Peroxide bleaching agent effects on enamel surface microhardness, roughness and morphology

Pinto, Cristiane Franco; Oliveira, Rogério de; Cavalli, Vanessa; Giannini, Marcelo

doi:10.1590/S1806-83242004000400006

Abstracts

The aim of this study was to evaluate the surface roughness, microhardness and morphology of human enamel exposed to six bleaching agents (at baseline and post-treatment). Human dental enamel samples were obtained from human third molars and randomly divided into seven groups (n = 11): control, Whiteness Perfect - 10% carbamide peroxide (10% CP), Colgate Platinum - 10% CP, Day White 2Z - 7.5% hydrogen peroxide (7.5% HP), Whiteness Super - 37% CP, Opalescence Quick - 35% CP and Whiteness HP - 35% HP. Bleaching agents were applied according to manufacturers' instructions. The control group remained not treated and stored in artificial saliva. Microhardness testing was performed with a Knoop indentor and surface roughness was analyzed with a profilometer. Morphologic observations were carried out with scanning electron microscopy (SEM). Results were statistically analyzed by two-way analysis of variance and Tukey's test (5%), and revealed a significant decrease in microhardness values and a significant increase in surface roughness post-bleaching. Changes in enamel morphology after bleaching were observed under SEM. It was concluded that bleaching agents can alter the microhardness, roughness and morphology of dental enamel surface.

Tooth bleaching; Peroxides; Dental enamel

O objetivo deste estudo foi avaliar a rugosidade, microdureza e morfologia superficial do esmalte dental humano tratado com seis agentes clareadores (antes e depois do tratamento). Amostras de esmalte dental humano foram obtidas de terceiros molares e aleatoriamente distribuídas em sete grupos (n = 11): controle, Whiteness Perfect - peróxido de carbamida a 10% (PC 10%), Colgate Platinum - PC 10%, Day White 2Z - peróxido de hidrogênio a 7,5% (PH 7,5%), Whiteness Super - PC 37%, Opalescence Quick - PC 35% e Whiteness HP - PH 35%. Os agentes clareadores foram aplicados de acordo com as instruções dos fabricantes. O grupo controle permaneceu sem tratamento e armazenado em saliva artificial. O teste de microdureza foi realizado com o indentador Knoop, e a rugosidade superficial foi verificada através do rugosímetro. Observações morfológicas foram realizadas através de microscopia eletrônica de varredura (MEV). Os resultados foram estatisticamente analisados com ANOVA (dois fatores) e teste Tukey (5%) e revelaram uma redução significante nos valores de microdureza e um aumento significante da rugosidade de superfície após o clareamento. Alterações na morfologia do esmalte após o clareamento foram observadas através de MEV. Concluiu-se que os agentes clareadores podem alterar a microdureza, rugosidade e morfologia superficial do esmalte dental.

Clareamento de dente; Peróxidos; Esmalte dentário

RESTORATIVE DENTISTRY

Peroxide bleaching agent effects on enamel surface microhardness, roughness and morphology

Efeitos de agentes clareadores à base de peróxidos na microdureza, rugosidade e morfologia superficial do esmalte

Cristiane Franco Pinto^I; Rogério de Oliveira^II; Vanessa Cavalli^III; Marcelo Giannini^IV

^IMaster's Degree Student

^IIMS, Private Practice, Brasília

^IIIMS, PhD Student

^IVAssociate Professor Department of Restorative Dentistry, School of Dentistry of Piracicaba, State University of Campinas

ABSTRACT

The aim of this study was to evaluate the surface roughness, microhardness and morphology of human enamel exposed to six bleaching agents (at baseline and post-treatment). Human dental enamel samples were obtained from human third molars and randomly divided into seven groups (n = 11): control, Whiteness Perfect - 10% carbamide peroxide (10% CP), Colgate Platinum - 10% CP, Day White 2Z - 7.5% hydrogen peroxide (7.5% HP), Whiteness Super - 37% CP, Opalescence Quick - 35% CP and Whiteness HP - 35% HP. Bleaching agents were applied according to manufacturers' instructions. The control group remained not treated and stored in artificial saliva. Microhardness testing was performed with a Knoop indentor and surface roughness was analyzed with a profilometer. Morphologic observations were carried out with scanning electron microscopy (SEM). Results were statistically analyzed by two-way analysis of variance and Tukey's test (5%), and revealed a significant decrease in microhardness values and a significant increase in surface roughness post-bleaching. Changes in enamel morphology after bleaching were observed under SEM. It was concluded that bleaching agents can alter the microhardness, roughness and morphology of dental enamel surface.

