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Effect of CPP-ACP paste with and without CO2 laser irradiation on demineralized enamel microhardness and bracket shear bond strength

ABSTRACT

Introduction:

Many patients seeking orthodontic treatment already have incipient enamel lesions and should be placed under preventive treatments. The aim of this in vitro study was to evaluate the effect of CPP-ACP paste and CO2 laser irradiation on demineralized enamel microhardness and shear bond strength of orthodontic brackets.

Methods:

Eighty caries-free human premolars were subjected to a demineralization challenge using Streptococcus mutans. After demineralization, the samples were randomly divided into five equal experimental groups: Group 1 (control), the brackets were bonded without any surface treatment; Group 2, the enamel surfaces were treated with CPP-ACP paste for 4 minutes before bonding; Group 3, the teeth were irradiated with CO2 laser beams at a wavelength of 10.6 µm for 20 seconds. The samples in Groups 4 and 5 were treated with CO2 laser either before or through CPP-ACP application. SEM photomicrographs of a tooth from each group were taken to observe the enamel surface. The brackets were bonded to the buccal enamel using a conventional method. Shear bond strength of brackets and ARI scores were measured. Vickers microhardness was measured on the non-bonded enamel surface. Data were analyzed with ANOVA and Tukey test at the p< 0.05 level.

Results:

The mean shear bond strength and microhardness of the laser group were higher than those in the control group and this difference was statistically significant (p< 0.05). All groups showed a higher percentage of ARI score 4.

Conclusion:

CO2 laser at a wavelength of 10.6 µm significantly increased demineralized enamel microhardness and enhanced bonding to demineralized enamel.

Keywords:
Orthodontics; Bonding; Enamel; Casein phosphopeptide-amorphous calcium phosphate; Laser.

RESUMO

Introdução:

muitos pacientes, ao buscar o tratamento ortodôntico, já apresentam lesões incipientes no esmalte e precisam ser submetidos a tratamentos preventivos. O objetivo do presente estudo in vitro foi avaliar o efeito da pasta CPP-ACP e da irradiação com laser de CO2 na microdureza do esmalte desmineralizado e na resistência ao cisalhamento de braquetes ortodônticos.

Métodos:

oitenta pré-molares humanos hígidos foram submetidos a desmineralização usando Streptococcus mutans. Após a desmineralização, as amostras foram divididas aleatoriamente em cinco grupos experimentais: Grupo 1 (controle), os braquetes foram colados sem qualquer tratamento de superfície; Grupo 2, a superfície do esmalte foi tratada com pasta CPP-ACP por 4 minutos antes da colagem; Grupo 3, os dentes foram irradiados com laser de CO2 no comprimento de onda de 10,6 µm, por 20 segundos; Grupos 4 e 5, as amostras foram tratadas com laser de CO2 antes ou durante a aplicação de CPP-ACP. Foram feitas fotomicrografias por Microscopia Eletrônica de Varredura (MEV) de um dente de cada grupo, para avaliação da superfície do esmalte. Os braquetes foram colados ao esmalte na face vestibular, usando-se o método convencional. Foram medidos a resistência ao cisalhamento dos braquetes e o escore do Índice de Adesivo Remanescente (ARI). A microdureza Vickers foi medida nas superfícies do esmalte onde não foi realizada colagem. Os dados foram analisados com ANOVA e teste Tukey ao nível de p< 0,05.

Resultados:

a média da força de resistência ao cisalhamento e da microdureza do grupo laser foi superior à do grupo controle, com diferença estatisticamente significativa (p < 0,05). Todos os grupos apresentaram maior porcentagem do escore ARI=4.

Conclusões:

o laser de CO2 no comprimento de onda de 10,6 µm aumentou significativamente a microdureza do esmalte desmineralizado e melhorou a adesão dos braquetes nele.

Palavras-chave:
Ortodontia; Colagem; Esmalte; Fosfopeptídeo de caseína-fosfato de cálcio amorfo; Laser.

