Effect of home-bleaching gels modified by calcium and/or fluoride and the application of nano-hydroxyapatite paste on in vitro enamel erosion susceptibility

Abstract Objective. This in vitro study compared the effect of bleaching agents modified by the addition of calcium and/or fluoride and the application of a nano-hydroxyapatite paste after bleaching, on the susceptibility of enamel to erosion. Materials and methods. Bovine enamel cylindrical samples (3 mm diameter) were assigned to six groups (n = 20 specimens/group) according to the bleaching agent: no bleaching (C-control), 7.5% hydrogen peroxide gel (HP), HP with 0.5% calcium gluconate (HP+Ca), HP with 0.2% sodium fluoride (HP+F), HP with calcium and fluoride (HP+Ca+F) and HP followed by the application of a nano-hydroxyapatite agent (HP+NanoP). The gels were applied on the enamel surface (1 h) followed by cyclic erosive challenges (Sprite Zero®-2 min), for 14 days. The paste was applied after bleaching for 5 min (HP+NanoP). The enamel surface alteration was measured by contact profilometry (µm) (after 7 and 14 days). Results. C-control (mean ± SD: 2.29 ± 0.37 at 7 days/4.86 ± 0.72 at 14 days) showed significantly lower loss compared to the experimental groups. HP+Ca (3.34 ± 0.37/6.75 ± 1.09) and HP+F (4.49 ± 0.92/7.61 ± 0.90) presented significantly lower enamel loss than HP (4.18 ± 0.50/10.30 ± 1.58) only for 14 days and HP+Ca+F (4.92 ± 1.03/8.12 ± 1.52) showed values similar to the HP+F group. The HP+NanoP (5.51 ± 1.04/9.61 ± 1.21) resulted in enamel loss similar to the HP after 14 days. Conclusions. It was found that 7.5% hydrogen peroxide increased the susceptibility of enamel to erosion. The addition of calcium or fluoride to the bleaching gel reduced the erosion effect, while the nano-hydroxyapatite agent did not provide any protective effect.

[1]  T. Caneppele,et al.  Effect of remineralizing agents on the bleaching efficacy of gels. , 2013, General dentistry.

[2]  F. D. Nascimento,et al.  Tooth Bleaching Increases Dentinal Protease Activity , 2013, Journal of dental research.

[3]  T. Caneppele,et al.  Bleaching Gels Containing Calcium and Fluoride: Effect on Enamel Erosion Susceptibility , 2012, International journal of dentistry.

[4]  I. About,et al.  Influence of in-office whitening gel pH on hydrogen peroxide diffusion through enamel and color changes in bovine teeth. , 2012, American journal of dentistry.

[5]  B. Borges,et al.  Efficacy of a novel at-home bleaching technique with carbamide peroxides modified by CPP-ACP and its effect on the microhardness of bleached enamel. , 2011, Operative dentistry.

[6]  Y. Wang,et al.  Effects of pH values of hydrogen peroxide bleaching agents on enamel surface properties. , 2011, Operative dentistry.

[7]  Yining Wang,et al.  Surface alteration of human tooth enamel subjected to acidic and neutral 30% hydrogen peroxide. , 2011, Journal of dentistry.

[8]  H. Yu,et al.  Remineralization Potential of Nano-Hydroxyapatite on Initial Enamel Lesions: An in vitro Study , 2011, Caries Research.

[9]  P. Martus,et al.  Enamel and dentine remineralization by nano-hydroxyapatite toothpastes. , 2011, Journal of dentistry.

[10]  P. E. Cardoso,et al.  Influence of five home whitening gels and a remineralizing gel on the enamel and dentin ultrastructure and hardness. , 2011, American journal of dentistry.

[11]  A. Martin,et al.  Effects of the addition of fluoride and calcium to low-concentrated carbamide peroxide agents on the enamel surface and subsurface. , 2011, Photomedicine and laser surgery.

[12]  M. Wolkewitz,et al.  Effect of carbamide peroxide and hydrogen peroxide on enamel surface: an in vitro study , 2011, Clinical Oral Investigations.

[13]  G. Eckert,et al.  Erosion and abrasion of enamel and dentin associated with at-home bleaching: an in vitro study. , 2010, Journal of the American Dental Association.

[14]  C. Torres,et al.  Influence of remineralizing gels on bleached enamel microhardness in different time intervals. , 2010, Operative dentistry.

