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International Journal of Morphology

On-line version ISSN 0717-9502

Int. J. Morphol. vol.29 no.1 Temuco Mar. 2011

http://dx.doi.org/10.4067/S0717-95022011000100020 

Int. J. Morphol., 29(1):118-122, 2011.

 

In vitro Analysis of Morphology of Human Enamel Submitted to Excessive Use of External Bleaching Agents

 


Análisis in vitro de la Morfología del Esmalte Humano Sometido
a un Uso Excesivo de Agentes Blanqueadores Externos

 

Rafael Binato Junqueira; Rodrigo Furtado de Carvalho; Alberto Nogueira da Gama Antunes; Sonia Sotto-Maior Fortes Garcia Rodrigues; Roberto Sotto-Maior Fortes de Oliveira & Luciana Andrea Salvio

Federal University of Juiz de Fora, Brazil.

Correspondence to:


SUMMARY: The aim of this study was to evaluate the effects of external bleaching agents on morphology of human enamel after excessive homemade dental bleaching. 20 intact human third molars were submitted to mesio-distal crosscut and embedded in polystyrene resin. The specimens were submitted to finish and a half of enamel surface of each specimen was covered with cosmetic varnish, meaning control group (G0). The specimens were randomly divided into four groups (n=10): G1 ­ 1 bleaching session by 16% carbamide peroxide; G2 ­ 3 bleaching sessions by 16% carbamide peroxide; G3 ­ 1 bleaching session by 22% carbamide peroxide; G4 ­ 3 bleaching sessions by 22% carbamide peroxide. Each session lasted 8 hours a day, during two weeks, with 45 days of interval between sessions. In this period, the specimens were kept in artificial saliva at 37°C. The specimens were observed by scanning electron microscopy and the results showed depression areas, irregularities, erosion, and enamel prisms exposition, which was more evident in G4. It can be concluded that the excess of bleaching produced many alterations on enamel surface, mainly when was used carbamide peroxide in higher concentration.

KEY WORDS: Dental bleaching; Dental enamel; Peroxides.


RESUMEN: El objetivo de este estudio fue evaluar los efectos en la morfología externa del esmalte humano al utilizar excesivamente agentes blanqueadores dentales de uso casero. Se cortaron 20 intactos terceros molares humanos en sentido mesiodistal, luego fueron sumergidas las porciones radiculares en resina de poliestireno. Las muestras fueron pulidas, cubriendo la mitad de la superficie del esmalte con barniz cosmético, representando así al grupo control (G0). Las muestras fueron distribuidas aleatoriamente en cuatro grupos (n=10): G1-Una sesión de blanqueamiento con peróxido de carbamida al 16%, G2. Tres sesiones de blanqueamiento con peróxido de carbamida al 16%, G3-Una sesión de blanqueamiento con peróxido de carbamida al 22%, G4- Tres sesiones de blanqueamiento con peróxido de carbamida al 22%. Cada sesión tuvo una duración de 8 horas diarias durante dos semanas con 45 días de intervalo entre sesiones. Durante ese periodo las muestras fueron mantenidas en saliva artificial a 37°C. Las muestras fueron observadas al microscopio electrónico de barrido, mostrando aéreas de depresión, irregularidades, erosiones y exposición de prismas del esmalte. Esto fue más evidente en G4. Se puede concluir que el exceso de blanqueamiento producido muchas alteraciones en la superficie del esmalte, sobre todo cuando se utilizó peróxido de carbamida en alta concentración.

PALABRAS CLAVE: Blanqueamiento dental; Esmalte dental; Peróxidos.


INTRODUCTION

The homemade dental bleaching is an aesthetic treatment that has received more acceptance by patients and dentists, and their risks and benefits for dental structures are still discussed (Justino et al., 2004; Attia et al., 2009; Lozada et al., 2000).

The dental market has products with concentrations of 10 to 35% of carbamide peroxide, and the first are between 10 and 15%. In contact with saliva and oral tissues, carbamide peroxide decomposes in hydrogen peroxide (active agent) and urea. The lower molecular weight of hydrogen peroxide allows it to freely transit by interprismatic spaces, through enamel and dentin, causing oxidation of pigments in these structures. Therefore, compounds with pigmented carbon rings are converted in clearer chains, resulting in dental bleaching effect (Minoux & Serfaty, 2008; Basting, 2005; Rodrigues et al., 2007; Sulieman, 2000).

Studies have shown that there is a possibility of subclinical changes in superficial micromorphology of the enamel (Basting; Pinto et al., 2004; Miranda et al., 2005; Lopes et al., 2002), although the possibility of reversing these changes is not established yet.

The dental bleaching using carbamide peroxide for long periods also destroys different layers of enamel and produces loss of minerals. Changes may occur on the enamel, dentin e cementum after bleaching. Bleaching agents probably lead to cell destruction of the pulp due to enzymatic inactivation and rupture of normal cellular activity (Portolani & Candido, 2005).

Society aesthetic appeal leads people to look for whiter teeth. The facility of accessing bleaching agents makes us alert to enlargement of indiscriminate use of these drugs.

