Peróxido de carbamida 37% no clareamento dentário e sua atuação na efetividade clareadora e eliminação de sensibilidade: relato de caso / The usage of 37% carbamide peroxide in tooth bleaching and its effect on bleaching effectiveness and elimination of sensitivity: a case report / Peróxido de carbamida al 37% en el blanqueamiento dental y su efecto sobre la eficacia del blanqueamiento y la eliminación de la sensibilidad: informe de un caso

Introdução:A sensibilidade dentária é o efeito adverso mais comum relacionado ao clareamento dentário. Na técnica de consultório, o peróxido de carbamida a 37%, surgiu como possibilidade de clarear e não causar sensibilidade.Objetivo:trata-se deum relato de caso, que avaliou a eficácia (mudança de cor) e a presença ou não de sensibilidade dentária quando se fezo uso de um produto àbase de peróxido de hidrogênio a35% e outro de peróxido de carbamida a 37%, na técnica de clareamento dentário de consultório.Relato de caso:Paciente de25 anos, sexo masculino, submetido a estudo de boca dividida, onde no hemiarco esquerdo foi aplicado peróxido de hidrogênio a 35% e no hemiarco direito, peróxido de carbamida a 37%. Foram feitas 3 sessões, sendo Peróxido de Carbamidacom aplicação única de 45 minutos, e Peróxido de Hidrogêniocom 3 aplicações de 15 minutos, em seu respectivo lado de aplicação e intervalo de sete dias entre cada sessão. Os valores de sensibilidade foram analisados antes e depois de cada sessão por meio da escala visual analógica de dor, e a alteração de cor foi avaliada através da Escala Vita, analisando incisivos e caninos superiores, antes de cada sessão.Conclusões:O clareamento dental com o Peróxido de Hidrogênio apresentou melhor eficácia clareadora e o Peróxido de Carbamida apresentou ausência de sensibilidade durante o procedimento clareador. Sugerem-se mais estudos do tipo ensaio clínico, com o Peróxido de Carbamida, para que se possa, com uma amostra maior de pacientes, verificar suas vantagens no quesito sensibilidade, bem como sua efetividade clareadora (AU).

Introduction:Tooth sensitivity is the most common adverse effect related to tooth bleaching. In the in-office technique, 37% carbamide peroxide has emerged as a way of tooth bleaching which does not cause sensitivity.Objective:This paper consists of a case report that evaluated the efficacy (color change) and the presence or absence of tooth sensitivity when using a product based on 35% hydrogen peroxide and another product based on 37% carbamide peroxide in the in-office tooth bleaching technique.Case report:A 25-year-old male patient underwent a split-mouth study in which 35% hydrogen peroxide was applied to the left hemi-arch and 37% carbamide peroxide to the right hemi-arch. Three sessions were carried out, carbamide peroxide with a single 45-minute application, and hydrogen peroxide with three 15-minute applications, on their respective application side and with a seven-day interval between each session. Sensitivity values were analyzed before and after each session using the visual analogue pain scale, and color change was assessed using the Vita Scale, analyzing upper incisors andcanines before each session. Conclusions:Teeth bleaching with hydrogen peroxide showed better bleaching efficacy and carbamide peroxide showed no sensitivity during the bleaching procedure. Further clinical trials with carbamide peroxide are suggested inorder to verify, with a larger sample of patients, its advantages in terms of sensitivity, as well asits bleaching effectiveness (AU).

Introducción: La sensibilidad de la dentina es el efecto adverso más común relacionado con el blanqueamiento dental. En la técnica en clínica, el peróxido de carbamida al 37% ha surgido como una posibilidad de blanqueamiento sin causar sensibilidad.Objetivo: Se tratade un informe de caso que evaluó la eficacia (cambio de color) y la presencia o ausencia de sensibilidad de la denina al utilizar un producto a base de peróxido de hidrógeno al 35% y otro a base de peróxido de carbamida al 37% en la técnica de blanqueamiento dental en clínica.Informe de caso:Un paciente del sexo maculino de 25 años fue sometido a un estudio de boca dividida en el que se aplicó peróxido de hidrógeno al 35% en la hemiarcada izquierda y peróxido de carbamida al 37% en la hemiarcada derecha.Se realizaron tres sesiones, la peróxido de carbamida con una única aplicación de 45 minutos, y la peróxido de hidrógeno con tres aplicaciones de 15 minutos, en sus respectivos lados de aplicación y con un intervalo de siete días entre cada sesión. Se analizaron los valores de sensibilidad antes y después de cada sesión mediante la escala analógica visual del dolor, y se evaluó el cambio de color mediante la Escala Vita, analizando los incisivos superiores y los caninos antes de cada sesión. Conclusiones: El blanqueamiento dental con peróxido de hidrógeno demostró una mayor eficacia blanqueadora y el peróxido de carbamida no manifestó sensibilidad durante el procedimiento de blanqueamiento. Se sugiere realizar más ensayos clínicos con peróxido de carbamidaparapoder utilizar una muestra mayor de pacientes y verificar sus ventajas en términos de sensibilidad, así como su eficacia blanqueadora (AU).