INTRODUCTION

Areas of early enamel demineralization are called white spots because of the chalky white color compared to normal enamel.11 Behnan SM, Arruda AO, Gonzalez-Cabezas C, Sohn W, Peters MC. In-vitro evaluation of various treatments to prevent demineralization next to orthodontic brackets. Am J Orthod Dentofacial Orthop. 2010 Dec;138(6):712 e1-7; discussion -3. According to Gorelick et al22 Gorelick L, Geiger AM, Gwinnett AJ. Incidence of white spot formation after bonding and banding. Am J Orthod. 1982 Feb;81(2):93-8., 24% of patients referred to orthodontic offices already had white spots before treatment is initiated and half of the patients undergoing fixed orthodontic treatment had non-developmental white spot lesions.22 Gorelick L, Geiger AM, Gwinnett AJ. Incidence of white spot formation after bonding and banding. Am J Orthod. 1982 Feb;81(2):93-8. Patients with dmft (number of decayed, missing or filled teeth) >8, plaque index (The number of plaque containing surfaces / The total number of available surfaces ) >3 and early lesions >4 are considered high-risk patients.33 Zimmer BW, Rottwinkel Y. Assessing patient-specific decalcification risk in fixed orthodontic treatment and its impact on prophylactic procedures. Am J Orthod Dentofacial Orthop. 2004 Sept;126(3):318-24. It is necessary to control early demineralization areas before starting active treatment in these patients. In addition to mechanical control of oral hygiene, several chemical methods can be used, including different forms of fluoride such as varnishes and fluoride-releasing adhesives and CPP-ACP-containing paste and newer methods such as laser irradiation, which can decrease the risk of demineralization and remineralize previously demineralized enamel.44 Uysal T, Baysal A, Uysal B, Aydinbelge M, Al-Qunaian T. Do fluoride and casein phosphopeptide-amorphous calcium phosphate affect shear bond strength of orthodontic brackets bonded to a demineralized enamel surface? Angle Orthod. 2011 May;81(3):490-5.

Casein phosphopeptide (CPP) is a milk-derived protein which keeps high concentrations of calcium and phosphate in white spot lesions. Keeping this supersaturated state of calcium and phosphate is necessary for remineralization of initial lesions.55 Reynolds EC, Cai F, Shen P, Walker GD. Retention in plaque and remineralization of enamel lesions by various forms of calcium in a mouthrinse or sugar-free chewing gum. J Dent Res. 2003 Mar;82(3):206-11. Reports regarding its effects are contradictory. Some of previous studies have suggested reduced demineralization around orthodontic brackets in vitro66 Reynolds EC, Cai F, Cochrane NJ, Shen P, Walker GD, Morgan MV, et al. Fluoride and casein phosphopeptide-amorphous calcium phosphate. J Dent Res. 2008 Apr;87(4):344-8.,7 and clinical regression of white spot lesions following topical application of CPP-ACP agents in vivo.88 Bailey DL, Adams GG, Tsao CE, Hyslop A, Escobar K, Manton DJ, et al. Regression of post-orthodontic lesions by a remineralizing cream. J Dent Res. 2009 Dec;88(12):1148-53. On the other hand, a systematic review by Azarpazhooh and Limeback99 Azarpazhooh A, Limeback H. Clinical efficacy of casein derivatives: a systematic review of the literature. J Am Dent Assoc. 2008 July;139(7):915-24; quiz 94-5. found little evidence for long-term remineralization effect of CPP-ACP whereas a recent systematic review showed that CPP-ACP was able to remineralize early lesions compared to placebo but its effect was not significant compared to fluoride.1010 Li J, Xie X, Wang Y, Yin W, Antoun JS, Farella M, et al. Long-term remineralizing effect of casein phosphopeptide-amorphous calcium phosphate (CPP-ACP) on early caries lesions in vivo: a systematic review. J Dent. 2014 July;42(7):769-77.

Moreover, different laser types such as CO2, Nd:YAG and Er:YAG with different parameters have been used for caries prevention. CO2 laser with 9.3, 9.6, 10.3 and 10.6 µm wavelengths have ranked first in caries prevention.1111 Miresmaeili A, Farhadian N, Rezaei-soufi L, Saharkhizan M, Veisi M. Effect of carbon dioxide laser irradiation on enamel surface microhardness around orthodontic brackets. Am J Orthod Dentofacial Orthop. 2014 Aug;146(2):161-5. After irradiation with laser, chemical and structural alterations in enamel such as decreased carbonates, fusion and re-crystallization of hydroxyapatite crystals make enamel more resistant to acid attacks.1111 Miresmaeili A, Farhadian N, Rezaei-soufi L, Saharkhizan M, Veisi M. Effect of carbon dioxide laser irradiation on enamel surface microhardness around orthodontic brackets. Am J Orthod Dentofacial Orthop. 2014 Aug;146(2):161-5. In addition, it has been shown that laser and topical fluoride have synergistic effects and significantly decrease the rate of enamel decalcification.1212 Poosti M, Ahrari F, Moosavi H, Najjaran H. The effect of fractional CO2 laser irradiation on remineralization of enamel white spot lesions. Lasers Med Sci. 2014 July;29(4):1349-55.