[15]  C. Torres,et al.  Influence of potentially remineralizing agents on bleached enamel microhardness. , 2009, Operative dentistry.

[16]  H. Malmstrom,et al.  Effects of tooth whitening and orange juice on surface properties of dental enamel. , 2009, Journal of dentistry.

[17]  Haiyang Yu,et al.  Effect of nano-hydroxyapatite concentration on remineralization of initial enamel lesion in vitro , 2009, Biomedical materials.

[18]  M. Yoshinari,et al.  Influence of peroxide treatment on bovine enamel surface--cross-sectional analysis. , 2009, Dental materials journal.

[19]  D. Bartlett,et al.  The effect of casein phosphopeptide-amorphous calcium phosphate on erosive enamel and dentine wear by toothbrush abrasion. , 2009, Journal of dentistry.

[20]  M. Buzalaf,et al.  Effect of ion supplementation of a commercial soft drink on tooth enamel erosion , 2009, Food additives & contaminants. Part A, Chemistry, analysis, control, exposure & risk assessment.

[21]  Chih-Han Chang,et al.  Effect of fluoride containing bleaching agents on enamel surface properties. , 2008, Journal of dentistry.

[22]  E. Reynolds,et al.  Fluoride and Casein Phosphopeptide-Amorphous Calcium Phosphate , 2008, Journal of dental research.

[23]  D. Zero,et al.  Analysis of the erosive potential of calcium-containing acidic beverages. , 2008, European journal of oral sciences.

[24]  T. Attin,et al.  Impact of the in situ formed salivary pellicle on enamel and dentine erosion induced by different acids , 2008, Acta odontologica Scandinavica.

[25]  Jiming Hu,et al.  Investigation of the effects of 30% hydrogen peroxide on human tooth enamel by Raman scattering and laser-induced fluorescence. , 2008, Journal of biomedical optics.

[26]  D. Tantbirojn,et al.  Change in surface hardness of enamel by a cola drink and a CPP-ACP paste. , 2008, Journal of dentistry.

[27]  M. Buzalaf,et al.  Effect of an experimental 4% titanium tetrafluoride varnish on dental erosion by a soft drink. , 2007, Journal of dentistry.

[28]  M. Buzalaf,et al.  Influence of Fluoride Dentifrice on Brushing Abrasion of Eroded Human Enamel: An in situ/ex vivo Study , 2006, Caries Research.

[29]  J. Dannacher Catalytic bleach: Most valuable applications for smart oxidation chemistry , 2006 .

[30]  K. H. Kim,et al.  Mineral loss from bovine enamel by a 30% hydrogen peroxide solution. , 2006, Journal of oral rehabilitation.

[31]  W. Edgar,et al.  The effect of bleaching on enamel susceptibility to acid erosion and demineralisation , 2005, British Dental Journal.

[32]  Jennifer M. Vandiver,et al.  Nanoscale variation in surface charge of synthetic hydroxyapatite detected by chemically and spatially specific high-resolution force spectroscopy. , 2005, Biomaterials.

[33]  P. Schmidlin,et al.  In vitro microleakage of adhesive-sealed dentin with lactic acid and saliva exposure: a radio-isotope analysis. , 2004, Journal of dentistry.

[34]  Y. Tsujimoto,et al.  Effects of the hydroxyl radical and hydrogen peroxide on tooth bleaching. , 2004, Journal of endodontics.

[35]  T. Attin,et al.  Susceptibility of Enamel Surfaces to Demineralization after Application of Fluoridated Carbamide Peroxide Gels , 2003, Caries Research.

[36]  T. Attin,et al.  Fluoride uptake and development of artificial erosions in bleached and fluoridated enamel in vitro. , 2002, Journal of oral rehabilitation.

[37]  M. Eisenburger,et al.  Effect of Time on the Remineralisation of Enamel by Synthetic Saliva after Citric Acid Erosion , 2001, Caries Research.

[38]  B. Guggenheim,et al.  Development of an enhanced anticaries efficacy dual component dentifrice containing sodium fluoride and dicalcium phosphate dihydrate. , 2001, American journal of dentistry.

[39]  A. Jenei,et al.  An atomic force microscopy study on the effect of bleaching agents on enamel surface. , 1999, Journal of dentistry.

[40]  M. McCracken,et al.  Demineralization effects of 10 percent carbamide peroxide. , 1996, Journal of dentistry.