Effect of homemade bleaching containing different thickeners on the color of bovine tooth enamel

Authors

DOI:

https://doi.org/10.33448/rsd-v10i11.19559

Keywords:

Carbamide Peroxide; Tooth Bleaching; Thickeners; Color.

Abstract

The article aimed to evaluate the color changes of bovine tooth enamel bleached with 10% carbamide peroxide containing different thickeners: Carbopol, Natrosol, and Carboxymethylcellulose. The preparation of specimens was performed using a double-faced diamond disc to obtain 1mm-thick enamel specimens. Each sample was subjected to the staining process with black tea over six days and then immersed in artificial saliva to stabilize the color. The groups were divided and the bleaching protocol was started for 14 days (4h/day), using 10% carbamide peroxide (PC 10%) with Carbopol, and three bleaching agents manipulated in a pharmacy: PC 10% with Carbopol, Natrosol, and Carboxymethylcellulose. The evaluation of color stability was performed using a digital spectrophotometer (Vita EasyShade) after staining, as well as after the bleaching protocol. Statistical analysis was performed using the following tests: Kruskal Wallis and Mann Whitney (p<0.05). The results revealed statistically significant differences for the commercially sold PC 10% concerning the parameters ΔL, Δa, Δb, and ΔE when compared to products handled in a pharmacy. There was no statistical difference when comparing the products handled with each other. It can be concluded that the bleaching agents manipulated with different thickeners (Carbopol, Natrosol, Carboxymethylcellulose) presented lightening efficacy inferior to the product already commercialized.

References

AlOtaibi, G., AlMutairi, M., AlShammari, M., AlJafar, M., & AlMaraikhi, T. (2020). Prevalence and public knowledge regarding tooth bleaching in Saudi Arabia. Journal of Family Medicine and Primary Care, 9(7), 3729–3732.

Bersezio, C., Martín, J., Herrera, A., Loguercio, A., & Fernández, E. (2018). The effects of at-home whitening on patients’ oral health, psychology, and aesthetic perception. BMC Oral Health, 18(1), 1–10.

Borges, A., Zanatta, R., Barros, A., Silva, L., Pucci, C., & Torres, C. (2014). Effect of Hydrogen Peroxide Concentration on Enamel Color and Microhardness. Operative Dentistry, 40(1), 96–101.

Casaburi, A., Montoya Rojo, Ú., Cerrutti, P., Vázquez, A., & Foresti, M. L. (2017). Carboxymethyl cellulose with tailored degree of substitution obtained from bacterial cellulose. Food Hydrocolloids, 75, 147–156.

Gouveia, T. H. N., de Souza, D. F. S., Aguiar, F. H. B., Ambrosano, G. M. B., & Lima, D. A. N. L. (2020). Effect of ammonium acryloyldimethyltaurate copolymer on the physical and chemical properties of bleached dental enamel. Clinical Oral Investigations, 24(8), 2701–2711.

Gouveia, T. H. N., Públio, J. do C., Ambrosano, G. M. B., Paulillo, L. A. M. S., Aguiar, F. H. B., & Lima, D. A. N. L. (2016). Effect of at-home bleaching with different thickeners and aging on physical properties of a nanocomposite. European Journal of Dentistry, 10(01), 082–091.

Javanbakht, S., & Shaabani, A. (2019). Carboxymethyl cellulose-based oral delivery systems. International Journal of Biological Macromolecules, 133, 21–29. h

Joiner, A., & Luo, W. (2017). Tooth colour and whiteness: A review. Journal of Dentistry, 67, S3–S10.

Krasniqi, T. P., Shala, K., Staka, G., Bicaj, T., Ahmedi, E., & Dula, L. (2017). Lightness, chroma, and hue distributions in natural teeth measured by a spectrophotometer. Journal of Medical Sciences, 11(1), 36–40.

Kothari, S., Jum’ah, A. A., Gray, A. R., M. Lyons, K., Yap, M., & Brunton, P. A. (2020). A randomized clinical trial investigating three vital tooth bleaching protocols and associated efficacy, effectiveness and participants’ satisfaction. Journal of Dentistry, 95, 103322.

Landim, L. B., Sampaio, V. S., Souza Junior, E. C., Bonomo, R. C. F., & Leite, C. X. S. (2015). Avaliação de Diferentes Espessantes nas Propriedades Físico-Químicas, Sensoriais e Reológicas de Bebida Láctea. Revista Brasileira de Produtos Agroindustriais, 17(1), 87–96.

Luque-Martinez, I., Reis, A., Schroeder, M., Muñoz, M. A., Loguercio, A. D., Masterson, D., & Maia, L. C. (2016). Comparison of efficacy of tray-delivered carbamide and hydrogen peroxide for at-home bleaching: a systematic review and meta-analysis. Clinical Oral Investigations, 20(7), 1419–1433.