Since there are increasing numbers of high-risk patients with multiple white spot lesions seeking orthodontic treatment, whose teeth are exposed to laser beams or CPP-ACP as prophylaxis, the effect of these methods on bracket shear bond strength (SBS) is another dilemma. Reports on the effect of CPP-ACP paste on bonding strength are contradictory but it can possibly interfere with etching. Xiaojun et al1313 Xiaojun D, Jing L, Xuehua G, Hong R, Youcheng Y, Zhangyu G, et al. Effects of CPP-ACP paste on the shear bond strength of orthodontic brackets. Angle Orthod. 2009 Sept;79(5):945-50. reported higher SBS in the CPP-ACP group whereas Moule et al1414 Moule CA, Angelis F, Kim GH, Le S, Malipatil S, Foo MS, et al. Resin bonding using an all-etch or self-etch adhesive to enamel after carbamide peroxide and/or CPP-ACP treatment. Aust Dent J. 2007 June;52(2):133-7. reported decreased SBS values after the combined use of carbamide peroxide and CPP-ACP. Exposure to laser beams results in bubble-like depressions on enamel surface like type III etching with acid phosphoric. Some studies have shown that acid-etched surfaces have higher bond strengths than laser-etched surfaces,1515 Hess JA. Scanning electron microscopic study of laser-induced morphologic changes of a coated enamel surface. Lasers Surg Med. 1990;10(5):458-62. while some have shown equal bond strengths.1616 von Fraunhofer JA, Allen DJ, Orbell GM. Laser etching of enamel for direct bonding. Angle Orthod. 1993 Spring;63(1):73-6.

The aim of this study was to evaluate the effect of CPP-ACP paste with and without CO2 laser irradiation on microhardness of demineralized enamel and shear bond strength of orthodontic brackets.

MATERIAL AND METHODS

A total of 100 human premolars without caries, defects and hypoplastic enamel, extracted for orthodontic reasons, were collected and stored in saline until the start of the study. Any calculus or tissue remnants were cleaned with a scaler. The buccal surface of each tooth was covered with acid-resistant varnish, leaving a 4 × 6-mm window exposed for bracket bonding and microhardness test.

Demineralization process

Ten tooth samples were immersed in 0.1% thymol solution11 Behnan SM, Arruda AO, Gonzalez-Cabezas C, Sohn W, Peters MC. In-vitro evaluation of various treatments to prevent demineralization next to orthodontic brackets. Am J Orthod Dentofacial Orthop. 2010 Dec;138(6):712 e1-7; discussion -3. in order to avoid contamination with non-experimental bacteria; then they were submitted to demineralization challenge using a caries model.1717 Souza-e-Silva CM, Parisotto TM, Steiner-Oliveira C, Kamiya RU, Rodrigues LK, Nobre-dos-Santos M. Carbon dioxide laser and bonding materials reduce enamel demineralization around orthodontic brackets. Lasers Med Sci. 2013 Jan;28(1):111-8.

Streptococcus mutans (Clarke, ATCC® 35668TM Manassas, Virginia, USA) was used to grow biofilms on samples and demineralize enamel. Culture medium was prepared by incorporating isolated Streptococcus mutans in 5 mL of tryptic soy agar (TSB) with 0.5 McFarland turbidity to 80 mL of sterile brain-heart solution containing 5% sucrose. The teeth were washed twice with 0.9% saline near a flame in a sterile plate and then placed in culture tubes in a jar with 10% partial CO2 at 37oC. Every 24 h, the teeth were washed twice with sterile saline to remove loosely bound material from the enamel structure. Then they were returned to the new culture medium. This process continued for 10 days.1717 Souza-e-Silva CM, Parisotto TM, Steiner-Oliveira C, Kamiya RU, Rodrigues LK, Nobre-dos-Santos M. Carbon dioxide laser and bonding materials reduce enamel demineralization around orthodontic brackets. Lasers Med Sci. 2013 Jan;28(1):111-8.

Microbial-exposed teeth were compared with 10 control non-exposed teeth through surface microhardness test. The samples were mounted in self-cured acrylic resin. Microhardness was assessed with Vickers microhardness testing machine (Micromet 1, Buehler LTD, Lakebluff, Illinois, USA) using a 300-g load with a dwell time of 15 seconds. Three indentations were made for each sample and the mean hardness was recorded as Vickers hardness number.

T-test showed statistically significant differences between demineralized and control teeth (p< 0.05, mean difference = 85). Eighty tooth samples were demineralized through this method for 10 days. Then the tooth roots were mounted in self-cured acrylic resin and randomly divided into five equal experimental groups (n = 16) as follows:

» Group 1 (Control): The demineralized enamel surface was not treated with CPP-ACP or CO2 laser before bonding of bracket.

