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Roughness and stability of compound resin color exposed to bleaching strips after surface treatment

Rugosidade e estabilidade de cor após clareamento caseiro

ABSTRACT

Objective

to analyze the surface roughness and color stability of the composite resin after surface treatment with the aluminum oxide discs and subsequent exposure to the Advanced Teeth Whitening Strips.

Methods

20 specimens of the Filtek Z350XT restorer (3M®) were prepared and daily subjected to home bleaching for 30 minutes during 14 days. A precision rugosimeter was used in order to verify the roughness by means of 3 random readings in the same direction in each sample. For color stability the CIELAB system (L*, a*, b* values) was used through the spectrophotometer (MINOLTA CR -321, Japan). The means of the test specimens as well as the mean of each group were calculated using the random readings. Data statistical analysis were performed by ANOVA- analysis of variance. The level of significance was set at 5% (p ≤ 0.05).

Results

Roughness did not present great numerical variations. No statistically significant difference between the means obtained concerning the surface roughness of the composite resin with p = 0.44 was observed. However, it was found that there was a statistically significant difference between the means obtained in relation to the color stability of the composite resin, p=0. 007.

Conclusion

It was concluded that pre-contoured strips containing 6% hydrogen peroxide do not have a significant adverse effect on the roughness of Z350XT (3M®) resin. However, it was also concluded that according to the color stability analysis performed, there may be an indication of the restoration replacement after the bleaching treatment, due to their color change.

Indexing terms
Composite resins; Tooth bleaching; Dental polishing

RESUMO

Objetivo

Analisar a rugosidade superficial e a estabilidade da cor da resina composta após tratamento de superfície com os discos de óxido de alumínio e posterior exposição à fita clareadora Advanced Teeth Whitening Strips.

Métodos

Foram confeccionados 20 corpos de prova do restaurador universal Filtek Z350XT (3M®), estes, foram submetidos ao clareamento caseiro por 30 minutos diários durante 14 dias. Utilizou-se um rugosímetro de precisão para verificação da rugosidade através de 3 leituras aleatórias no mesmo sentido em cada amostra, e para estabilidade de cor foi utilizado o sistema CIELAB (valores L*, a*, b*), através do espectofotômetro (MINOLTA CR-321, Japão). As leituras coletadas possibilitaram o cálculo das médias dos corpos de prova e a média de cada grupo. Em seguida, os dados foram submetidos a tratamento estatístico pela análise de variância ANOVA. O nível de significância estabelecido foi de 5% (p≤0,05).

Resultados

a rugosidade não sofreu grandes variações numéricas e também não houve diferença estatisticamente significantes entre as médias obtidas em relação a rugosidade superficial da resina composta (p=0,44). Contudo, verificou-se que houve diferenças estatisticamente significantes entre as medias obtidas em relação à estabilidade de cor da resina composta, com p= 0,007.

Conclusão

As fitas pré-contornadas contendo peróxido de hidrogênio a 6% não provocam efeito adverso significantes sobre a rugosidade da resina Z350XT (3M®). Contudo, também concluímos que, de acordo com a análise de estabilidade de cor realizada, poderá haver indicação da substituição das restaurações após o tratamento clareador devido à alteração na coloração das mesmas.