Descriptors: Tooth bleaching; Peroxides; Dental enamel.

RESUMO

O objetivo deste estudo foi avaliar a rugosidade, microdureza e morfologia superficial do esmalte dental humano tratado com seis agentes clareadores (antes e depois do tratamento). Amostras de esmalte dental humano foram obtidas de terceiros molares e aleatoriamente distribuídas em sete grupos (n = 11): controle, Whiteness Perfect - peróxido de carbamida a 10% (PC 10%), Colgate Platinum - PC 10%, Day White 2Z - peróxido de hidrogênio a 7,5% (PH 7,5%), Whiteness Super - PC 37%, Opalescence Quick - PC 35% e Whiteness HP - PH 35%. Os agentes clareadores foram aplicados de acordo com as instruções dos fabricantes. O grupo controle permaneceu sem tratamento e armazenado em saliva artificial. O teste de microdureza foi realizado com o indentador Knoop, e a rugosidade superficial foi verificada através do rugosímetro. Observações morfológicas foram realizadas através de microscopia eletrônica de varredura (MEV). Os resultados foram estatisticamente analisados com ANOVA (dois fatores) e teste Tukey (5%) e revelaram uma redução significante nos valores de microdureza e um aumento significante da rugosidade de superfície após o clareamento. Alterações na morfologia do esmalte após o clareamento foram observadas através de MEV. Concluiu-se que os agentes clareadores podem alterar a microdureza, rugosidade e morfologia superficial do esmalte dental.

Descritores: Clareamento de dente; Peróxidos; Esmalte dentário.

INTRODUCTION

Since the introduction of the nightguard vital bleaching technique using 10% carbamide peroxide⁹, studies have been performed in order to evaluate the adverse effects produced during and after whitening procedures^4,5,15,18,21. In this conventional bleaching technique, patients wear a customized tray containing the bleaching agent during 5 to 8 hours a day, for 2 to 5 weeks. In an attempt to produce whitening effects similar to those produced by the conventional 10% carba-mide peroxide technique and reduce the whitening treatment period and application time, other bleaching protocols can be used.

Alternative bleaching treatments comprise whitening products with modifications in gel composition or increased peroxide concentrations^7,10,14. These bleaching agents include those designed for professional use only containing high concentrations of peroxides (35 to 37%) and patient-applied tooth whiteners with low carbamide (10 to 20%) and hydrogen (3 to 7.5%) peroxide concentrations^16,19.

Evidence demonstrates that enamel presents structural changes when exposed to 10% carba-mide peroxide, compromising its composition and morphology^{1,11,15,18,21}. However, there is little information about the effects of whitening products that present different peroxide concentrations, formulations and application protocols on enamel surface.

The purpose of this in vitro study was to evaluate the effects of bleaching agents containing high concentration of peroxides for professional use only and materials dispensed and monitored by dentists and used by patients at home on human enamel surface. Knoop microhardness and surface roughness were measured to analyze alterations on bleached enamel surfaces. In addition, enamel surface morphology was observed under scanning electron microscopy (SEM). The hypothesis tested was that different bleaching treatments affect the enamel surface.

MATERIAL AND METHODS

Specimen preparation

Forty extracted sound human third molars, stored in 0.1% buffered thymol solution (LabSynth, Diadema, SP, Brazil) for no longer than four weeks after extraction were used in this study. The teeth were obtained after informed consent by the patients and under the protocol (106/2001) that was analyzed and approved by the Ethical Research Committee, School of Dentistry of Piracicaba, State University of Campinas. The teeth were cleaned of gross debris and placed in deionized water for twenty-four hours before the experiment was initiated.