» Group 2 (CPP-ACP paste): The demineralized enamel surface was treated with CPP-ACP before bonding. A thin layer of CPP-ACP paste (GC Tooth Mousse, Tokyo, Japan) was applied on enamel surfaces by an applicator and left for 4 minutes. Then it was cleaned with cotton rolls and the remaining paste was allowed to remain for another 3 minutes. Finally it was washed with normal saline. After 6 hours, the topical agent was re-applied to the tooth surface using the same method. This procedure was repeated every day for 5 days; then the samples were immersed in artificial saliva.44 Uysal T, Baysal A, Uysal B, Aydinbelge M, Al-Qunaian T. Do fluoride and casein phosphopeptide-amorphous calcium phosphate affect shear bond strength of orthodontic brackets bonded to a demineralized enamel surface? Angle Orthod. 2011 May;81(3):490-5.

» Group 3 (CO2 laser): The teeth were irradiated with CO2 laser (DEKA Laser Technologies, Florence, Italy) at a wavelength of 10.6 µm, a frequency of 5 HZ, an output power of 0.4 W, an operation time of 0.9 sec. The procedure was carried out by a experienced operator with a uniform scanning motion from an approximate distance of 5 mm from the enamel surface in total time of 20 seconds. After irradiation, the samples were washed with normal saline and immersed in artificial saliva.

» Group 4 (laser before CPP-ACP): The demineralized enamel was first irradiated with CO2 laser as explained for Group 3, followed by the same protocol carried out in Group 2.

» Group 5 (laser through CPP-ACP): The demineralized enamel in this group was covered with a thin layer of CPP-ACP paste; after 3 minutes laser beams with the same parameters described for Group 3 were applied through the paste over a period of 20 seconds. Then the samples were washed with saline and immersed in artificial saliva.

SEM photomicrographs of a representative tooth from each group were taken to observe the enamel surface (Fig 1).

Figure 1
SEM photomicrographs of enamel surface in the five groups. A) Group 1 (control) showed shallow depressions and fine porosities. The enamel surface was devoid of any surface deposits. B) Group 2 (CPP-ACP) demonstrated numerous granular particles; amorphous crystals are arranged on the enamel surface. C) Group 3 (CO2 laser) revealed typical melting appearance, cracks and craters with discontinuities. D) Group 4 (laser before CPP-ACP) showed a similar view of laser-irradiated surface with granular and globular particles. E) Group 5 (laser trough CPP-ACP) demonstrated a relatively smooth, more homogeneous surface compared with those of Group 3.

Bonding of brackets

The exposed enamel of each tooth was etched with 37% orthophosphoric acid (Resilience, Orthotechnology, USA) for 15 seconds, rinsed with water for 15 seconds, and dried with oil-free air for 10 seconds until a frosty white appearance was obtained. Stainless-steel premolar brackets (Dentarum, Germany) were bonded to the teeth using the Transbond XT composite resin (3M Unitek, Monrovia, Calif, USA) according to the manufacturer’s instructions. The bracket was positioned so that the occlusal edge of the bracket was tangent with the occlusal edge of the exposed enamel. An LED light-curing unit (Kerr, DEMI plus, USA) was used for 40 seconds to light-cure the composite resin44 Uysal T, Baysal A, Uysal B, Aydinbelge M, Al-Qunaian T. Do fluoride and casein phosphopeptide-amorphous calcium phosphate affect shear bond strength of orthodontic brackets bonded to a demineralized enamel surface? Angle Orthod. 2011 May;81(3):490-5.. Finally the samples were immersed in artificial saliva for 30 days before tests.44 Uysal T, Baysal A, Uysal B, Aydinbelge M, Al-Qunaian T. Do fluoride and casein phosphopeptide-amorphous calcium phosphate affect shear bond strength of orthodontic brackets bonded to a demineralized enamel surface? Angle Orthod. 2011 May;81(3):490-5.

Assessment of bracket shear bond strength

Shear bond strengths of the samples were tested with a universal testing machine (Santam, STM-20, Iran) using a chisel-edged plunger at a crosshead speed of 1 mm/min. The maximum load that debonded the bracket was recorded in newtons (N) and the SBS was calculated by dividing the force values by the bracket base area (1 MPa=1 N/mm22 Gorelick L, Geiger AM, Gwinnett AJ. Incidence of white spot formation after bonding and banding. Am J Orthod. 1982 Feb;81(2):93-8.).1818 Jobalia SB, Valente RM, de Rijk WG, BeGole EA, Evans CA. Bond strength of visible light-cured glass ionomer orthodontic cement. Am J Orthod Dentofacial Orthop. 1997 Aug;112(2):205-8.

