Highly bioactive 8 nm hydrothermal TiO2 nanotubes elicit enhanced bone cell response

Advanced Engineering Materials

Volumn 13, Issue 3, 2011, Pages

  Brammer, Karla S ^a   Kim, Hyunsu ^a   Noh, Kunbae ^a   Loya, Mariana ^a   Frandsen, Christine J ^a   Chen, Li Han ^a   Connelly, Laura S ^a   Jin, Sungho ^a  

^a UNIVERSITY OF CALIFORNIA   (United States)

Author keywords

Alkaline phosphatase (ALP); Bone matrix; Hydrothermal process; Nanotube; Osteoblast

Indexed keywords

ALKALINE PHOSPHATASE; ALKALINE PHOSPHATASE ACTIVITY; BONE BONDING; BONE CELL GROWTH; BONE CELL RESPONSE; BONE CELLS; BONE FORMATION; BONE MATRIX; BONE-FORMING ABILITY; CHEMICAL COMPOSITIONS; HYDROTHERMAL PROCESS; INTERFACE BEHAVIOR; INTERFACE QUALITY; LARGE SURFACE AREA; MULTI-WALLED NANOTUBES; MULTIWALL NANOTUBES; NANOTUBE GEOMETRY; NANOTUBE STRUCTURE; ORTHOPEDIC IMPLANT; OSSEOINTEGRATION; OSSEOINTEGRATION PROPERTIES; OSTEOBLAST CELLS; OXIDE LAYER; PASSIVATION LAYER; RESEARCH DESIGNS; SMALL-DIAMETER; TIO; TITANIUM IMPLANTS;

ALKALINITY; BONE; CELLS; GROWTH KINETICS; HYDROLASES; PASSIVATION; PHOSPHATASES; PHOSPHORUS; TITANIUM;

NANOTUBES;

EID: 79952284283     PISSN: 14381656     EISSN: 15272648     Source Type: Journal    
DOI: 10.1002/adem.201080103     Document Type: Article

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