Color and surface roughness alterations of bulk-fill resin composites submitted to simulated toothbrushing with whitening dentifrices

Aim: To evaluate the surface roughness and color stability of bulk-fill resin composites after simulated toothbrushing with whitening dentifrices. The radioactive/relative dentin abrasion (RDA) and radioactive/relative enamel abrasion (REA) of dentifrices were also assessed. Methods: Specimens (n=10) of Tetric N Ceram Bulk Fill (TNCB), Filtek One Bulk Fill (FOB) resin composites, and Z100(Control) were prepared using a cylindrical Teflon matrix. Surface roughness (Ra, µm) was assessed by a roughness meter and the color evaluations (ΔEab , ΔE00 , WID ) were performed using a digital spectrophotometer based on the CIELAB system. Three measurements were performed per sample, before and after simulated toothbrushing with 3D Oral-B White Perfection (3DW) and Black is White (BW) dentifrices. The abrasivity (REA and RDA values) of the used dentifrices was also determined by the Hefferren abrasivity test. Results: The Ra values increased significantly in all resin composites after 3DW and BW toothbrushing. The acceptable threshold color varied among resin composites, and TNCB and Z100 presented the highest ΔEab and ΔE00 for BW dentifrice. The 3DW dentifrice was significantly more abrasive than BW dentifrice on enamel and dentin. Conclusions: simulated toothbrushing with tested whitening dentifrices increased the surface roughness at acceptable levels. The Tetric N Ceram Bulk-fill and Z100 composite showed the highest color alteration in BW. 3D White Perfection dentifrice was more abrasive on dentin and enamel than Black is White.

Dental aesthetic perception of patients submitted to activated charcoal-based bleaching agents: A randomized clinical trial.

OBJECTIVE: To evaluate the effects of activated charcoal-based products used in two presentation forms (powder or toothpaste), compared to 10 % carbamide peroxide and conventional toothpaste on aesthetic perception and psychosocial impact before and after treatment. METHODS: Fifty-six participants were divided into 4 experimental groups (n = 14). Activated charcoal-based powder (PW); Activated charcoal-based dentifrice (AC); Conventional fluoride toothpaste (CD) and 10 % carbamide peroxide (CP). All products were used for 14 days. Psychosocial impact on dental esthetics (PIDAQ), oral health impact profile (OHIP- Esthetics) and orofacial esthetics scale (OES) questionnaires were applied before and after treatment. Descriptive and exploratory data analyses were performed and analyzed using linear mixed models for repeated measures over time considering significance level of α = 0.05. RESULTS: For PIDAQ, the CP group showed significant decrease in psychological impact, aesthetic perception domains and overall score, while in the PW group, there was only a significant decrease in the psychological impact domain. Decrease in OHIP was observed for the functional limitation domain scores for treatments with CP and PW, in the psychological discomfort domain, decrease was observed for all groups, while for the OES questionnaire, significant increase in the color domain was observed for the CP group. CONCLUSION: Activated charcoal-based products showed lower scores in all questionnaires when compared with carbamide peroxide; thus, charcoal-based products promoted lower impact on quality of life and aesthetic perception. CLINICAL RELEVANCE: In this randomized clinical trial, charcoal-based OTC products had inferior quality of life and aesthetic perception results compared to conventional carbamide peroxide bleaching.

Hybrid light applied with 37% carbamide peroxide bleaching agent with or without titanium dioxide potentializes color change effectiveness.