Adhesive remnant index (ARI) was assessed and ranked by one investigator as follows:

  • 1 = all the adhesive remaining on the enamel surface;

  • 2 = more than 50% of the adhesive remaining on the tooth surface;

  • 3 = more than 50% of the adhesive remaining on the bracket base;

  • 4 = all the adhesive remaining on the bracket base.44 Uysal T, Baysal A, Uysal B, Aydinbelge M, Al-Qunaian T. Do fluoride and casein phosphopeptide-amorphous calcium phosphate affect shear bond strength of orthodontic brackets bonded to a demineralized enamel surface? Angle Orthod. 2011 May;81(3):490-5.

Surface microhardness test

After completion of SBS assessment, the samples were rinsed with saline solution and mounted in self-cured acrylic resin with the buccal surface parallel to the horizon. A Vickers microhardness tester (Micromet 1, Buehler LTD, Lakebluff, Illinois, USA) was used under a 300-g load and a dwell time of 15 seconds to assess Vickers microhardness. The indenter was placed on a 2 × 4-mm non-bonded exposed enamel surface. For each sample three indentations were made on three points of enamel surface and the mean value was recorded as Vickers hardness number (VHN).

Statistical analysis

Normality of distribution and homogeneity of variance of values were checked by means of Kolmogorov-Smirnov test. One-way analysis of variance was employed. Tukey post-hoc test was carried out to perform multiple comparisons. SPSS software v. 21 (SPSS Inc., Chicago, IL, USA) was used to perform statistical calculations, adopting a significance level of 0.05.

RESULTS

Shear bond strength

Kolmogorov-Smirnov test showed that shear bond strength of the teeth in the five groups had a normal distribution. Figure 2 shows the means and 95% confidence intervals in the five groups. Statistical comparisons of the groups are presented in Table 1.

Figure 2
Differences in shear bond strength (SBS) values among the groups.

Table 1
Multiple comparisons of groups by post-hoc Tukey tests for shear bond strength. The mean difference is significant at the 0.05 level

The results of ANOVA indicated statistically significant differences among the five groups (p< 0.001).

Tukey HSD test showed that only the mean SBS of Group 3 was significantly higher than the other groups (p< 0.001) (Table 1).

ARI index

All the groups showed a higher percentage of ARI scores 4 and fracture had occurred at enamel-composite interface.

Surface microhardness

Kolmogorov-Smirnov test showed that surface microhardness of teeth in the five groups had a normal distribution. Figure 3 shows means and 95% confidence intervals in the five groups. Statistical comparisons of the groups are presented in Table 2.

Figure 3
Differences in Vickers hardness (VHN) values among the groups.

Table 2
Multiple comparisons of groups by post-hoc Tukey tests for Vickers hardness. The mean difference is significant at the 0.05 level.

The results of ANOVA indicated statistically significant differences among the five groups (p< 0.001). Tukey post-hoc test showed significantly higher enamel surface microhardness in Group 3 compared with the control group (p= 0.001) and Groups 4 and 5 (p= 0.036, p= 0.001).

DISCUSSION

The present study assessed the effects of CPP-ACP paste with and without CO2 laser irradiation on microhardness of demineralized enamel and bracket shear bond strength at the same time. A microbiological caries model was prepared in this study using Streptococcus mutans. Chemical models focus on physiochemical aspects of dental caries but microbiological caries models seem to be more suitable because of more clinically relevant biofilm accumulation around orthodontic brackets.1717 Souza-e-Silva CM, Parisotto TM, Steiner-Oliveira C, Kamiya RU, Rodrigues LK, Nobre-dos-Santos M. Carbon dioxide laser and bonding materials reduce enamel demineralization around orthodontic brackets. Lasers Med Sci. 2013 Jan;28(1):111-8.

The hardness of human tooth has been determined by a variety of methods, including abrasion, scratch and indentation techniques.1919 Gutiérrez-Salazara MP, Reyes-Gasga J. Microhardness and chemical composition of human tooth. 2003 Apr-June;6(3):367-73. Vickers microhardness test was used to evaluate remineralization as an indirect test that can measure the changes in surface structural strength from demineralization and remineralization.1919 Gutiérrez-Salazara MP, Reyes-Gasga J. Microhardness and chemical composition of human tooth. 2003 Apr-June;6(3):367-73.

