAL INTERACTION; CHEMICAL STRUCTURE; DERIVATIZATION; ENZYME DEGRADATION; EXPOSURE; EXTRACELLULAR MATRIX; HYDROLYSIS; HYDROPHOBICITY; MORPHOLOGY; PARTICLE SIZE; POROSITY; PRIORITY JOURNAL; PROTEIN DEGRADATION; SILK;

ABSORBABLE IMPLANTS; BIOCOMPATIBLE MATERIALS; CELL CULTURE TECHNIQUES; COMPRESSIVE STRENGTH; FIBROINS; MATERIALS TESTING; MULTIPROTEIN COMPLEXES; PARTICLE SIZE; PEPTIDE HYDROLASES; POROSITY; PROTEIN CONFORMATION; TISSUE ENGINEERING; WATER;

ANATOMY; COMPRESSION STRENGTH; DEGRADATION; PORE SIZE; SILK;

EID: 10044274310     PISSN: 01429612     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.biomaterials.2004.07.044     Document Type: Article

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