BACKGROUND: The effectiveness of dental color change was assessed by incorporating titanium dioxide (TiO2) into 37% carbamide peroxide bleaching agent associated with hybrid light. METHODOLOGY: Fifty bovine incisors were selected to receive the bleaching treatment, and separated into five groups (n = 10): 35% hydrogen peroxide (HP) (Whiteness HP, FGM/HP); 37% carbamide peroxide (CP) (Whiteness SuperEndo, FGM/CP); CP + hybrid light (HL) (CP HL); CP + 1% TiO2 (CP TiO2); CP TiO2 + hybrid light (CP TiO2 HL). The bleaching gels were applied to the dental surface for 30 min. Hybrid light (Whitening Plus, DMC/infrared laser diodes + blue LEDs +violet LEDs) was applied with 1 min of active light, alternating with 1 min of pause. A spectrophotometer (VITA Easyshade® Advance, Vita) was used to determine the color of the dental elements at baseline and time points after the 1st, 2nd and 3rd bleaching sessions. Color change effectiveness was evaluated using Vita Classical, CIEL*a*b*, WID and ΔEab, ΔE00 and ΔWID parameters. RESULTS: Generalized mixed linear models for repeated measures (α = 5%) showed significant decrease in Vita Classical scores and a* and b* values, as well as an increase in L* and ∆WID values for all the groups. Higher color change values for ΔEab were observed for CP HL and CP TiO2 HL, while those of ΔE00 and ΔWID were higher for CP TiO2 HL at the end of the bleaching treatment. CONCLUSION: Hybrid light applied with TiO2 incorporated into CP potentiated the effectiveness of the color change in the tooth structure.

Titanium dioxide nanotubes in a hydrogen peroxide-based bleaching agent: physicochemical properties and effectiveness of dental bleaching under the influence of a poliwave led light activation.

OBJECTIVES: The effects of different concentrations of titanium dioxide (TiO2) into 40% hydrogen peroxide (HP) were evaluated as regards the effectiveness of dental color change either associated with activation by polywave LED light or not. MATERIALS AND METHODS: TiO2 (0, 1, 5, or 10%) was incorporated into HP to be applied during in-office bleaching (3 sessions/40 min each). Polywave LED light (Valo Corded/Ultradent) was applied or not in activation cycles of 15 s (total time of 2 min). The color of 80 third molars separated into groups according to TiO2 concentration and light activation (n = 10) was evaluated at baseline and at time intervals after the 1st, 2nd, and 3rd bleaching sessions. RESULTS: WID value was significantly higher when using HP with 5% TiO2 in the 2nd session than the values in the other groups (p < 0.05). After the 2nd and 3rd sessions, the ΔEab value was significantly higher when activated with light (p < 0.05) for all agents containing TiO2 or not. Zeta potential and pH of the agents were not modified by incorporating TiO2 at the different concentrations. CONCLUSIONS: The 5% TiO2 in the bleaching agent could enhance tooth bleaching, even without light application. Association with polywave LED light potentiated the color change, irrespective of the presence of TiO2 in the bleaching gel. CLINICAL SIGNIFICANCE: HP with 5% TiO2 could lead to a greater tooth bleaching response in the 2nd clinical session, as well as the polywave light can enhance color change.

Análise do perfil de liberação do princípio ativo peróxido de hidrogênio por diferentes géis clareadores dentais / Analysis of the release profile of the active ingredient hydrogen peroxide by different tooth whitening gels

O objetivo desse estudo foi analisar o perfil de liberação do princípio ativo peróxido de hidrogênio por diferentes géis clareadores no decorrer do período de aplicação. Para tal diferentes géis clareadores à base de peróxido de hidrogênio para uso na técnica em consultório foram levados à câmara doadora de uma célula de difusão vertical (célula Franz). Foi empregado como meio de difusão uma membrana de éster de celulose com porosidade de 100-500 Daltons. A câmara receptora foi preenchida com água ultrapura. Os seguintes géis foram testados: Whiteness HP (FGM), Whiteness HP Blue (FGM), Whiteness HP Automix (FGM), Potenza Bianco (PHS do Brasil), Opalescence Boost (Ultradent), e Pola Office Plus (SDI); solução de peróxido 35% controle. O peróxido de hidrogênio liberado pelo gel se difundiu através da membrana e se misturou com a água na câmara receptora. Uma amostra de 40µl foi coletada da câmara receptora a cada 5 min, durante 45 minutos e foi reposto o mesmo volume de 40 µl em água ultrapura. A concentração de peróxido na amostra (mg/ml) foi determinada em triplicata a cada momento, utilizando um espectrofotômetro leitor de microplacas e reagente enzimático. A normalidade e homoscedasticidade dos dados foram avaliadas pelos testes de Shapiro-Wilk e Levene. Os dados de quantidade acumulada de peróxido foram submetidos ao teste de análise de variância ANOVA a 2 fatores (tipo de gel x tempo) e teste de Tukey. Para todas as análises foi adotado um nível de significância de 5%. Diferenças significativas foram observadas para os fatores agente clareador (p=0,0001) e tempo (p=0,0001), assim como para a interação entre eles (p=0,0001). Os resultados do teste de Tukey para o fator agente clareador quanto à quantidade cumulativa de peróxido foram: WHPB-14,04(6,60)a, WHP19,51(8,61)b, WHPA-23,20(10,48)c, POP-26,53(11,13)d, PB-28,29(10,99)de, OPB31,03(11,81)e, Controle 79,12(32,27)f. Para o fator tempo, em minutos, os resultados foram: 5 9,64(6,70)a, 10-17,42(11,60)b, 15-24,03(16,86)c, 20-29,50(20,44)d, 25-33,93(23,00)e, 30-38,41(25,83)f, 35-41,52(27,32)fg, 40-44,11(28,47)gh, 45- 46,50(29,72)h. Os resultados do teste ANOVA de medidas repetidas mostraram diferenças significativas (p=0,00) em relação a concentração inicial e final de peróxido para os fatores agente clareador, momento de leitura e para a interação entre eles. Agentes clareadores com maior concentração inicial de peróxido de hidrogênio apresentaram maior liberação cumulativa do ingrediente ativo; a liberação de peróxido de hidrogênio de diferentes géis clareadores ocorre de maneira gradual em relação ao tempo de aplicação, porém essa liberação não ocorre de maneira constante.(AU)