Marquillas, C. B., Procaccini, R., Malmagro, M. V., & Sánchez-Martín, M.-J. (2020). Breaking the rules: tooth whitening by means of a reducing agent. Clinical Oral Investigations, 24(8), 2773–2779.

Morgan, S., Jum’ah, A. A., & Brunton, P. (2015). Assessment of efficacy and post-bleaching sensitivity of home bleaching using 10% carbamide peroxide in extended and non-extended bleaching trays. British Dental Journal, 218(10), 579–582.

Mounika, A., Mandava, J., Roopesh, B., & Karri, G. (2018). Clinical evaluation of color change and tooth sensitivity with in-office and home bleaching treatments. Indian Journal of Dental Research, 29(4), 423.

Pavicic, D. K., Kolceg, M., Lajnert, V., Pavlic, A., & Spalj, S. (2020). Changes in quality of life induced by tooth whitening are not influenced by global self-esteem: a randomized double-blind placebo-controlled trial. Odontology, 108(1), 143–151.

Penha, K., Sousa, A., Oliveira, C., de Andrade, R., & Vasconcelos, D. (2018). A swift, easy and cheap protocol to evaluate the tooth bleaching in vitro. Journal of Clinical and Experimental Dentistry, 10(6), e579-84.

Públio, J. do C., Zeczkowski, M., Burga-Sánchez, J., Ambrosano, G. M. B., Groppo, F. C., Aguiar, F. H. B., & Lima, D. A. N. L. (2019). Influence of different thickeners in at-home tooth bleaching: a randomized clinical trial study. Clinical Oral Investigations, 23(5), 2187–2198.

Qusti, N. Y., Brooks, S. J., & Brunton, P. A. (2020). In situ study: Effect of a 10% Carbamide Peroxide whitening gel on enamel mineral density using NanoCT. Medical Science, 24(106), 4731–4745.

Rodrigues, A. P. M., Klein, M. C., Dall Agnol, M. A., & Rodrigues-Junior, S. A. (2020). In vitro tooth whitening effectiveness of whitening mouth rinses. Brazilian Journal of Oral Sciences, 19(49), e206779.

Ruiz, S., Díaz-Soriano, A., Gallo, W., Perez-Vargas, F., Munive-Degregori, A., & Mayta-Tovalino, F. (2020). Assessment of Structural Changes in Translucency and Opacity of Tooth Enamel against a Direct Demineralization Process: An In Vitro Study. Journal of International Society of Preventive & Community Dentistry, 10(4), 473.

Silva, B. G., Gouveia, T. H. N., da Silva, M. de A. P., Ambrosano, G. M. B., Aguiar, F. H. B., & Lima, D. A. N. L. (2018). Evaluation of home bleaching gel modified by different thickeners on the physical properties of enamel: An in situ study. European Journal of Dentistry, 12(04), 523–527.

Tsai, M.-T., Wang, Y.-L., Yeh, T.-W., Lee, H.-C., Chen, W.-J., Ke, J.-L., & Lee, Y.-J. (2019). Early detection of enamel demineralization by optical coherence tomography. Scientific Reports, 9(17154), 1–9.

Vieira-Junior, W., Ferraz, L., Pini, N., Ambrosano, G., Aguiar, F., Tabchoury, C., & Lima, D. (2018). Effect of Toothpaste Use Against Mineral Loss Promoted by Dental Bleaching. Operative Dentistry, 43(2), 190–200.

Zanolla, J., Marques, A., da Costa, D., de Souza, A., & Coutinho, M. (2017). Influence of tooth bleaching on dental enamel microhardness: a systematic review and meta-analysis. Australian Dental Journal, 62(3), 276–282.

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Published

03/09/2021

How to Cite

LEITE, L. T. .; VIANA, B. B. .; MACÊDO, L. O. .; LIMA, R. B. W. e .; ANDRADE, A. K. M. de; MEIRELES, S. S. .; MONTENEGRO, R. V. .; DANTAS, R. V. F. .; DUARTE, R. M. . Effect of homemade bleaching containing different thickeners on the color of bovine tooth enamel . Research, Society and Development, [S. l.], v. 10, n. 11, p. e348101119559, 2021. DOI: 10.33448/rsd-v10i11.19559. Disponível em: https://rsdjournal.org/index.php/rsd/article/view/19559. Acesso em: 26 apr. 2024.

Issue

Vol. 10 No. 11

Section

Health Sciences

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Copyright (c) 2021 Leon Tovar Leite; Beatriz Barros Viana; Lucas Oliveira Macêdo; Renally Bezerra Wanderley e Lima; Ana Karina Maciel de Andrade; Sônia Saeger Meireles; Robinsom Viégas Montenegro; Raquel Venâncio Fernandes Dantas; Rosângela Marques Duarte

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