There are various in vitro studies on prevention and treatment of demineralization with CPP-ACP, but reports are contradictory in terms of designs, time and instructions for use of CPP-ACP. Sudjalim et al,77 Sudjalim TR, Woods MG, Manton DJ, Reynolds EC. Prevention of demineralization around orthodontic brackets in vitro. Am J Orthod Dentofacial Orthop. 2007 June;131(6):705.e1-9. Uysal et al44 Uysal T, Baysal A, Uysal B, Aydinbelge M, Al-Qunaian T. Do fluoride and casein phosphopeptide-amorphous calcium phosphate affect shear bond strength of orthodontic brackets bonded to a demineralized enamel surface? Angle Orthod. 2011 May;81(3):490-5. and Tantbirojn et al2020 Tantbirojn D, Huang A, Ericson MD, Poolthong S. Change in surface hardness of enamel by a cola drink and a CPP-ACP paste. J Dent. 2008 Jan;36(1):74-9. reported significant prevention and remineralizing effects of CPP-ACP in their in vitro studies; on the other hand, Behnan et al,11 Behnan SM, Arruda AO, Gonzalez-Cabezas C, Sohn W, Peters MC. In-vitro evaluation of various treatments to prevent demineralization next to orthodontic brackets. Am J Orthod Dentofacial Orthop. 2010 Dec;138(6):712 e1-7; discussion -3. Heravi et al2121 Heravi F, Ahrari F, Mahdavi M, Basafa S. Comparative evaluation of the effect of Er:YAG laser and low level laser irradiation combined with CPP-ACPF cream on treatment of enamel caries. J Clin Exp Dent. 2014 Apr;6(2):e121-6. and Ballard et al2222 Ballard RW, Hagan JL, Phaup AN, Sarkar N, Townsend JA, Armbruster PC. Evaluation of 3 commercially available materials for resolution of white spot lesions. Am J Orthod Dentofacial Orthop. 2013 Apr;143(4 Suppl):S78-84. did not find evidence for positive effect of CPP-ACP on enamel. Use of different study designs, substrates (human or bovine teeth), times of application of CPP-ACP, duration of study and methods of assessing remineralization of enamel - such as microhardness, QLF and photography - can possibly play a role in gaining different results.

A systematic review by Li et al,1010 Li J, Xie X, Wang Y, Yin W, Antoun JS, Farella M, et al. Long-term remineralizing effect of casein phosphopeptide-amorphous calcium phosphate (CPP-ACP) on early caries lesions in vivo: a systematic review. J Dent. 2014 July;42(7):769-77. in 2014, in which randomized and quasi-randomized clinical trials were included with follow-up periods of 3-24 months with different forms of application of CPP-ACP, showed that only eight articles met the inclusion criteria that evaluated the remineralizing effect of CPP-ACP with direct visualization or bitewing radiographs or photographs. They concluded that CPP-ACP has significant remineralizing effects compared to placebo, but its effect is not significant compared to fluoride. According to these reviews, it seems the effects of CPP-ACP products depend on their type, frequency and duration of application, which are not clearly defined yet.

The laser parameters in the present study were selected according to the study by Esteves-Oliveira et al,2323 Esteves-Oliveira M, Pasaporti C, Heussen N, Eduardo CP, Lampert F, Apel C. Prevention of toothbrushing abrasion of acid-softened enamel by CO(2) laser irradiation. J Dent. 2011 Sept;39(9):604-11. who showed caries inhibition of 81% without destruction of the enamel structure. The present findings were consistent with the results reported by Poosti et al,1212 Poosti M, Ahrari F, Moosavi H, Najjaran H. The effect of fractional CO2 laser irradiation on remineralization of enamel white spot lesions. Lasers Med Sci. 2014 July;29(4):1349-55. Souza-e-Silva1717 Souza-e-Silva CM, Parisotto TM, Steiner-Oliveira C, Kamiya RU, Rodrigues LK, Nobre-dos-Santos M. Carbon dioxide laser and bonding materials reduce enamel demineralization around orthodontic brackets. Lasers Med Sci. 2013 Jan;28(1):111-8. and Miresmaeili et al1111 Miresmaeili A, Farhadian N, Rezaei-soufi L, Saharkhizan M, Veisi M. Effect of carbon dioxide laser irradiation on enamel surface microhardness around orthodontic brackets. Am J Orthod Dentofacial Orthop. 2014 Aug;146(2):161-5. that showed, after irradiation with laser, chemical and structural alterations in enamel - such as decreased carbonates, fusion and re-crystallization of hydroxyapatite crystals - make enamel more resistant to acid attacks.