The aim of this study was to analyze the release profile of the active ingredient hydrogen peroxide by different bleaching gels over the course of the application period. For this purpose, different bleaching gels based on hydrogen peroxide for use in the in-office technique were taken to the donor chamber of a vertical diffusion cell (Franz cell). A cellulose ester membrane with a porosity of 100-500 Daltons was used as diffusion medium. The receiving chamber was filled with ultrapure water. The following gels were tested: Whiteness HP (FGM), Whiteness HP Blue (FGM), Whiteness HP Automix (FGM), Potenza Bianco (PHS do Brasil), Opalescence Boost (Ultradent), and Pola Office Plus (SDI); 35% peroxide control solution. The hydrogen peroxide released by the gel diffused through the membrane and mixed with the water in the receiving chamber. A 40µl sample was collected from the receiving chamber every 5 min for 45 minutes and the same volume of 40 µl was replaced in ultrapure water. The peroxide concentration in the sample (mg/ml) was determined in triplicate at each time point, using a microplate reader spectrophotometer and enzymatic reagent. Data normality and homoscedasticity were evaluated using the Shapiro-Wilk and Levene tests. Accumulated amount of peroxide data was submitted to 2-way ANOVA test of variance (type of gel x time) and Tukey's test. For all analyses, a significance level of 5% was adopted. Significant differences were observed for the factors bleaching agent (p=0.0001) and time (p=0.0001), as well as for the interaction between them (p=0.0001). The results of the Tukey test for the bleaching agent factor regarding the cumulative amount of peroxide were: WHPB-14.04(6.60)a, WHP-19.51(8.61)b, WHPA-23.20(10 ,48)c, POP-26.53(11.13)d, PB 28.29(10.99)de, OPB-31.03(11.81)e, Control-79.12(32.27) )f. For the time factor, in minutes, the results were: 5-9.64(6.70)a, 10-17.42(11.60)b, 15-24.03(16.86)c, 20- 29.50(20.44)d, 25-33.93(23.00)e, 30- 38.41(25.83)f, 35-41.52(27.32)fg, 40-44, 11(28.47)gh, 45-46.50(29.72)h. The results of the repeated measures ANOVA test showed significant differences (p=0.00) in relation to the initial and final peroxide concentration for the factors bleaching agent, reading time and the interaction between them. Bleaching agents with a higher initial concentration of hydrogen peroxide showed a greater cumulative release of the active ingredient; The release of hydrogen peroxide from different whitening gels occurs gradually in relation to the application time, but this release does not occur constantly. (AU)

Effects of black tea tooth staining previously to 35% hydrogen peroxide bleaching

Aim: To determine if the artificial staining with black tea (BT) influences the enamel microhardness before in-office bleaching and if BT staining is necessary to evaluate the efficacy of bleaching with 35% hydrogen peroxide Methods: Enamel/dentin blocks were randomized into groups according to the staining protocol (n=5/group): (CO) control ­ maintained in artificial saliva solution (AS); (BT4) immersed in black tea solution for 4 h; (BT24) immersed in black tea solution for 24 h. After the staining protocols, all specimens were kept in AS for one week, followed by bleaching (three sessions of HP application for 40 min). Knoop surface microhardness (kgF/mm2) was determined at baseline (T0), after staining (T1), after 7 days of storage in AS (T2), and after bleaching (T3). The color (∆E00) and coordinate changes (∆L, ∆a, ∆b) were measured using a digital spectrophotometer at T0 and T3. Data were submitted to one-way (∆E00, ∆L, ∆a, ∆b) or two-way ANOVA repeated measures (kgF/mm2) and Tukey's test (a=5%). Results: The staining protocols (BT4 and BT24) promoted significantly lower microhardness (T1 and T2, p<0.05) than CO, whereas CO was the only group to maintain microhardness values over time. Bleaching promoted perceptible ∆E00 without a significant difference among the groups regardless of the staining protocol (p=0.122). CO and BT4 showed no differences in terms of ∆L and ∆a (p>0.05), but BT4 displayed a higher ∆b than CO. Conclusion:The artificial staining with BT negatively affected the enamel surface microhardness and was not essential to evaluate the efficacy of 35% hydrogen peroxide bleaching