Termos de indexação
Resinas compostas; Clareamento dental; Polimento dentário

INTRODUCTION

Since the introduction of home bleaching by Haywood and Heymann in 1989, this trend has become quite popular and aesthetics in Dentistry has been increasingly more noticeable [11 Ab-Ghani Z, Ooi QQ, Mohamad D. Effects of home bleaching on surface hardness and surface roughness of an experimental nanocomposite. J Conserv Dent. 2013; 16(4): 356-361. http://dx.doi.org/10.4103/0972-0707.114362.
https://doi.org/10.4103/0972-0707.114362...
]. Bleaching is a conservative, simple treatment, and usually used by professionals to achieve an aesthetically pleasant smile [22 Pasquali EL, Bertazzo CA, Anziliero L. Estudo dos efeitos do clareamento dental sobre o esmalte: uma revisão das evidências para a indicação clínica. Perspectiva, Erechim. 2014; 38(141): 99-108.].Types of bleaching methods include in-office bleaching performed by the dentist, at home performed by the patient under the supervision of the professional; and also, the association of these techniques, part performed in the office and part at home [33 Cardoso PEC, Pinheiro HB, Lopes BA. Perguntas e respostas sobre o clareamento dental. Rev Assoc Paul Cir Dent. 2014; 68(3): 236-237. Disponível em: < http://revodonto.bvsalud.org/pdf/apcd/v68n3/a10v68n3.pdf>.
http://revodonto.bvsalud.org/pdf/apcd/v6...
].Bleaching occurs by oxidation reaction caused by the decomposition of hydrogen peroxide into oxygen and perhydroxyl, the carbamide peroxide breaks down into hydrogen peroxide and urea which again breaks down into ammonia and carbon dioxide. Free radicals are formed which split into large pigmented, then smaller chains and are totally or partially eliminated [22 Pasquali EL, Bertazzo CA, Anziliero L. Estudo dos efeitos do clareamento dental sobre o esmalte: uma revisão das evidências para a indicação clínica. Perspectiva, Erechim. 2014; 38(141): 99-108.].

Disposable pre-contoured strips containing the hydrogen peroxide bleaching agent in concentrations ranging from 6 to 14% was introduced in Brazil, in 2013. These have been widely used due to the lower concentration of the bleaching agent, shorter application time and simple use [44 Ramos AB, Monnerat AF, Perez CR. Avaliação da eficácia das fitas para clareamento dental. Rev. bras. odontol. 2014; 71(2): 198-202.]. According to the National Agency of Sanitary Surveillance (Anvisa), dental bleaching products should be sold only with the dentis’st prescription. Products withhigher than 3%, concentrations of carbamide peroxide and hydrogen peroxide, which includes whitening strips [55 Demarco FF, Gluszevicz AC, Mendes MLM, do Nascimento MMC. Cabreira N. S. et al. Produtos de autocuidado para clareamento dental. RFO UPF. 2016; 21(1).] are under Anvisa assignment.Composite resins- very popular among dentists- have significantly been developed and widely used in restorative treatments. Thus, it is common in daily practice to find patients who present anterior teeth restorations in composite resins in order have some bleaching treatment performed [66 Fernandes HGK, Silva R, Marinho MAS, Oliveira POS, Ribeiro JCR, Moyses MR. Evolução das resinas compostas: revisão de literatura. Revista da universidade vale do rio verde. 2014; 12(2): 401-411. http://dx.doi.org/10.5892/ruvrd.v12i2.1465.
https://doi.org/10.5892/ruvrd.v12i2.1465...
,77 Aleixo RS, Bittencourt BF, Martins GC, Ficinski R, Gomes OMM, Farhat PA. Efeito do clareamento na susceptibilidade ao manchamento de uma resina composta. Odontol. Clín.-Cient. 2013; 12(1): 59-63.].It is known that the long-term clinical success of restorative procedures depends on several factors, including surface roughness and color stability [88 Lima RBW, Oliveira JA, de Vasconcelos LC, Andrade AKM, Duarte RM. Avaliação da rugosidade superficial e análise morfológica de cimentos de ionômero de vidro: influência do armazenamento em saliva artificial. Rev Odontol UNESP. 2017;46(2): 116-123. https://doi.org/10.1590/1807-2577.20716
https://doi.org/10.1590/1807-2577.20716...
]. There is a positive correlation between surface roughness and bacterial adhesion, since bleaching agents seem to affect the cariogenic microorganism adhesion on resin restoration surfaces. The roughness impairs aesthetics; causes restorationstaining; plate accumulation; caries and gingival irritation [11 Ab-Ghani Z, Ooi QQ, Mohamad D. Effects of home bleaching on surface hardness and surface roughness of an experimental nanocomposite. J Conserv Dent. 2013; 16(4): 356-361. http://dx.doi.org/10.4103/0972-0707.114362.
https://doi.org/10.4103/0972-0707.114362...
].