In the present study, the combined effects of CO2 laser and CPP-ACP paste on enamel microhardness were also evaluated to assess any synergistic effect considering the mechanism of action of CPP-ACP and also to see if CPP-ACP could neutralize the adverse effects of laser. According to the present results, it appears CPP-ACP has prevented the temperature rise due to laser irradiation and since CPP-ACP alone did not increase the microhardness significantly it is logical that it did not exhibit synergistic effects with laser. To the best of our knowledge, there is only one study2424 Niazy A, Ehab A. Synergistic caries inhibitory effect of a remineralizing agent and CO 2 laser on human enamel and root dentin. Cairo Dent J. 2009;25(3):415-24. that showed synergistic effects of CO2 laser and CPP-ACP on inhibition of demineralization, by polarized light microscopy and profilometry. The study was not carried out on demineralized enamel and also different laser parameters were used. Heravi et al2121 Heravi F, Ahrari F, Mahdavi M, Basafa S. Comparative evaluation of the effect of Er:YAG laser and low level laser irradiation combined with CPP-ACPF cream on treatment of enamel caries. J Clin Exp Dent. 2014 Apr;6(2):e121-6. did not find synergistic effects of CPP-ACP paste and Er:YAG laser and low-level laser on remineralization. On the other hand, Asl-Aminabadi et al2525 Asl-Aminabadi N, Najafpour E, Samiei M, Erfanparast L, Anoush S, Jamali Z, et al. Laser-Casein phosphopeptide effect on remineralization of early enamel lesions in primary teeth. J Clin Exp Dent. 2015 Apr;7(2):e261-7. reported synergistic remineralizing effect of CPP-ACP paste and Nd:YAG laser on enamel. Subramaniam et al2626 Subramaniam P, Pandey A. Effect of erbium, chromium: yttrium, scandium, gallium, garnet laser and casein phosphopeptide-amorphous calcium phosphate on surface micro-hardness of primary tooth enamel. Eur J Dent. 2014 July;8(3):402-6. also reported increased surface microhardness of teeth after laser irradiation, followed by CPP-ACP application. In both of these studies, primary teeth were used, whose behavior is different in caries and erosion and bonding strength tests.2727 Oliveira MAM, Torres CP, Gomes-Silva JM, Chinelatti MA, Menezes FC, Palma-Dibb RG, et al. Microstructure and mineral composition of dental enamel of permanent and deciduous teeth. Microsc Res Tech. 2010 May;73(5):572-7.

Because of the increasing number of high-risk patients who seek orthodontic treatment, and their teeth have been exposed to preventive agents because of multiple white spots presence, evaluation of the effect of these methods on bracket bond strength is critical. It is known that teeth with high fluoride content are more resistant to etching.2828 Tabrizi A, Cakirer B. A comparative evaluation of casein phosphopeptide-amorphous calcium phosphate and fluoride on the shear bond strength of orthodontic brackets. Eur J Orthod. 2011 June;33(3):282-7. Reports on the effect of CPP-ACP and CO2 laser on bonding strength are contradictory.1414 Moule CA, Angelis F, Kim GH, Le S, Malipatil S, Foo MS, et al. Resin bonding using an all-etch or self-etch adhesive to enamel after carbamide peroxide and/or CPP-ACP treatment. Aust Dent J. 2007 June;52(2):133-7.

15 Hess JA. Scanning electron microscopic study of laser-induced morphologic changes of a coated enamel surface. Lasers Surg Med. 1990;10(5):458-62.
-1616 von Fraunhofer JA, Allen DJ, Orbell GM. Laser etching of enamel for direct bonding. Angle Orthod. 1993 Spring;63(1):73-6.,29 Both can make enamel more resistant to acid and laser causes re-crystallization and melting in enamel structure; therefore, they can possibly interfere with the etching process and affect bond strength.1313 Xiaojun D, Jing L, Xuehua G, Hong R, Youcheng Y, Zhangyu G, et al. Effects of CPP-ACP paste on the shear bond strength of orthodontic brackets. Angle Orthod. 2009 Sept;79(5):945-50. According to our results, it can be concluded that CPP-ACP has resulted in an enamel surface morphology similar to the controls, which is consistent with the study by Usal et al.44 Uysal T, Baysal A, Uysal B, Aydinbelge M, Al-Qunaian T. Do fluoride and casein phosphopeptide-amorphous calcium phosphate affect shear bond strength of orthodontic brackets bonded to a demineralized enamel surface? Angle Orthod. 2011 May;81(3):490-5. Kecik et al3030 Kecik D, Cehreli SB, Sar C, Unver B. Effect of acidulated phosphate fluoride and casein phosphopeptide-amorphous calcium phosphate application on shear bond strength of orthodontic brackets. Angle Orthod. 2008 Jan;78(1):129-33.and Xiajoun et al1313 Xiaojun D, Jing L, Xuehua G, Hong R, Youcheng Y, Zhangyu G, et al. Effects of CPP-ACP paste on the shear bond strength of orthodontic brackets. Angle Orthod. 2009 Sept;79(5):945-50. reported higher bond strengths of CPP-ACP than the controls. This difference can be attributed to higher concentrations and extended time of application of CPP-ACP in these studies and also use of CPP-ACP for prevention on normal enamel. Kecik et al3030 Kecik D, Cehreli SB, Sar C, Unver B. Effect of acidulated phosphate fluoride and casein phosphopeptide-amorphous calcium phosphate application on shear bond strength of orthodontic brackets. Angle Orthod. 2008 Jan;78(1):129-33. used bovine enamel that has larger crystal grains and lattice defects due to more rapid development during tooth formation. This may contribute to a lower critical surface tension in bovine enamel.