The influence of the CIELAB parameters on the perception of color after the use of whitening toothpastes

Aim: To evaluate the influence of the parameters L* a* b* on the variation of the color of bovine tooth enamel submitted to artificial darkening, after simulated brushing, with whitening toothpastes containing blue covarine. Methods: To undertake this study in vitro, 60 specimens (SP) were divided into 6 groups (n=10): control group (CGwater) and 5 test groups (GT1-Colgate Total 12, GT2-Oral-B 3D White Perfection, GT3- Colgate Luminous Instant White, GT4-CloseUp White Diamond Attraction, GT5-Sorriso Xtreme White). The specimens were darkened with coffee and submitted to simulated brushing for 6, 12, and 24 months. The alteration in the color was evaluated using CIELAB parameters and the ΔL, Δa, Δb and ΔE were calculated. The data was analyzed through generalized linear models using the R program and considering a level of significance of 5%. Results: The parameters L*, a* and the ΔL, Δa obtained better results in the test group than in the control group. There were no statistical differences between CG and the test groups for the evaluation of the b* parameter. In the evaluation of the Δb, the GT3 differed statistically from the CG. In relation to the ΔE, all the group tests showed a variation in color statistically greater than that of the CG and the GT4 showed the greatest variation, not differing from the GT3 during the periods studied. Conclusion: The mechanical and optical whitening agents positively influenced the values L*a* and b*, as well as in its variations and in the ΔE. It is important to emphasize, however, that to analyze tooth whitening it is necessary to evaluate their parameters together

Evaluation of bleaching efficacy, microhardness, and trans-amelodentinal diffusion of a novel bleaching agent for an in-office technique containing hexametaphosphate and fluoride.

OBJECTIVE: This study evaluated in vitro the effects of calcium gluconate (CaGlu), sodium fluoride (NaF), sodium hexametaphosphate (HMP), and NaF/TMP added to a 35% hydrogen peroxide (H2O2) bleaching gel on the color change, enamel hardness, and trans-amelodentinal diffusion. MATERIALS AND METHODS: Enamel discs/bovine dentin (n = 150) were divided according to the bleaching gel: 35% H2O2 (H2O2); 35% H2O2 + 0.1% NaF (H2O2/NaF); 35% H2O2 + 1% HMP (H2O2/HMP); 35% H2O2 + 0.1% NaF + 1% HMP (H2O2/NaF/HMP), and 35% H2O2 + 2% CaGlu (H2O2/Caglu). The bleaching gels were applied three times (40 min/session) at 7-day intervals between each application. Then, color alteration (ΔE), whitening index (ΔWID), percentage of surface hardness loss (% SH), cross-sectional hardness (ΔKHN), and trans-amelodentinal diffusion were determined. Data were submitted for analysis of variance (ANOVA), followed by the Student-Newman-Keuls test (p < 0.05). RESULTS: All bleaching gels showed significant color changes after treatment (p < 0.001). ΔE and ΔWID were similar among the evaluated gels. Mineral loss (% SH and ΔKHN) and trans-amelodentinal diffusion of hydrogen peroxide were lower for H2O2/NaF/HMP; the H2O2/CaGlu group presented the highest values about the other groups (p < 0.001). CONCLUSION: It is possible to conclude that the addition of NaF/HMP to the in-office bleaching agent did not interfere with the bleaching efficacy and reduced enamel demineralization and H2O2 diffusion. CLINICAL SIGNIFICANCE: The association of NaF/HMP to the bleaching gel can be used as a novel approach for minimizing the adverse effects of H2O2 by-products and with similar clinical efficacy.

