In vitro 3D Full-Thickness Skin-Equivalent Tissue Model Using Silk and Collagen Biomaterials

Macromolecular Bioscience

Volumn 12, Issue 12, 2012, Pages 1627-1636

  Bellas, Evangelia ^a   Seiberg, Miri ^b   Garlick, Jonathan ^c   Kaplan, David L ^a  

^a Tufts University   (United States)

^b JOHNSON AND JOHNSON   (United States)

^c TUFTS UNIVERSITY   (United States)

Author keywords

Bioengineering; Biomaterials; Biopolymers; Proteins; Tissue engineering

Indexed keywords

FUNCTIONAL MODEL; IN-VITRO; SKIN EQUIVALENTS; TISSUE MODELS;

BIOMATERIALS; BIOPOLYMERS; CONSUMER PRODUCTS; GLYCEROL; PROTEINS; SYSTEMS SCIENCE; TISSUE; TISSUE ENGINEERING;

COLLAGEN;

COLLAGEN; COLLAGEN TYPE 1; COLLAGEN TYPE 4; CYTOKERATIN 10; ELASTIN; FATTY ACID BINDING PROTEIN 4; FATTY ACID SYNTHASE; GLUCOSE TRANSPORTER 4; GLYCEROL; LEPTIN; SILK;

ADIPOSE DERIVED STEM CELL; ARTICLE; BOMBYX MORI; CELL PROLIFERATION; DERMIS; EPIDERMIS; FULL THICKNESS SKIN GRAFT; GENE EXPRESSION; HUMAN; HUMAN CELL; HUMAN TISSUE; IN VITRO STUDY; KERATINOCYTE; NONHUMAN; PROTEIN EXPRESSION; TISSUE ENGINEERING;

ADIPOSE TISSUE; ANIMAL TESTING ALTERNATIVES; COLLAGEN; DNA PRIMERS; ENZYME-LINKED IMMUNOSORBENT ASSAY; FIBROBLASTS; GENE EXPRESSION PROFILING; HISTOLOGICAL TECHNIQUES; HUMANS; IMMUNOHISTOCHEMISTRY; KERATINOCYTES; REAL-TIME POLYMERASE CHAIN REACTION; REVERSE TRANSCRIPTASE POLYMERASE CHAIN REACTION; SILK; SKIN; STEM CELLS; TISSUE CULTURE TECHNIQUES; TISSUE ENGINEERING;

EID: 84872418188     PISSN: 16165187     EISSN: 16165195     Source Type: Journal    
DOI: 10.1002/mabi.201200262     Document Type: Article

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