3D printing of HEK 293FT cell-laden hydrogel into macroporous constructs with high cell viability and normal biological functions

Biofabrication

Volumn 7, Issue 1, 2015, Pages

  Ouyang, Liliang ^a,b   Yao, Rui ^a,b   Chen, Xi ^c   Na, Jie ^c   Sun, Wei ^a,b,d  

^a TSINGHUA UNIVERSITY   (China)

^b Biomanufacturing and Rapid Forming Technology Key Laboratory of Beijing   (China)

^c Tsinghua University   (China)

^d Drexel University   (United States)

Author keywords

cell viability; HEK293FT; signal transduction; three dimensional printing; Wnt

Indexed keywords

BIOLOGICAL MATERIALS; BIOLOGICAL SYSTEMS; BIOMATERIALS; BIOSYNTHESIS; CELL CULTURE; CELLS; CYTOLOGY; HISTOLOGY; MOBILE SECURITY; PRINTING; SIGNAL TRANSDUCTION; SYNTHESIS (CHEMICAL); TISSUE;

BIOLOGICAL FUNCTIONS; CELL VIABILITY; CELL-CELL INTERACTION; HEK293FT; HUMAN EMBRYONIC KIDNEYS; THREE-DIMENSIONAL PRINTING; TISSUE ENGINEERED CONSTRUCTS; WNT;

3D PRINTERS;

HYDROGEL; WNT PROTEIN;

CELL AGGREGATION; CELL SHAPE; CELL SURVIVAL; CHEMISTRY; CULTURE TECHNIQUE; DRUG EFFECTS; HEK293 CELL LINE; HUMAN; HYDROGEL; METABOLISM; PHARMACOLOGY; POROSITY; PROTEIN SYNTHESIS; REPORTER GENE; THREE DIMENSIONAL PRINTING; TISSUE SCAFFOLD;

CELL AGGREGATION; CELL CULTURE TECHNIQUES; CELL SHAPE; CELL SURVIVAL; GENES, REPORTER; HEK293 CELLS; HUMANS; HYDROGEL; POROSITY; PRINTING, THREE-DIMENSIONAL; PROTEIN BIOSYNTHESIS; TISSUE SCAFFOLDS; WNT PROTEINS;

EID: 84924301781     PISSN: 17585082     EISSN: 17585090     Source Type: Journal    
DOI: 10.1088/1758-5090/7/1/015010     Document Type: Article

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