To the best of our knowledge, there are no reports on the effects of CO2 laser pretreatment on brackets’ bond strength to demineralized enamel. Obata et al3131 Obata A, Tsumura T, Niwa K, Ashizawa Y, Deguchi T, Ito M. Super pulse CO2 laser for bracket bonding and debonding. Eur J Orthod. 1999 Apr;21(2):193-8. proposed CO2 laser for debonding instead of etching. Özer et al3232 Ozer T, Basaran G, Berk N. Laser etching of enamel for orthodontic bonding. Am J Orthod Dentofacial Orthop. 2008 Aug;134(2):193-7. reported similar shear bond strength of Er,Cr:YSGG laser-treated surface and acid-etched surface. Talbot et al3333 Talbot TQ, Blankenau RJ, Zobitz ME, Weaver AL, Lohse CM, Rebellato J. Effect of argon laser irradiation on shear bond strength of orthodontic brackets: an in vitro study. Am J Orthod Dentofacial Orthop. 2000 Sept;118(3):274-9. reported that argon laser had no effect on shear bond strength when used on enamel before bonding, whereas Farhadian et al3434 Farhadian N, Miresmaeili AF, Khosroshahi ME, Sofi LR, Jaleh B, Tamassoki S. The effects of argon laser irradiation on shear bond strength of orthodontic brackets: an in vitro study. J Oral Laser Appl. 2009;9(2):111. reported that use of argon laser after or through bonding can decrease bracket bond strength. Results of the present study are consistent with the reported etching effect of laser.

Since CPP-ACP alone had no significant effect on the shear bond strength compared to the control group, it seems logical that its combined application had no significant effect and even prevented the laser from affecting shear bond strength.

In the present study, no significant difference was found in ARI scores between the groups and fracture in the adhesive-enamel interface was the most common mode of fracture in all the groups. This can be attributed to the low quality of bonding to demineralized enamel.44 Uysal T, Baysal A, Uysal B, Aydinbelge M, Al-Qunaian T. Do fluoride and casein phosphopeptide-amorphous calcium phosphate affect shear bond strength of orthodontic brackets bonded to a demineralized enamel surface? Angle Orthod. 2011 May;81(3):490-5.

According to Reynolds,3535 Reynolds I. A review of direct orthodontic bonding. Br J Orthod. 1975;2(3):171-8. SBS values of 5.9 to 7.8 MPa are adequate for orthodontic purposes. In this study, SBS values were higher than this. We tried to use the standard testing procedure to create a laboratory technique which is similar to the clinical situation. However, it is acknowledged that in vitro bond strength testing is not a true representative of the intraoral conditions and only guides us to possible clinical effects of the methods that are tested. However, the results assist us in determining which products should be taken to the next level of research.

CONCLUSION

CO2 laser irradiation at a wavelength of 10.6 µm increased demineralized enamel microhardness and also enhanced bonding to demineralized enamel significantly. However, 5-day application of CPP-ACP paste either alone or in conjunction with CO2 laser did not increase enamel microhardness significantly compared to the control. All the combinations tested exhibited clinically acceptable bond strengths. Fracture mode of bracket in all the groups was at composite-enamel interface, which might be due to the poor bond between composite resin and demineralized enamel. Further in-vivo evaluations are recommended to verify these findings.

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  • How to cite:

    Farhadian N, Rezaei-Soufi L, Jamalian SF, Farhadian M, Tamasoki S, Malekshoar M, Javanshir B. Effect of CPP-ACP paste with and without CO2 laser irradiation on demineralized enamel microhardness and bracket shear bond strength. Dental Press J Orthod. 2017 July-Aug;22(4):53-60.
  • »
    The authors report no commercial, proprietary or financial interest in the products or companies described in this article.

Publication Dates

  • Publication in this collection
    Jul-Aug 2017

History

  • Received
    03 July 2016
  • Accepted
    07 Nov 2016
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