Zirconium oxide nanotube surface prompts increased osteoblast functionality and mineralization

Materials Science and Engineering C

Volumn 31, Issue 8, 2011, Pages 1716-1722

  Frandsen, Christine J ^a   Brammer, Karla S ^a   Noh, Kunbae ^a   Connelly, Laura S ^a   Oh, Seunghan ^a   Chen, Li Han ^a   Jin, Sungho ^a  

^a UNIVERSITY OF CALIFORNIA   (United States)

Author keywords

Alkaline phosphatase activity; Cell adhesion; Matrix mineralization; Osteoblast; ZrO2 nanotubes

Indexed keywords

ALKALINE PHOSPHATASE ACTIVITY; ANODIZATIONS; BONE GROWTH; CALCIFIED EXTRACELLULAR MATRIX; CELLULAR RESPONSE; CYTOSKELETONS; ELECTROCHEMICAL FORMATION; IN-VITRO; MATRIX MINERALIZATION; METALLIC SURFACE; NANOSCALE OXIDES; NANOTUBE SURFACE; OSTEOBLAST RESPONSE; VERTICALLY ALIGNED; ZRO2 NANOTUBES;

ADHESION; BIOLOGICAL MATERIALS; CELL ADHESION; METALLIC COMPOUNDS; MINERALOGY; MORPHOLOGY; OSTEOBLASTS; OXIDES; PHOSPHATASES; PROTEINS; ZIRCONIA; ZIRCONIUM; ZIRCONIUM ALLOYS;

NANOTUBES;

EID: 80054694112     PISSN: 09284931     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.msec.2011.07.016     Document Type: Article

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