Deleterious Effects over Enamel Surface Bleached with Low and High Concentration Gels Containing Calcium In vitro Evaluation / Efectos Deletéreos sobre la Superficie del Esmalte Blanqueada con Geles de Alta y Baja Concentración que Contienen Calcio - Evaluación in vitro

ABSTRACT: The objective of this study was to evaluate the morphological effects of bleaching with hydrogen peroxide 40 % (HP 40 %) and carbamide peroxide 20 % (CP 20 %), with and without the addition of calcium (2000 ppm), in enamel. Bovine enamel blocks (25 mm2) were randomly divided into 5 groups (n=12) accordingly to the bleaching gel (HP 40 % and CP 20 %) and the presence of calcium (with and without). Control group were immersed in artificial saliva. The treatments were carried out for 14 days. Roughness (Ra) and Knoop microhardness analysis were performed for enamel surface before and after treatment. Data were analyzed by repeated measures ANOVA and Tukey test (p<0.05). The bleached group with 40 % HP had the lowest values of microhardness. There was a statistically significant difference between the initial and final readings. For surface roughness were no differences between the tested materials; but there was an increase of roughness for all groups after bleaching. It was concluded that all bleaching agents tested promoted a surface microhardness decrease after treatment, however the calcium addition promoted a slighter surface alteration, and all bleaching agents promoted a surface roughness increase after treatment.

RESUMEN: El objetivo de este trabajo fue evaluar los efectos morfológicos del blanqueamiento con peróxido de hidrógeno 40 % (HP 40 %) y peróxido de carbamida 20% (CP 20 %), con y sin calcio (2000 ppm), en el esmalte. Para este efecto se dividieron aleatoriamente bloques de esmalte bovino (25 mm2) en 5 grupos (n = 12) de acuerdo con el gel blanqueador (HP 40 % y CP 20 %) y la presencia de calcio (con y sin). El grupo de control se sumergió en saliva artificial. Los tratamientos se llevaron a cabo durante 14 días. Se realizaron análisis de rugosidad (Ra) y microdureza Knoop para la superficie del esmalte antes y después del tratamiento. Los datos fueron analizados mediante ANOVA de medidas repetidas y prueba de Tukey (p<0,05). El grupo blanqueado con 40 % de HP tuvo los valores más bajos de microdureza. Hubo una diferencia estadísticamente significativa entre el resultado inicial y final. Para la rugosidad de la superficie no hubo diferencias entre los materiales probados; pero hubo un aumento de rugosidad en todos los grupos después del blanqueo. Se concluyó que todos los agentes blanqueadores probados promovieron una disminución de la microdureza superficial después del tratamiento, sin embargo, la adición de calcio promovió una alteración superficial más leve y todos los agentes blanqueadores promovieron un aumento de la rugosidad superficial después del tratamiento.

Over-the-counter bleaching agents can help with tooth whitening maintenance.

OBJECTIVE: This study evaluated the influence of over-the-counter agents on the maintenance of color and microhardness of the enamel after home bleaching protocol. MATERIALS AND METHODS: Specimens of bovine teeth (6 × 6 × 2 mm) were prepared, and color (Easyshade, VITA) and microhardness (HMV-2, Shimadzu) readings were performed. All the specimens were bleached using 22% carbamide peroxide (22%CP), except for the control group, and then separated into seven groups (n = 10) according to the interaction of toothpaste (whitening, conventional, and whitening with peroxide) and mouth rinse (whitening and conventional). The study simulated 1 year of toothbrushing (Pepsodent, MAVTEC) and mouth rinse by immersion. After that, final color and microhardness measurements were performed. Data were analyzed by one-way ANOVA, Tukey's test (P < .05). RESULTS: The group submitted to 22%CP + whitening toothpaste + whitening mouth rinse showed higher color maintenance (P < .05) than the control group. The perception of whitening of teeth (ΔWID ) was higher than the color change (ΔE00 ). There was a decrease in microhardness after treatment with 22%CP + conventional toothpaste + whitening mouth rinse. CONCLUSIONS: Over-the-counter products can help with the maintenance of tooth whitening after bleaching with carbamide peroxide; however, special attention should be given since the association of products can also reduce the microhardness of the dental enamel. CLINICAL SIGNIFICANCE: The association between whitening toothpastes and mouth rinses might be beneficial for maintaining color during 1 year after bleaching treatment.

Cecropia pachystachya Trécul: a promising ingredient for skin-whitening cosmetics

Abstract Because it promotes the lightening of pigment spots, tyrosinase inhibition is one of the mechanisms of depigmenting cosmetic products. Considering the adverse effects produced by synthetic depigmenting actives, the search for new therapeutic options is desirable, and plant extracts are possible candidates for hyperpigmentation treatment. Glycolic extracts of Cecropia pachystachya Trécul are, therefore, the focus of this study. Its chemical characterization, antioxidant activity, tyrosinase inhibition, and cell viability were evaluated. Glycolic extracts were obtained by macerating the leaves of C. pachystachya in grain alcohol and glycerin or propylene glycol. Both had a similar chemical constitution, the glycerin being more efficient in concentrating phenolic compounds and flavonoids. Analyses by UHPLC-MS detected quinic acid, chlorogenic acid isomers, proanthocyanidin dimers type B and C, catechin/epicatechin, orientin/isoorientin, isoorientin 2"-O-xyloside, vitexin/isovitexin, and rutin. 5-O-caffeoylquinic acid was then quantified was then quantified, with predominance in the extract produced with propylene glycol. These extracts showed a high antioxidant capacity by the method of DPPH, ß-carotene, and nitric oxide. As for depigmenting activity, both extracts were able to inhibit tyrosinase. Cell viability assay also revealed that the extracts could safely be used in concentrations of ≤ 125 µg/mL. Thus, this study demonstrated for the first time that the glycolic extracts of C. pachystachya have promising chemical and biological characteristics for the development of a multifunctional cosmetic with antioxidant and tyrosinase-inhibition activities