Color stability is an increasingly necessary feature, during the bleaching treatment and the restorative material can bear and even respond to the procedure [99 Salvego RN, Dias RPB, Figueiredo JLG. Estabilidade de cor de resinas compostas no processo de manchamento e clareamento. Rev Dental Press Estét. 2013;10(3):54-62. Disponível em <https://www.dentalpress.com.br/portal/estabilidade-cor-resinas-compostas-processo-manchamento-clareamento/>
https://www.dentalpress.com.br/portal/es...
]. New studies concerningthese materials effects are needed and patients should be warned about the replacement of existing restoration after bleaching [1010 Gurgan S, Yalcin F. The effect of 2 different bleaching regimens on the surface roughness and hardness of toothcolored restorative materials. Quintessence Int. 2007; 38(2): 83-87. https://doi.org/10.1016/j.dental.2004.07.011
https://doi.org/10.1016/j.dental.2004.07...
]. In this context, the use of surface treatment procedures (finishing and polishing) has been indicated to improve the aesthetics and longevity of composite resin restorations [1111 Silva VB, Ribeiro IC, Sena IAA, Vieira JIN, Seabra EJG, et al. Lisura superficial da resina composta frente a técnicas de polimento. Rev Bras Odontol. 2015;72(1-2): 47-50.]. However, further studies are essential in order to elucidate the question of whether these finishing and polishing treatments determine less significant alteration of the surface roughness and greater color stability for the resin composites during the bleaching procedures. Various finishing and polishing techniques can be used in composite resins however, some studies advocate the use of the complete sequence of aluminum oxide discs to obtain a better surface smoothness for composite resins [1111 Silva VB, Ribeiro IC, Sena IAA, Vieira JIN, Seabra EJG, et al. Lisura superficial da resina composta frente a técnicas de polimento. Rev Bras Odontol. 2015;72(1-2): 47-50.].

Some studies have demonstrated that substances remaining from bleaching agents may negatively affect the clinical longevity of composite resin restorations [1212 Ferreira H. de A, Carlo HL, e Silva FDCM, Meireles SS, Duarte RM, deAndrade AKM. Influência de agentes clareadores nas propriedades superficiais (rugosidade e microdureza) de uma cerâmica odontológica. Cerâmica. 2016;62(361):55-59. https://doi.org/10.1590/0366-69132016623611981
https://doi.org/10.1590/0366-69132016623...
], while other researches demonstrate that the changes in structure and longevity [1313 Bodanezi A, de Bittencourt ME, Bodanezi RV, Zottis T, Munhoz E, Carlini B. Surface modifications on aesthetically restored teeth following home bleaching with 16% peroxide carbamide. Eur J Dent. 2011; 5(2): 157-162.] are not meaningful. This shows lack of consensus on the effects of bleaching agents on composite resins, especially concerning bleaching strips. Although there is a strong indication of their damage further studies and research on the subject are required. Considering the several effects of bleaching agents on the surface of aesthetic restorative materials, mainly composite resins, this study aims to analyze the surface roughness and color stability of the composite resin after surface treatment with the aluminum oxide discs and subsequent exposure to the bleaching strips.

METHODS

The surface roughness and color stability of the Filtek Z350XT universal restorer (3M ESPE®) in A2E color (Lot: 450491) was evaluated and stored at room temperature below 27ºC, according to the manufacturer’s recommendation and which is a photopolymerizable composite resin developed for use in restorations of posterior and anterior teeth including occlusal surfaces after surface treatment (polishing) with aluminum oxide discs (Sof-Lex-3M ESPE® - lot: 01220813) in the 4 granulations (Thick, medium, fine and superfine) and after exposure to the Advanced Teeth Whitening Strips , which composition includes 6% of hydrogen peroxide as a bleaching agent, through the preparation of 20 specimens.The specimens were prepared by means of individualized metal matrices, each one having the shape of a cylinder with a central hole, 4mm in height and 1cm in diameter. The specimens were obtained by inserting the composite resin in increments of 2mm each, with anti-adherent titanium spatula (Millenium®), in the matrix central hole, followed by constant photoactivation for 20 seconds (Optilight Digital - Gnatus According to the manufacturer‘s instructions. A anti-adherent polyester strip (Fava®) was placed on a glass plate (Prisma®) and then the matrix on the polyester strip for insertion of the composite resin. Another polyester strip was placed on the resin, and thus, the photopolymerization was performed. After the preparation, the specimens were placed in plastic containers containing 2ml of distilled water to simulate the oral medium and divided into 2 groups with 10 samples each (G1A and G1B, which after bleaching were called respectively G2A and G2B ), which are represented in the table 1:

Table 1
Distribution of experimental groups.