Roots were removed and approximately 77 enamel fragments were obtained from the crowns with a diamond saw (Isomet 1000, Buehler Ltd., Lake Bluff, IL, USA) under water lubrication. Each dental fragment (5 mm x 5 mm x 2.5 mm) was embedded in self-curing polystyrene resin cylinders (Piraglass Com. e Ind., Piracicaba, SP, Brazil) (1.5 cm wide by 1.5 cm high). Enamel surfaces were flattened with wet 600-, 1,000- and 1,200-grit aluminum oxide abrasive papers (3M, Sumaré, SP, Brazil) and polished with 6, 3, 1 and ¼ µm-grit diamond pastes (Arotec S.A. Ind. e Com., Cotia, SP, Brazil) on a polishing machine (APL-4, Arotec S.A. Ind. e Com., Cotia, SP, Brazil).

Experimental groups

Specimens were randomly divided into seven groups (n = 11), six with different bleaching agents and a control group. Table 1 shows the composition, manufacturer and bleaching regimen of the whitening products used in this study.

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The control group was kept in artificial saliva⁴ at 37°C for two weeks. For groups treated with Whiteness Perfect (10% carbamide peroxide - CP), Colgate Platinum (10% CP) and Day White 2Z (7.5% hydrogen peroxide - HP), enamel surface was daily exposed to a mixture of 0.1 ml of the respective bleaching agent with 0.05 ml of artificial saliva⁴, according to each bleaching regimen. For groups treated with Whiteness Super (37% CP), Opalescence Quick (35% CP) and Whiteness HP (35% HP), only 0.1 ml of bleaching agent was applied to enamel. During the bleaching period, specimens were placed in 100% relative humidity at 37°C. After each bleaching session, specimens were thoroughly rinsed with deionized water for 10 seconds and stored in 0.5 ml of artificial saliva at 37°C until the next treatment. Following the bleaching regimen, specimens were rinsed and stored in deionized water for 24 h at 37°C before being tested.

Microhardness testing

Microhardness measurements were taken before initial exposure to the bleaching agents (baseline) and post-treatment. Specimens were positioned perpendicularly to the long axis of the indentor to record the Knoop hardness number (KHN). A 25 g load Knoop indentor³ (Future Tech, Tokyo, Japan) attached to a microhardness tester (FM-1e, Future Tech, Tokyo, Japan) performed three measurements during 5 seconds to determine the KHN of each specimen at each time interval in split-plot design. Mean values were statistically analyzed by two-way analysis of variance (ANOVA) and Tukey's test at the 5% level of significance.

Roughness testing

A profilometer (Surf-Corder SE 1200, Kosaka Lab Ltd., Tokyo, Japan) was used to measure the surface roughness before (baseline) and after bleaching procedures. Three measurements in different directions were recorded and the average surface roughness (Ra) was determined for each specimen at each time interval in split-plot design. Mean values were statistically analyzed by two-way analysis of variance (ANOVA) and Tukey's test at the 5% level of significance.

SEM observation

Dental fragments were removed from the resin cylinders and enamel surfaces were prepared for the scanning electron microscope (VP 435, Leo, Cambridge, England). Enamel surfaces were sputter coated with gold in a vacuum evaporator (MED 010, Balzers, Balzer, Liechtenstein) and photomicrographs of representative areas were taken at 5,000 X magnifications. The enamel changes were classified as no alterations, mild or slight alterations (slight alterations in surface roughness and irregular patterns of conditioning) and altered surfaces (loss of superficial structure).

RESULTS

Tables 2 and 3 present the KHN and Ra values for each bleaching agent at different time intervals, respectively. For both tests, the mean values followed normal distribution and ANOVA detected statistically significant differences among groups (p < 0.001 and p = 0.0103, respectively) and between time intervals (p < 0.001). The interactions between factors (bleaching agents and time intervals) were also significant (p < 0.001 and p = 0.0372, respectively).

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Tukey's test showed that initial KHN was similar for all groups (p > 0.05). However, specimens submitted to all bleaching regimens presented reduction in KHN (p < 0.05). Moreover, all groups presented similar initial Ra values (p > 0.05). After bleaching treatments, enamel presented increased surface roughness (p < 0.05). However, only high-concentrated hydrogen peroxide (35%) produced Ra values significantly higher than those of the control group, which was kept in artificial saliva (p < 0.05).