Eficácia e segurança do enxaguatório clareador sobre o esmalte dental: estudo clínico controlado randomizado e estudo in vitro / Efficacy and safety of whitening mouthrinse on enamel: randomized clinical trial and in vitro study

Enxaguatórios clareadores tornaram-se muito populares devido ao seu fácil uso e disponibilidade. Contudo, não há evidência dos efeitos e segurança desses produtos sobre o esmalte sadio e desmineralizado. Esta proposta foi dividida em duas partes. A primeira foi um estudo clínico randomizado que avaliou a eficácia e segurança do enxaguatório clareador. Participantes (n=45) foram alocados aleatoriamente em três grupos de tratamento: LWE (Listerine Whitening Extreme­peróxido de hidrogênio a 2,5%); PL (Enxaguatório placebo); e OPF (Opalescence PF­peróxido de carbamida a 10%). O tratamento foi realizado 1x/dia por 14 dias durante 2h para OPF, e 2x/dia por 90 dias durante 30s para LWE e PL. A cor dos dentes foi avaliada com escalas de cor (DUEC) e por espectrofotometria. Foram avaliados sensibilidade dental, condição gengival, potencial de desmineralização do esmalte, e a satisfação do participante. As avaliações foram realizadas em diferentes tempos. Para as escalas de cor, KruskalWallis mostrou diferença significante entre os tratamentos nos tempos avaliados (p<0,05). LWE apresentou maiores valores de DUEC comparado ao PL a partir de 60 dias. PL e OPF exibiram valores constantes, sendo significativamente maiores para OPF. Para o espectrofotômetro, RM-ANOVA mostrou diferença significante para os grupos e interação (p<0,05). LWE apresentou maiores valores de alteração de cor do que PL a partir de T14. OPF exibiu os maiores valores de alteração de cor durante todo o período de estudo. Após 2 anos, houve manutenção da cor dos dentes para todos os grupos. Houve baixa intensidade de sensibilidade para LWE e OPF. Nenhum participante apresentou inflamação gengival. LWE e OPF promoveram uma diminuição significativa na concentração de cálcio, mas após 1 semana, os valores foram intermediários. A concentração de fosforo não apresentou alteração nos tempos avaliados. Todos os participantes ficaram satisfeitos com o tratamento com OPF e 67% dos participantes do grupo LWE apresentaram satisfação. A segunda parte consistiu em um estudo in vitro que comparou o efeito do enxaguatório clareador na desmineralização do esmalte e em lesões incipientes de cárie durante ciclagem de pH. Espécimes de esmalte/dentina bovino (n=120) com a superfície dividida em três áreas [esmalte sadio controle, esmalte tratado (ET); e lesão incipiente de carie tratada (LICT)] foram distribuídos aleatoriamente nos grupos experimentais: LWE; PL; OPF e água deionizada (AD). Os tratamentos (2min para LWE, PL e AD; e 2h para OPF) foram realizados durante uma ciclagem de pH de 28 dias (6´60min desmineralização). Intensidade de reflexão superficial (rSRI), perda mineral e concentração de flúor (espécimes adicionais) foram avaliados. Para ET, foi observado maior valor de rSRI em LWE (89,99%±6,94) e maior diminuição de rSRI foi observada para OPF e AD. Não houve perda mineral nos grupos (p>0,05). Para LICT, rSRI diminuiu significativamente após a ciclagem para todos os grupos sem diferença entre eles (p>0,05). Maior concentração de flúor foi encontrada em OPF. LWE e OPF exibiram efeitos semelhantes na perda mineral com valores intermediários. Houve eficácia clareadora tanto para LWE quanto para OPF e manutenção da cor após 2 anos. Houve efeito protetor do enxaguatório durante a ciclagem. (AU)