After identification, the specimens were stored at 37° in a oven and 100% relative humidity for a period of 24 hours to certify complete polymerization and hydration. After the 24 hour storage, the G1B test specimens were subjected to surface treatment with the aluminum oxide discs (Sof-Lex 3M®) in the 4 low-speed, and analysis of the surface roughness and color stability was performed, prior to the bleaching treatment, together with the G1A test specimens. Following the analys,Advanced Teeth Whitening Strips were applied for 30 minutes daily during 14 days, following the manufacturer’s instructions. At each daily application, the specimens were washed with distilled water and stored again in the plastic containers with 2 ml of distilled water. After exposure to the bleaching agent, all specimens were subjected to a new verification of surface roughness and color stabilityA 0.25mm Roughness Specimen (NRB 3405 - jan / 88), whose Ra values were expressed in micrometers (μm) for rugosimetric reading, was used to verify the roughness (Ra). Three random readings were taken in the same direction for each test specimen, not touching regions previously scratched in the reading. The color stability was analyzed by the CIELAB system (L *, a *, b * values) through the spectrophotometer (MINOLTA CR-321, Japan). Data were collected and readings allowed the calculation of the roughness means and color stability and the mean of each group. Finally, the means for the roughness and color stability of each specimen were submitted to statistical to ANOVA and significance was set at 5%.

The supervisors of the present study are linked to Instituição Centro Universitário - CESMAC (Maceió-AL, Brazil). There was no submission to the ethics committee of this institution once the research was not performed on animals or humans.

RESULTS

Regarding surface roughness, the values obtained were tabulated containing the means and standard deviation of all groups (Table 2). Based on the values of the means it was observed that the roughness did not suffer great numerical variations. ANOVA (Table 3) was used to identify whether there were statistically significant differences between the surface treatment (polyester strip and soft lex disc finishing) before and after bleaching. It was verified that there was no statistically significant difference between the means obtained in relation to the surface roughness of the composite resin with p = 0.44.

Table 2
Surface roughness for composite resin befroe and after bleaching strips exposure
Table 3
Factors for surfasse roughness.

The means and standard deviation obtained in the color stability analysis are described in table 4. According to ANOVA (table 5), a statistically significant difference was found between the means obtained in relation to the color stability of the composite resin, with p = 0.007.

Table 4
Color stability of composite resin, before and after bleaching strips exposure.
Table 5
Factors for color stability.

DISCUSSION

There is a strong relationship between bacterial adhesion and surface roughness, an important feature of dental material [1414 Oliveira JR, Paradella TC, Rego MA, Koga-ito CY, Jorge AOC. Avaliação da aderência microbiana e rugosidade superficial de resina acrílica quimicamente ativada após clivagem com diferentes soluções desinfectantes. Ciênc Odontol Bras. 2007;10(2): 54-60.]. The 0.2μm surface roughness value is considered the limit below which bacterial adherence is not expected [1515 Cruz J, Sousa T, Cavalheiro A, Pequeno A, Romão B, Coito C. Análise da rugosidade de superfície e da microdureza de 6 resinas compostas. Rev Port Estomatol Med Dent Cir Maxilofac. 2016; 57(1):38-45. https://doi.org/10.1016/j.rpemd.2015.11.010
https://doi.org/10.1016/j.rpemd.2015.11....
].