The aim of this study was to evaluate, in vitro, the effects of external bleaching agents on human enamel morphology after excessive homemade dental bleaching.

 

MATERIAL AND METHOD

Preparation of specimens. The research project of this study was approved by the Ethics Committee in Human Research, of Federal University of Juiz de Fora, MG, Brazil, under report number 113/2008.

Twenty intact human third molars extracted for clinical reasons were cleaned and frozen in saline solution. After defrost at 25C, the roots of the teeth were removed and were submitted to mesio-distal crosscut, using both cuts, diamond disk (Labcut 1010 Low Speed Diamond Saw - EXTEC, Chicago, USA), in both, under water refrigeration. Vestibular and lingual surfaces were used in this study. These were embedded in polystyrene resin, obtaining 40 specimens. They were submitted to finish, using wet sandpaper with decreasing granulation (400, 600, 800, 1200, 1500 and 2000) under refrigeration until exposing flat enamel areas. A half of the enamel surface in each specimen was covered with cosmetic varnish (Revlon Incorporated, New York, NY, USA), meaning control group (G0). The other half would be later submitted to bleaching agent.

Experimental groups. The specimens were randomly divided into four groups, as shown in Table I. In the period between sessions, the specimens were kept in artificial saliva at 37°C.

Analysis of Scanning Electron Microscopy. The teeth fragments were removed from polystyrene resin and dehydrated in alcohol and HMDS. Then, they were embedded in stubs and metalized in gold-palladium alloy (MED 010, Balzers Union, Blazers, Linchenstein) to observation in scanning electron microscope (JEOL, JMS ­ 5600 LV, Scanning Electron Microscope, Tokyo, Japan). The enamel surfaces were examined with increased 1000x, 5000x and 10000x.

RESULTS

The photomicrography representing superficial morphology of non-bleached (G0) and bleached parts of each group is shown in Figures 1 to 8.

 


Fig. 1. SEM image of a non-bleached enamel
region of a G1 specimen.


Fig. 2. SEM image of a bleached enamel region of a G1
specimen, showing irregularities and depression areas.


Fig. 3. SEM image of a non-bleached enamel
region of a G2 specimen.


Fig. 4. SEM image of a bleached enamel region of a G2 specimen,
showing irregularities and depression areas.


Fig. 5. SEM image of a non-bleached
enamel region of a G3 specimen.

Fig. 6. SEM image of a bleached enamel region of a G3
specimen, showing irregularities and depression areas.

Fig. 7. SEM image of a non-bleached
enamel region of a G4 specimen.

Fig. 8. SEM image of a bleached enamel region of a G4
specimen, showing exposition of enamel prisms and increase
of the irregularities depth and pores.

There were no significant morphological alterations on non-bleached enamel surfaces in different groups. Moreover, bleached surfaces showed some significant changes. Irregularities and depression areas were more evident in groups 1, 2 and 3. Specimens treated with 22% carbamide peroxide by three sessions (G4) presented enamel prisms exposition, depressions, erosion, increase of the irregularities depth and pores.

DISCUSSION

The results of this study indicated that carbamide peroxide, in 16 or 22% concentration, caused alterations on human enamel morphology. In accordance, some studies have been showing changes on enamel superficial morphology, as loss of hydroxyapatite crystals (Basting; Pinto et al.; Miranda et al.; Lopes et al.) after homemade dental bleaching using carbamide peroxide.

Some studies found no alterations in the enamel bleached with carbamide peroxide at low concentrations (10%), concluding that there is no risk when using it for two to five weeks in homemade dental bleaching (Dudea et al., 2009; Çobankara et al., 2004; Meireles et al., 2008; Pugh et al., 2005; Peña & Cabrita, 2006; Caballero et al.,

2006).However, there are no tests using the same peroxide at 22% concentration for six weeks, as shown in this study.

Changes on surface morphology were more evident in specimens bleached with carbamide peroxide 22% for three sessions (G4).In figure 8 we could observe the loss of aprismatic layer, depressions, erosion, increase of the irregularities depth and pores, when compared to other groups. Such changes may be related to a significant reduction in microhardness in these specimens excessively bleached, as reported by Pinto et al.

Another fact to be considered is the influence of storage solution. According to some authors, the artificial saliva, where specimens are kept in the period between applications of the bleaching agent, lead to the remineralization of the bleached enamel surface (Miranda et al.; Maia et al., 2008). This fact was not observed in this study, since there were morphological changes compared with the non-bleached enamel.

In light of the facts presented it was concluded that the excess of bleaching, both in time and concentration, had a negative influence on the morphology of enamel.As a clinical implication it is worth noting that the home dental bleaching should be done with caution, since changes are evident.

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Rafael Binato Junqueira
Universidade Federal de Juiz de Fora
Faculdade de Odontologia
Campus Universitário, s/n
Martelos 36036-900
Juiz de Fora
MG ­ BRAZIL

Received: 17-08-2010
Accepted: 21-11-2010

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