INEB
INEB
TitleOsteoblast proliferation and morphology analysis on laser modified hydroxyapatite surfaces: Preliminary results
Publication TypeBook
Year of Publication2006
AuthorsTeixeira, S, Queiroz, AC, Monteiro, FJ, Ferraz, MP, Vilar, R, Eugénio, S
Series TitleKey Engineering MaterialsKey Eng Mat
Volume309-311 I
Number of Pages105 - 108
ISBN Number10139826 (ISSN)
KeywordsBone, cell adhesion, Cells, Ceramic materials, Excimer laser, Excimer lasers, hydroxyapatite, Microtexture, Microtopography, morphology, Strength of materials, Surface modification, Surface topography, Surface treatment
AbstractBiocompatibility has long been associated with surface microtopography, microtexture and microchemistry. The surface topography ultimately affects the nature and the strength of the interactions that occur at biomaterial-biological environment (cell adhesion, mobility, spreading and proliferation). Thus, it is necessary to produce and work with controlled microtopographical surfaces that present reproducible microdomains of a dimension similar to that of the biological elements of interest (for instance, cells). [1] There are a number of substrates that already have been studied (such as silicone, polystyrene, poly-L-lactic acid and titanium coated polystyrene) in terms of surface topography. [2] However, few studies are related to hydroxyapatite substrates. As it is well established, hydroxyapatite is a well known ceramic that is extremely used in medical applications, namely implants and coatings. In this work, the surface topography of dense hydroxyapatite substrates was altered by using KFr excimer laser. Excimer lasers produce high-intensity, pulsed ultraviolet radiation and are especially well suited for materials processing due to their large beam cross-section area, which permits using mask projection technologies to process relatively large areas in a single step.[3].
URLhttp://www.scopus.com/inward/record.url?eid=2-s2.0-33645413875&partnerID=40&md5=0234521c5cb850a0ff51ca4c64c39074