In the present study, it was observed that the analysis of the surface roughness performed before and after the bleaching treatment in both groups (G1A, G2A, G1B and G2B - table 1 and 2) did not present a mean value above the critical value of 0,2 μm presenting no significant statistical change. This can be explained by the fact that nanoparticulate resins (Z350XT - 3M ESPE®), consisting of particles in the nanoscale of 0.4 to 0.8 nanometers, present a load increase around 80% due to the reduction in the size of the particles and the way of obtaining the load, providing a reduction of the polymerization and improvement in the mechanicalproperties of the resin [1616 Tapia LR, Amaral FLB, França FMG, Flório FM, Rodrigues JA, Basting RT. Rugosidade de resinas compostas submetidas a diferentes métodos de acabamento e polimento. Rev Odontol UNESP. 2012;41(4):254-259.]. This greater load amount of the material makes it less susceptible to bleaching agent’s erosion [1717 Pozzobon RT, Candido MSM, Rodrigues Júnior AL. Análise da rugorosidade superficial de materiais restauradores estéticos. Efeito de agentes clareadores e tempo. Rev Odonto Ciência. 2005;20(49):204-209.]. Nonetheless, it was observed that after the bleaching treatment there was a slight increase in the mean surface roughness of the groups, although this increase was not significant. Therefore, it was shown that hydrogen peroxide acts through the release of free radicals and they can affect the resinous restoration leading to surface roughness increase [1818 Wattanapayungkul P, Yap AUJ. Effects of in-office bleanching products on surface finish of tooth-colored restorations. Oper Dent. 2003;28(1):15-19.].

Another aspect demonstrated in the obtained results is that the mean value of the roughness of the group submitted to the polishing treatment with the aluminum oxide discs after the bleaching treatment (G2A - table 1) was still less significant than the result obtained for the control group (G2B - table 1 and 2). Thus, it can be stated that the polishing treatment plays an important role on the surface roughness, as well as on the effect of the bleaching treatments on the composite resinsIt is worth noting that, given the methodology used, these results can be considered as material-dependent once the preparation of the test specimens- through matrices- and the roughness obtained for the control group (GA - with polyester strip), although below the critical value , does not represent the daily clinic situation , since the restorations are performed with spatulas, brushes and textured with different instruments promoting different surface roughness values. It should be considered that the finishing and polishing procedures are also material-dependent results, since different resin types may respond differently to the same treatment, which can be explained by differences in size, shape, load and number of particles of each material [1616 Tapia LR, Amaral FLB, França FMG, Flório FM, Rodrigues JA, Basting RT. Rugosidade de resinas compostas submetidas a diferentes métodos de acabamento e polimento. Rev Odontol UNESP. 2012;41(4):254-259.].

Color stability is an increasingly important aesthetic issue regarding restorations [1919 Silva JC, Silva DR, Barbosa DN. Estabilidade de cor da resina composta: Um desafio para a dentística restauradora. Arch Health Invest. 2017;6(10):451-457. http://dx.doi.org/10.21270/archi.v6i10.2240
https://doi.org/10.21270/archi.v6i10.224...
]. Severalintrinsic or extrinsic factors may alter the color stability of composite resins. Among the intrinsic factors are the photopolymerizationtype and time as well as the material composition; extrinsic factors are the adsorption or absorption of pigments as a result of contamination by exogenous origin [2020 Awliya WY, Al-Alwani DJ, Gashmer ES, Al-Mandil HB. The effects of commonly used type of coffee on surface hardness and color stability of resin-based composite restorations. Saudi Dent J. 2010; 22(1):177-181. http://dx.doi.org/10.1016/j.sdentj.2010.07.008
https://doi.org/10.1016/j.sdentj.2010.07...
]. The composite resinstaining can be related to the type of resin and the load, which refers to the water absorption and hydrophilicity of the resin matrix21. Filtek Z350 XT resin (3M®) presents an organic matrix consisting of BIS-GMA, UDMA, TEGDMA, PEGDMA and BIS-EMA, according to the manufacturer’s data. Studies have shown that TEGDMA-containing resins present less color stability than TEGDMA-containing resins, therefore, TEGDMA may be responsible for resin staining [2020 Awliya WY, Al-Alwani DJ, Gashmer ES, Al-Mandil HB. The effects of commonly used type of coffee on surface hardness and color stability of resin-based composite restorations. Saudi Dent J. 2010; 22(1):177-181. http://dx.doi.org/10.1016/j.sdentj.2010.07.008
https://doi.org/10.1016/j.sdentj.2010.07...
].

In the results obtained by the present study, it can be demonstrated that the composite resin responds to home bleaching with statistical significance for color stability, that is, it presents darkening (table 3 and 4). The hydrophilicity of the organic matrix of the Filtek Z350 XT composite resin may be responsible for this, which promotes less color stability.