A representative photomicrograph of polished enamel surface stored 14 days in artificial saliva (control group) is shown in Figure 1. No significant morphologic alterations were detected on unbleached enamel surfaces. Bleached groups showed alterations on surface smoothness and presented different levels of surface changes (Figures 2 to 7). While Whiteness Super bleaching agent regimen (37% carbamide peroxide) induced minor alterations on enamel surface (Figure 5), hydrogen peroxide used in high concentration (Whiteness HP - 35%) promoted dissolution of some enamel superficial areas (Figure 7).

DISCUSSION

In this study, after all bleaching regimens, enamel surface presented reduction in Knoop microhardness and increase in surface roughness. While alterations on enamel surface produced by bleaching oxidizing process roughened the surface, the loss of mineral content and organic matrix decreased enamel microhardness. Previous studies have shown changes in enamel components and morphology^1,6,11,18, microhardness^1,6 and fracture toughness^4,21 reduction after bleaching with 10% carbamide peroxide.

Specimens from the control group, stored in artificial saliva for 2 weeks, showed no changes in Knoop microhardness, surface roughness or morphology. Therefore, artificial saliva had no effect on enamel surface (Figure 1). Conversely, regardless of the whitening product used, bleaching agents showed similar performance in both enamel superficial analysis, although the products present different bleaching regimen, composition and peroxide concentration. SEM evaluation revealed surface alterations on enamel after all bleaching procedures. Micrographs of the bleached enamel surfaces showed pits, waviness, erosions and surface roughness (Figures 2 to 7).

The group using hydrogen peroxide in high concentration (Whiteness HP - 35%) was the only one presenting Ra values significantly higher than those of the control group. Previous studies have indicated that 30-35% hydrogen peroxide causes superficial alterations and reduction in the calcium-phosphorus ratio^13,15,20,22. Because 35% hydrogen peroxide is a strong oxidizing agent, it is indicated for professional use only at the dental office. In this study, after 35% hydrogen peroxide treatment, some areas of enamel surface presented no alterations. However, in other areas, demineralization and lack of smoothness probably resulted in an increase of average surface roughness (Figure 7).

High concentration of carbamide peroxide (35-37%) is indicated as pre-treatment and in association with at-home vital bleaching. These products are for professional use only, even though approximately 11% of hydrogen peroxide is produced after the peroxide degradation. Minor superficial alterations were noted for 37% carbamide peroxide Whiteness Super bleaching agent under SEM (Figure 5). The alterations produced by high concentrations of carbamide peroxide (Figure 6) were similar to those produced by whitening products indicated for at-home use (Figures 2 to 4). Use of a custom-fitted tray as a carrier for low concentrations of carbamide (10%) and hydrogen peroxide (7.5%) for prolonged periods (2-5 weeks) during the day or at night is conventional bleaching technique recommended by dentists. According to clinical experiences and researches, daily exposure to 10% carbamide peroxide is an apparently safe and effective procedure for whitening tooth hard tissues^9,10,16.

As a result of bleaching regimens, the reduction in Knoop microhardness due to mineral loss can be naturally controlled by saliva and with remineralizing solution, such as artificial saliva and fluorides^1,4,8,18. In vitro studies seem to yield more pronounced effects than in vivo conditions¹². However, no remineralizing effect can recover the enamel initial surface roughness promoted by polishing with diamond pastes during specimen preparation. Clinically, to recover enamel smoothness and restore its lustrous surface altered by the application of high-concentrated hydrogen peroxide gels, polishing enamel after bleaching sessions is required^2,9,17. However, polishing procedures can result in enamel loss of some micrometers, reducing enamel thickness and removal of the superficial layer.

CONCLUSIONS

After bleaching procedures, all bleaching agents promoted a reduction in enamel microhardness and an increase in surface roughness.
Compared to unbleached specimens stored in artificial saliva, the exposure to 35% hydrogen peroxide increased roughness and significantly altered enamel superficial morphology.

ACKNOWLEDGMENTS

The authors are indebted to Dr. E. W. Kitajima, Nucleus of Research Support, Electron Microscopy Center (NAP/MEPA-ESALQ-USP) for electron microscopy support. This study was supported by grants 01/13034-3 and 01/02771-7 (FAPESP), and by PIBIC/CNPq-PRP/UNICAMP.

