Modular poly(ethylene glycol) scaffolds provide the ability to decouple the effects of stiffness and protein concentration on PC12 cells

Acta Biomaterialia

Volumn 7, Issue 11, 2011, Pages 3841-3849

  Scott, Rebecca A ^a   Elbert, Donald L ^b   Willits, Rebecca Kuntz ^a  

^a Saint Louis University   (United States)

^b WASHINGTON UNIVERSITY IN ST LOUIS   (United States)

Author keywords

Collagen; Hydrogel; Microgel; Modular scaffold; Poly(ethylene glycol)

Indexed keywords

BIOMECHANICS; BLOCK COPOLYMERS; CHEMICAL MODIFICATION; COLLAGEN; DEFORMATION; ETHYLENE GLYCOL; GELS; HYDROGELS; MESH GENERATION; POLYOLS; SCAFFOLDS; SCAFFOLDS (BIOLOGY); STIFFNESS;

COLLAGEN I; MECHANICAL CUES; MESH SIZE; MICROGEL; MODULAR SCAFFOLD; MODULARS; PC12 CELLS; PROTEIN CONCENTRATIONS; SWELLING RATIO; THREE-DIMENSIONAL SCAFFOLDS;

POLYETHYLENE GLYCOLS;

COLLAGEN TYPE 1; MACROGOL; MOLECULAR SCAFFOLD;

ARTICLE; CELL FUNCTION; CELL STRAIN; CONTROLLED STUDY; HYDROGEL; MICROTECHNOLOGY; PARTICLE SIZE; PRIORITY JOURNAL; RIGIDITY;

EID: 80053570151     PISSN: 17427061     EISSN: 18787568     Source Type: Journal    
DOI: 10.1016/j.actbio.2011.06.054     Document Type: Article

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