Published studies on color changes of composite resins after bleaching corroborate that bleaching agents can alter the color of restorations present on teeth, due to a superficial cleaning that the bleaching agent promotes on the surface of restorative material [2121 Farinelli MV, de Paulo PR, Nogueira RD, Geraldo-Martins VR. Efeitos do clareamento dental em restaurações de resina com-posta. UNOPAR Cient Ciênc Biol Saúde. 2013;15(2):153-159.]. According to the literature and the study carried out, it is suggested that the composite resin restorations submitted to the bleaching be substituted if color alterations are perceived and aesthetics is impaired.

CONCLUSION

Within the limits of this study, it was concluded that the pre-contour strips containing 6% hydrogen peroxide do not cause a significant adverse effect on the roughness of the composite resin Z350 XT (3M®), however good polishing of the resins plays an important role in the reduction of the surface roughness prior to the bleaching treatments, in order to minimize problems caused by the increased roughness, such as biofilm accumulation and bacterial adhesion. However, it was also concluded that according to the color stability analysis performed, there may be an indication of the replacement of the restorations after the bleaching treatment, due to their color change.

How to cite this article

  • Calixto IFPM, Gama MR, Campos JP, Ferrarez LL, Oliveira M.. Roughness and stability of compound resin color exposed to bleaching strips after surface treatment. RGO, Rev Gaúch Odontol. 2020;68:e20200005. http://dx.doi.org/10.1590/1981-86372020000053601