Received for publication on May 18, 2004

Sent for alterations on Sep 29, 2004

Accepted for publication on Nov 23, 2004

1. Akal N, Over H, Olmez A, Bodur H. Effects of carbamide peroxide containing bleaching agents on the morphology and subsurface hardness of enamel. J Clin Pediatr Dent 2001;25:293-6.
2. Arens D. The role of bleaching in esthetics. Dent Clin North Am 1989;33:319-36.
3. Argenta RM, Tabchoury CP, Cury JA. A modified pH-cycling model to evaluate fluoride effect on enamel demineralization. Pesqui Odontol Bras 2003;17:241-6.
4. Cavalli V, Giannini M, Carvalho RM. Effect of carbamide peroxide bleaching agents on tensile strength of human enamel. Dent Mater 2004;8:733-9.
5. Cavalli V, Reis AF, Giannini M, Ambrosano GMB. The effect of elapsed time following bleaching on enamel bond strength of resin composite. Oper Dent 2001;26:597-602.
6. Cimilli H, Pameijer CH. Effect of carbamide peroxide bleaching agents on the physical properties and chemical composition of enamel. Am J Dent 2001;14:63-6.
7. Clark DM, Hintz J. Case report: in-office tooth whitening procedure with 35% carbamide peroxide evaluated by the Minolta CR-321 Chroma Meter. J Esthet Dent 1998;10:37-42.
8. Flaitz CM, Hicks MJ. Effects of carbamide peroxide whitening agents on enamel surfaces and caries-like lesion formation: an SEM and polarized light microscopic in vitro study. ASDC J Dent Child 1996;63:249-56.
9. Haywood VB, Heymann HO. Nightguard vital bleaching. Quintessence Int 1989;20:173-6.
10. Haywood VB, Robinson RG. Vital tooth bleaching with nightguard vital bleaching. Curr Opin Cosmet Dent 1997;4:45-52.
11. Hegedüs C, Bistey T, Flóra-Nagy E, Keszthelyi G, Jenei A. An atomic force microscopy study on the effect of bleaching agents on enamel surface. J Dent 1999;27:509-15.
12. Justino LM, Tames DR, Demarco FF. In situ and in vitro effects of bleaching with carbamide peroxide on human enamel. Oper Dent 2004;29:219-25.
13. Lee CQ, Cobb CM, Zargartalebi F, Hu N. Effect of bleaching on microhardness, morphology, and color of enamel. Gen Dent 1995;43:158-62.
14. Lyons K, Ng B. Nightguard vital bleaching: a review and clinical study. N Z Dent J 1998;94:100-5.
15. McGuckin RS, Babin JF, Meyer BJ. Alterations in human enamel surface morphology following vital bleaching. J Prosthet Dent 1992;68:754-60.
16. Mokhlis GR, Matis BA, Cochran MA, Eckert GJ. A clinical evaluation of carbamide peroxide and hydrogen peroxide whitening agents during daytime use. J Am Dent Assoc 2000;131:1269-77.
17. Nathanson D, Parra C. Bleaching vital teeth: a review and clinical study. Compendium 1987;8:490-2,494,496-7.
18. Perdigão J, Francci C, Swift EJ Jr, Ambrose WW, Lopes M. Ultra-morphological study of the interaction of dental adhesives with carbamide peroxide-bleached enamel. Am J Dent 1998;11:291-301.
19. Price RBT, Sedarous M, Hiltz GS. The pH of tooth-whitening products. J Can Dent Assoc 2000;66:421-6.
20. Rotstein I, Dankner E, Goldman A, Heling I, Stabholz A, Zalkind M. Histochemical analysis of dental hard tissues following bleaching. J Endod 1996;22:23-6.
21. Seghi RR, Denry I. Effects of external bleaching on indentation and abrasion characteristics of human enamel in vitro J Dent Res 1992;71:1340-4.
22. Titley K, Torneck CD, Smith D. The effect of concentrated hydrogen peroxide solutions on the surface morphology of human tooth enamel. J Endod 1988;14:69-74.

Publication Dates

Publication in this collection
08 Apr 2005
Date of issue
Dec 2004

History

Accepted
23 Nov 2004
Reviewed
29 Sept 2004
Received
18 May 2004

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] 1. Akal N, Over H, Olmez A, Bodur H. Effects of carbamide peroxide containing bleaching agents on the morphology and subsurface hardness of enamel. J Clin Pediatr Dent 2001;25:293-6.

