2013
DOI: 10.1002/jbm.b.33013
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Bonding between oxide ceramics and adhesive cement systems: A systematic review

Abstract: The following aims were set for this systematic literature review: (a) to make an inventory of existing methods to achieve bondable surfaces on oxide ceramics and (b) to evaluate which methods might provide sufficient bond strength. Current literature of in vitro studies regarding bond strength achieved using different surface treatments on oxide ceramics in combination with adhesive cement systems was selected from PubMed and systematically analyzed and completed with reference tracking. The total number of p… Show more

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Cited by 165 publications
(218 citation statements)
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References 179 publications
(815 reference statements)
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“…27,28,40 In the present study, the combination of mechanical surface treatment (APA with Al 2 O 3 ) and chemical surface treatment by primer (MDP-based primer and cement) increased the bond strength. These results are in accordance with studies that stated that the combination of air abrasion and resin cement containing MDP monomer increases the bond strength to zirconia, 29,30,41,42 this could be explained by the increase in surface Ra, that subsequently increase the surface area of bonding, and improving wettability, in addition to the phosphate monomer that reacts with oxides on the zirconia surface and increases bond strength. 25,43 The highest SBS value was for group II that was abraded after sintering, this may be due to the surface roughness created as a result of APA after sintering that was not affected by sintering temperature, whereas in other groups that were abraded before sintering, the created surface roughness which is the imprint of abraded particles shape was changed and lost a part of its surface roughness characteristics during the sintering process.…”
Section: Discussionsupporting
confidence: 92%
“…27,28,40 In the present study, the combination of mechanical surface treatment (APA with Al 2 O 3 ) and chemical surface treatment by primer (MDP-based primer and cement) increased the bond strength. These results are in accordance with studies that stated that the combination of air abrasion and resin cement containing MDP monomer increases the bond strength to zirconia, 29,30,41,42 this could be explained by the increase in surface Ra, that subsequently increase the surface area of bonding, and improving wettability, in addition to the phosphate monomer that reacts with oxides on the zirconia surface and increases bond strength. 25,43 The highest SBS value was for group II that was abraded after sintering, this may be due to the surface roughness created as a result of APA after sintering that was not affected by sintering temperature, whereas in other groups that were abraded before sintering, the created surface roughness which is the imprint of abraded particles shape was changed and lost a part of its surface roughness characteristics during the sintering process.…”
Section: Discussionsupporting
confidence: 92%
“…The definitive clinically durable bond strength between a resin cement and zirconia remains unknown (25). However, 20 MPa has been widely considered clinically sufficient for durable resin-zirconia adhesion (38). The mean bond strength values were 9 MPa for the control group and 17.8-20.21 MPa for the groups in which a universal adhesive was applied prior to resin cement application.…”
Section: Discussionmentioning
confidence: 99%
“…As expected, the untreated zirconia surfaces, which were not subjected to any surface preparation technique exhibited the lowest SBS among the study groups. The luting agent used in this study (Clearfil SA) is a dual cured resin cement containing F Ahrari et al 1,3,26) . Air-borne particle abrasion, also defined as sandblasting, is usually performed by aluminum oxide particles and is one of the most commonly used mechanical methods for surface preparation of zirconia copings 3) .…”
Section: Discussionmentioning
confidence: 99%
“…These techniques are mainly aimed to roughen the cementation surface of the ceramic, which leads to increased surface area and micromechanical interlocking, thereby improving the bond strength. Furthermore, the use of resin cements or primers containing 10-methacryloxydecyl dihydrogen phosphate (MDP) has been shown to enhance the strength of the adhesion by providing chemical retention to zirconia, although the durability of the chemical bond may be compromised in the clinical conditions [1][2][3] . Lasers have been used for different purposes in dentistry among which is conditioning tooth structure or restorative surfaces [4][5][6][7][8][9] .…”
Section: Introductionmentioning
confidence: 99%