REFERENCES

  • 1
    Ab-Ghani Z, Ooi QQ, Mohamad D. Effects of home bleaching on surface hardness and surface roughness of an experimental nanocomposite. J Conserv Dent. 2013; 16(4): 356-361. http://dx.doi.org/10.4103/0972-0707.114362.
    » https://doi.org/10.4103/0972-0707.114362
  • 2
    Pasquali EL, Bertazzo CA, Anziliero L. Estudo dos efeitos do clareamento dental sobre o esmalte: uma revisão das evidências para a indicação clínica. Perspectiva, Erechim. 2014; 38(141): 99-108.
  • 3
    Cardoso PEC, Pinheiro HB, Lopes BA. Perguntas e respostas sobre o clareamento dental. Rev Assoc Paul Cir Dent. 2014; 68(3): 236-237. Disponível em: < http://revodonto.bvsalud.org/pdf/apcd/v68n3/a10v68n3.pdf>.
    » http://revodonto.bvsalud.org/pdf/apcd/v68n3/a10v68n3.pdf
  • 4
    Ramos AB, Monnerat AF, Perez CR. Avaliação da eficácia das fitas para clareamento dental. Rev. bras. odontol. 2014; 71(2): 198-202.
  • 5
    Demarco FF, Gluszevicz AC, Mendes MLM, do Nascimento MMC. Cabreira N. S. et al. Produtos de autocuidado para clareamento dental. RFO UPF. 2016; 21(1).
  • 6
    Fernandes HGK, Silva R, Marinho MAS, Oliveira POS, Ribeiro JCR, Moyses MR. Evolução das resinas compostas: revisão de literatura. Revista da universidade vale do rio verde. 2014; 12(2): 401-411. http://dx.doi.org/10.5892/ruvrd.v12i2.1465.
    » https://doi.org/10.5892/ruvrd.v12i2.1465
  • 7
    Aleixo RS, Bittencourt BF, Martins GC, Ficinski R, Gomes OMM, Farhat PA. Efeito do clareamento na susceptibilidade ao manchamento de uma resina composta. Odontol. Clín.-Cient. 2013; 12(1): 59-63.
  • 8
    Lima RBW, Oliveira JA, de Vasconcelos LC, Andrade AKM, Duarte RM. Avaliação da rugosidade superficial e análise morfológica de cimentos de ionômero de vidro: influência do armazenamento em saliva artificial. Rev Odontol UNESP. 2017;46(2): 116-123. https://doi.org/10.1590/1807-2577.20716
    » https://doi.org/10.1590/1807-2577.20716
  • 9
    Salvego RN, Dias RPB, Figueiredo JLG. Estabilidade de cor de resinas compostas no processo de manchamento e clareamento. Rev Dental Press Estét. 2013;10(3):54-62. Disponível em <https://www.dentalpress.com.br/portal/estabilidade-cor-resinas-compostas-processo-manchamento-clareamento/>
    » https://www.dentalpress.com.br/portal/estabilidade-cor-resinas-compostas-processo-manchamento-clareamento/
  • 10
    Gurgan S, Yalcin F. The effect of 2 different bleaching regimens on the surface roughness and hardness of toothcolored restorative materials. Quintessence Int. 2007; 38(2): 83-87. https://doi.org/10.1016/j.dental.2004.07.011
    » https://doi.org/10.1016/j.dental.2004.07.011
  • 11
    Silva VB, Ribeiro IC, Sena IAA, Vieira JIN, Seabra EJG, et al. Lisura superficial da resina composta frente a técnicas de polimento. Rev Bras Odontol. 2015;72(1-2): 47-50.
  • 12
    Ferreira H. de A, Carlo HL, e Silva FDCM, Meireles SS, Duarte RM, deAndrade AKM. Influência de agentes clareadores nas propriedades superficiais (rugosidade e microdureza) de uma cerâmica odontológica. Cerâmica. 2016;62(361):55-59. https://doi.org/10.1590/0366-69132016623611981
    » https://doi.org/10.1590/0366-69132016623611981
  • 13
    Bodanezi A, de Bittencourt ME, Bodanezi RV, Zottis T, Munhoz E, Carlini B. Surface modifications on aesthetically restored teeth following home bleaching with 16% peroxide carbamide. Eur J Dent. 2011; 5(2): 157-162.
  • 14
    Oliveira JR, Paradella TC, Rego MA, Koga-ito CY, Jorge AOC. Avaliação da aderência microbiana e rugosidade superficial de resina acrílica quimicamente ativada após clivagem com diferentes soluções desinfectantes. Ciênc Odontol Bras. 2007;10(2): 54-60.
  • 15
    Cruz J, Sousa T, Cavalheiro A, Pequeno A, Romão B, Coito C. Análise da rugosidade de superfície e da microdureza de 6 resinas compostas. Rev Port Estomatol Med Dent Cir Maxilofac. 2016; 57(1):38-45. https://doi.org/10.1016/j.rpemd.2015.11.010
    » https://doi.org/10.1016/j.rpemd.2015.11.010
  • 16
    Tapia LR, Amaral FLB, França FMG, Flório FM, Rodrigues JA, Basting RT. Rugosidade de resinas compostas submetidas a diferentes métodos de acabamento e polimento. Rev Odontol UNESP. 2012;41(4):254-259.
  • 17
    Pozzobon RT, Candido MSM, Rodrigues Júnior AL. Análise da rugorosidade superficial de materiais restauradores estéticos. Efeito de agentes clareadores e tempo. Rev Odonto Ciência. 2005;20(49):204-209.
  • 18
    Wattanapayungkul P, Yap AUJ. Effects of in-office bleanching products on surface finish of tooth-colored restorations. Oper Dent. 2003;28(1):15-19.
  • 19
    Silva JC, Silva DR, Barbosa DN. Estabilidade de cor da resina composta: Um desafio para a dentística restauradora. Arch Health Invest. 2017;6(10):451-457. http://dx.doi.org/10.21270/archi.v6i10.2240
    » https://doi.org/10.21270/archi.v6i10.2240
  • 20
    Awliya WY, Al-Alwani DJ, Gashmer ES, Al-Mandil HB. The effects of commonly used type of coffee on surface hardness and color stability of resin-based composite restorations. Saudi Dent J. 2010; 22(1):177-181. http://dx.doi.org/10.1016/j.sdentj.2010.07.008
    » https://doi.org/10.1016/j.sdentj.2010.07.008
  • 21
    Farinelli MV, de Paulo PR, Nogueira RD, Geraldo-Martins VR. Efeitos do clareamento dental em restaurações de resina com-posta. UNOPAR Cient Ciênc Biol Saúde. 2013;15(2):153-159.

Publication Dates

  • Publication in this collection
    13 Mar 2020
  • Date of issue
    2020

History

  • Received
    17 Nov 2018
  • Reviewed
    28 June 2019
  • Accepted
    10 Nov 2019
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