2008
DOI: 10.1016/j.dental.2007.06.003
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Zirconium oxide coating improves implant osseointegration in vivo

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Cited by 175 publications
(120 citation statements)
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“…The first generation is called inert ceramics, which aimed to substitute natural bone. For example, zirconia [49][50][51][52], titanium [53][54][55] and alumina [56][57][58] are primarily used in fabrication of femoral heads to substitute the damaged bones [59]. Although these ceramics are biocompatible, the living body usually reacts against the implants because they are foreign, and these implants themselves are likely to never transform into bone.…”
Section: Evolution Of Bioceramics In Hard Tissue Engineeringmentioning
confidence: 99%
“…The first generation is called inert ceramics, which aimed to substitute natural bone. For example, zirconia [49][50][51][52], titanium [53][54][55] and alumina [56][57][58] are primarily used in fabrication of femoral heads to substitute the damaged bones [59]. Although these ceramics are biocompatible, the living body usually reacts against the implants because they are foreign, and these implants themselves are likely to never transform into bone.…”
Section: Evolution Of Bioceramics In Hard Tissue Engineeringmentioning
confidence: 99%
“…ZrO 2 coatings and films for biomedical application have also attracted much attention. It was reported that ZrO 2 films fabricated by micro arc oxidation [19] and plasma spraying [20] were bioactive in vitro, and ZrO 2 coating prepared by dip coating in colloidal suspension can improve dental implant osteointegration in vivo in rabbits [21].…”
Section: Introductionmentioning
confidence: 99%
“…9,18,19 Moreover, when the surface treatment increased bone-implant contact, the likelihood of osseointegration increased. 11 However, the high pullout resistance of implants with treated surfaces compared with those having machined surfaces suggests that the surface influences initial stability even when osseointegration does not occur.…”
Section: Discussionmentioning
confidence: 99%
“…Currently, the dental implant is an object of study by several researchers [7][8][9][10][11] whose goals are to develop design innovations and application techniques to optimize the implant's physical-chemical and mechanical properties. 7 One current area of research involves the treatment of implant surfaces for osseointegration stimulation due to a chemical or micromorphological alteration of the implant 9 that can facilitate early inDeclaration of Interests: The authors certify that they have no commercial or associative interest that represents a conflict of interest in connection with the manuscript.…”
Section: Introductionmentioning
confidence: 99%