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Cavalcante, Larissa Maria
in Cooperation with on an Cooperation-Score of 37%
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Publications (6/6 displayed)
- 2023Luting laminate veneers: do resin-composites produce less polymerization stress than resin cements?citations
- 2018Physical and chemical properties of model composites containing quaternary ammonium methacrylatescitations
- 2013The influence of nanoscale inorganic content over optical and surface properties of model compositescitations
- 2011Surface integrity of solvent-challenged ormocer-matrix compositecitations
- 2011Degradation resistance of silorane, experimental ormocer and dimethacrylate resin-based dental composites.citations
- 2009Influence of different exposure times required to stabilize hardness values of composite resin restorations
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article
Luting laminate veneers: do resin-composites produce less polymerization stress than resin cements?
Abstract
<b>Objectives:</b> Regular composites could produce less polymerization stress than resin cements when luting laminate veneers but there is no proper evidence to support this theory. The current study aimed to determine the degree of conversion, volumetric shrinkage, polymerization stress and the resultant elastic moduli of materials currently used for adhesive cementation and to determine possible correlations.<br/><br/><b>Methods: </b>The study considered (i) regular resin composites (Admira Fusion, Gradia, Grandioso, Palfique, Sirius Z, Viscalor and Z100) at room and pre-warmed (PW) at 69ºC, (ii) flowable composites (Sigma Flow and Grandioso Flow); (iii) solely light-activated cements (AllCem Veneer, Variolink Esthetic and RelyX Veneer); and (iv) one dual-activated resin cement (SpeedCEM). Degree of conversion (DC, n=3) was accessed with FTIR 1h after irradiation. Bonded-disk and Bioman II<br/>instruments were used to access polymerization shrinkage strain and shrinkage stress, respectively, for 60 min at 23 ± 1◦C (n=3). The elastic modulus was determined by 3-point bending flexural test (n=6). The results were submitted to analyses of variance, Tukey’s, and correlation tests. <br/><br/><b>Results:</b> For regular composites, the pre-warming did not affect DC, shrinkage and modulus but significantly increased the stress magnitude. Correlation tests indicated a significant relationship only between stress and polymerization shrinkage (<i>r</i>=0.811343). <br/><br/><b>Significance:</b> Regular composites can produce less polymerization stress than resin cements when luting laminate veneers. Polymerization stress was dependent on the shrinkage magnitude, but not on the degree of conversion nor the elastic modulus. <br/>