[2] 2. Arens D. The role of bleaching in esthetics. Dent Clin North Am 1989;33:319-36.

[3] 3. Argenta RM, Tabchoury CP, Cury JA. A modified pH-cycling model to evaluate fluoride effect on enamel demineralization. Pesqui Odontol Bras 2003;17:241-6.

[4] 4. Cavalli V, Giannini M, Carvalho RM. Effect of carbamide peroxide bleaching agents on tensile strength of human enamel. Dent Mater 2004;8:733-9.

[5] 5. Cavalli V, Reis AF, Giannini M, Ambrosano GMB. The effect of elapsed time following bleaching on enamel bond strength of resin composite. Oper Dent 2001;26:597-602.

[6] 6. Cimilli H, Pameijer CH. Effect of carbamide peroxide bleaching agents on the physical properties and chemical composition of enamel. Am J Dent 2001;14:63-6.

[7] 7. Clark DM, Hintz J. Case report: in-office tooth whitening procedure with 35% carbamide peroxide evaluated by the Minolta CR-321 Chroma Meter. J Esthet Dent 1998;10:37-42.

[8] 8. Flaitz CM, Hicks MJ. Effects of carbamide peroxide whitening agents on enamel surfaces and caries-like lesion formation: an SEM and polarized light microscopic in vitro study. ASDC J Dent Child 1996;63:249-56.

[9] 9. Haywood VB, Heymann HO. Nightguard vital bleaching. Quintessence Int 1989;20:173-6.

[10] 10. Haywood VB, Robinson RG. Vital tooth bleaching with nightguard vital bleaching. Curr Opin Cosmet Dent 1997;4:45-52.

[11] 11. Hegedüs C, Bistey T, Flóra-Nagy E, Keszthelyi G, Jenei A. An atomic force microscopy study on the effect of bleaching agents on enamel surface. J Dent 1999;27:509-15.

[12] 12. Justino LM, Tames DR, Demarco FF. In situ and in vitro effects of bleaching with carbamide peroxide on human enamel. Oper Dent 2004;29:219-25.

[13] 13. Lee CQ, Cobb CM, Zargartalebi F, Hu N. Effect of bleaching on microhardness, morphology, and color of enamel. Gen Dent 1995;43:158-62.

[14] 14. Lyons K, Ng B. Nightguard vital bleaching: a review and clinical study. N Z Dent J 1998;94:100-5.

[15] 15. McGuckin RS, Babin JF, Meyer BJ. Alterations in human enamel surface morphology following vital bleaching. J Prosthet Dent 1992;68:754-60.

[16] 16. Mokhlis GR, Matis BA, Cochran MA, Eckert GJ. A clinical evaluation of carbamide peroxide and hydrogen peroxide whitening agents during daytime use. J Am Dent Assoc 2000;131:1269-77.

[17] 17. Nathanson D, Parra C. Bleaching vital teeth: a review and clinical study. Compendium 1987;8:490-2,494,496-7.

[18] 18. Perdigão J, Francci C, Swift EJ Jr, Ambrose WW, Lopes M. Ultra-morphological study of the interaction of dental adhesives with carbamide peroxide-bleached enamel. Am J Dent 1998;11:291-301.

[19] 19. Price RBT, Sedarous M, Hiltz GS. The pH of tooth-whitening products. J Can Dent Assoc 2000;66:421-6.

[20] 20. Rotstein I, Dankner E, Goldman A, Heling I, Stabholz A, Zalkind M. Histochemical analysis of dental hard tissues following bleaching. J Endod 1996;22:23-6.

[21] 21. Seghi RR, Denry I. Effects of external bleaching on indentation and abrasion characteristics of human enamel in vitro J Dent Res 1992;71:1340-4.

[22] 22. Titley K, Torneck CD, Smith D. The effect of concentrated hydrogen peroxide solutions on the surface morphology of human tooth enamel. J Endod 1988;14:69-74.

Brasil

Brasil

Peroxide bleaching agent effects on enamel surface microhardness, roughness and morphology

Efeitos de agentes clareadores à base de peróxidos na microdureza, rugosidade e morfologia superficial do esmalte

Abstracts

Publication Dates

History