Vargas-Koudriavtsev T, Ledezma-Alfaro T, Wu-WuSh W, Herrera-Sancho OA

Language: Spanish
References: 19
Page: 25-29
PDF size: 220.64 Kb.

ABSTRACT

Objective: To analyze changes in phosphate molecules in dental enamel after application of in-office dental bleach at different concentrations and type of activation. Material and methods: 30 recently extracted, human teeth free of caries and pigmentations were randomly distributed into three experimental groups. Tooth whitening materials used in each experimental group were Zoom! WhiteSpeed (group 1), Pola Office with light-activation (group 2) and Pola Office without light activation (group 3). Bleaching agents were applied according to manufacturer’s instructions; two applications on the first sessions and one application in the second session. With Raman spectroscopy phosphate v₁ molecule concentration was measured in tooth enamel before treatment and after each bleaching session. ANOVA variance analysis was used for repetitive measurements (p ≤ 0.05); Bonferroni post hoc test was used for comparisons between treatment sessions and control week. Results: All three in-office bleachers elicited increase in phosphate v₁ molecule concentration during bleaching process (p ≤ 0.05), Pola Office, with both types of activation caused significant phosphate increase during the whole treatment. Zoom! WhiteSpeed showed significant increment with respect to control week, but did not show increase between first and second session (p ≤ 0.05). Conclusions: Within the scope of this study’s limitations, it is possible to conclude that all three studied in-office bleaching agents increased phosphate v₁ molecule. Activation type did not elicit significant difference.

REFERENCES

1. Goldstein RE, Gaber DA. Complete dental bleaching. Chicago: Quintessence Publishing Co.; 1995. pp. 25-32.

2. Buchalla W, Attin T. External bleaching therapy with activation by heat, light or laser--a systematic review. Dent Mater. 2007; 23 (5): 586-596.

3. Araujo Fde O, Baratieri LN, Araújo E. In situ study of in-office bleaching procedures using light sources on human enamel microhardness. Oper Dent. 2010; 35 (2): 139-146.

4. Silva AF, Demarco FF, Meereis CT, Cenci MS, Piva E. Light-activated bleaching: effects on surface mineral change on enamel. J Contemp Dent Pract. 2014; 15 (5): 567-572.

5. Faraoni-Romano JJ, Da Silveira AG, Turssi CP, Serra MC. Bleaching agents with varying concentrations of carbamide and/or hydrogen peroxides: effect on dental microhardness and roughness. J Esthet Restor Dent. 2008; 20 (6): 395-402; discussion 403-404.

6. Machado LS, Anchieta RB, dos Santos PH, Briso AL, Tovar N, Janal MN et al. Clinical comparison of at-home and in-office dental bleaching procedures: a randomized trial of a split-mouth design. Int J Periodontics Restorative Dent. 2016; 36 (2): 251-260.

7. Cadenaro M, Breschi L, Nucci C, Antoniolli F, Visintini E, Prati C et al. Effect of two in-office whitening agents on the enamel surface in vivo: a morphological and non-contact profilometric study. Oper Dent. 2008; 33 (2): 127-134.

8. Pinto CF, Oliveira Rd, Cavalli V, Giannini M. Peroxide bleaching agent effects on enamel surface microhardness, roughness and morphology. Braz Oral Res. 2004; 18 (4): 306-311.

9. Jiang T, Ma X, Wang Y, Tong H, Shen X, Hu Y et al. Investigation of the effects of 30% hydrogen peroxide on human tooth enamel by Raman scattering and laser-induced fluorescence. J Biomed Opt. 2008; 13 (1): 014019.

10. Goo DH, Kwon TY, Nam SH, Kim HJ, Kim KH, Kim YJ. The efficiency of 10% carbamide peroxide gel on dental enamel. Dent Mater J. 2004; 23 (4): 522-527.

11. Park HJ, Kwon TY, Nam SH, Kim HJ, Kim KH, Kim YJ. Changes in bovine enamel after treatment with a 30% hydrogen peroxide bleaching agent. Dent Mater J. 2004; 23 (4): 517-521.

12. Venkatesan SM, Narayan GS, Ramachandran AK, Indira R. The effect of two bleaching agents on the phosphate concentration of the enamel evaluated by Raman spectroscopy: An ex vivo study. Contemp Clin Dent. 2012; 3 (Suppl 2): S172-S176.

13. Götz H, Duschner H, White DJ, Klukowska MA. Effects of elevated hydrogen peroxide ‘strip’ bleaching on surface and subsurface enamel including subsurface histomorphology, micro-chemical composition and fluorescence changes. J Dent. 2007; 35 (6): 457-466.

14. Santini A, Pulham CR, Rajab A, Ibbetson R. The effect of a 10% carbamide peroxide bleaching agent on the phosphate concentration of tooth enamel assessed by Raman spectroscopy. Dent Traumatol. 2008; 24 (2): 220-223.

15. Xu B, Li Q, Wang Y. Effects of pH values of hydrogen peroxide bleaching agents on enamel surface properties. Oper Dent. 2011; 36 (5): 554-562.

16. Vargas-Koudriavtsev T, Durán-Sedó R, Sáenz-Bonilla P, Bonilla-Mora V, Guevara-Bertsch M, Jiménez-Corrales RA et al. Efecto de agentes de blanqueamiento dental sobre la concentración de fosfato en el esmalte dental por medio de espectroscopia Raman. Rev Odont Mex. 2015; 19 (4): 232-239.

17. Vargas-Koudriavtsev T, Herrera-Sancho ÓA. Effect of tooth-bleaching on the carbonate concentration in dental enamel by Raman spectroscopy. J Clin Exp Dent. 2017; 9 (1): e101-e106.

18. Benn AM, Thomson WM. Saliva: an overview. N Z Dent J. 2014; 110 (3): 92-96.

19. Attin T, Schmidlin PR, Wegehaupt F, Wiegand A. Influence of study design on the impact of bleaching agents on dental enamel microhardness: a review. Dent Mater. 2009; 25 (2): 143-157.