RT Journal Article
T1 In vitro evaluation of combined laser processing on Ti6Al4V discs: 												Macrostructuring and pulsed laser deposition
A1 Paz, M. D.
A1 Chiussi, S.
A1 González, P.
A1 Serra, J.
A1 León, B.
A1 Goikoetxea, L.
A1 Alava, J. I.
AB Human fetal osteoblast (hFOB) cell adhesion and cell proliferation studies have been performed on laser macrostructured titanium alloy substrates with and without pulsed laser deposited thin calcium phosphate coating. Coating was only 100 nm thick. The combined laser processing approach for modification of titanium alloy surfaces has yielded improved cell adhesion and proliferation of cells. Alkaline phosphatase activity was very significantly higher in the coated samples suggesting a intense stimuli of early osteoblast differentiation that should lead to improve bone growth on these surfaces.
SN 1013-9826
YR 2008
FD 2008
LK https://hdl.handle.net/11556/3596
UL https://hdl.handle.net/11556/3596
LA eng
NO Paz , M D , Chiussi , S , González , P , Serra , J , León , B , Goikoetxea , L & Alava , J I 2008 , ' In vitro evaluation of combined laser processing on Ti6Al4V discs : Macrostructuring and pulsed laser deposition ' , Key Engineering Materials , vol. 361-363 I , pp. 625-628 .
DS TECNALIA Publications
RD 30 jul 2024