Whitening mouthrinses have become very popular because they are easy to use and are accessible. However, there is no evidence of the effects and safety of this product on sound and demineralized enamel. The proposal comprised in two parts. The first one was a randomized clinical trial that evaluated the efficacy and safety of the whitening mouthrinse. Participants (n=45) were randomly allocated to three treatment groups: LWE (Listerine Whitening Extreme­2.5% hydrogen peroxide); PL (placebo mouthrinse); and OPF (Opalescence PF­10% carbamide peroxide). The treatment was performed 1x/day for 14 days during 2h for OPF, and 2x/day for 90 days during 30s for LWE and PL. Tooth color was measured using shade guides (DUEC) and spectrophotometer. Tooth sensitivity, gingival condition, enamel demineralization potential, and participant satisfaction were analyzed. The analyses were performed in different times. For shade guides, Kruskal-Wallis showed a significant difference between treatments in the evaluated times (p<0.05). LWE showed higher DUEC values compared to PL after 60 days. PL and OPF exhibit constant values, being significantly higher for OPF. For spectrophotometer, RM-ANOVA showed significance for the groups and interaction (p<0.05). LWE showed higher color difference values than PL from T14. OPF exhibited the highest values throughout the study. After 2 years, there was maintenance of tooth color for all groups. There was lower intensity of sensitivity for LWE and OPF. No participant exhibited gingival inflammation. LWE and OPF promote a significant decrease in calcium concentration, but after 1 week the values were intermediate. Phosphorus concentration did not alter over time. All participants of OPF group were satisfied with the treatment and 67% of the participants of LWE group showed satisfaction. The second part of the study consisted of an in vitro study that compared the effect of whitening mouthrinse on enamel demineralization and on initial caries lesions. Bovine enamel/dentin specimens (n=120) had their surface divided into three areas [control sound enamel, enamel treated (ET); and initial caries lesion treated (ICLT)] and were randomly assigned to the experimental groups: LWE; PL; OPF; and deionized water (DW). The treatments (2min for LWE, PL and DW; and 2h for OPF) were performed during a 28-day pH cycle (6x60min demineralization). Surface reflection intensity (rSRI), mineral loss, and fluoride concentration (additional specimens) were performed. For ET, a higher value of rSRI was observed in LWE (89.99%±6.94) and a greater decrease in rSRI was observed for OPF and DW. There was no mineral loss in the groups (p>0.05). For ICLT, rSRI was significantly significant after cycling for all groups with no difference between them (p>0.05). Higher fluoride concentration was found in OPF. LWE and OPF exhibited similar effects on the mineral loss with intermediate values. There was whitening efficacy for both LWE and OPF and color maintenance after 2 years. There was a protective effect of the mouthrinse during cycling (AU)

Efectividad de sustancias químicas en el clareamiento y biopelícula dental aplicado en el consultorio y ambulatorio / Effectiveness of chemical substances in bleaching and dental biofilm applied in the office and outpatient

El blanqueamiento dental está considerado como pieza fundamental en el embellecimiento de los seres humanos, ya que permite la restauración de la "sonrisa perfecta". Este proceso en sí, es poco invasivo y juega como un gran papel como aliado en la restauración satisfactoria de la sonrisa y autoestima del paciente. Es un procedimiento que debe ser aplicado cuidadosamente para lograr los efectos positivos del mismo. El fundamento de esta técnica es aclarar la tonalidad que han sufrido los dientes por diversos factores: extrinsecos, intrínsecos y decoloraciones internas. Durante el procedimiento, es usual el uso de peróxido de hidrógeno (H2O2) en concentraciones que van del 10 al 32 % en volumen o el peróxido de carbamida, un compuesto conformado por peróxido de hidrógeno y urea concentraciones del 10 al 22 %. El uso de peróxido de hidrógeno se lleva a cabo fundamentalmente en los consultorios, mientras que el uso del peróxido de carbamida es un procedimiento doméstico. A pesar de los excelentes resultados que se obtiene al usar ambos blanqueadores, su uso puede ocasionar erosiones dentales y sensibilidad dentaria. El primer caso, puede llevar a la adherencia de bacterias cariogénicas como el Strepctococus mutans responsable de caries. Los resultados obtenidos, demostraron que el peróxido de hidrógeno es un agente más agresivo que el peróxido de carbamida, lo cual origina mayor sensibilidad dentaria y un mayor control bacteriano; en cambio el peróxido de carbamida fue mejor blanqueador y originó menor sensibilidad dental(AU)

Tooth whitening is considered a fundamental piece in the beautification of human beings, since it allows the restoration of the "perfect smile". This process itself is minimally invasive and plays a great role as an ally in the satisfactory restoration of the patient's smile and self-esteem. It is a procedure that must be carefully applied to achieve its positive effects. The basis of this technique is to clarify the shade that the teeth have suffered due to various factors: extrinsic, intrinsic and internal discoloration. During the procedure, the use of hydrogen peroxide (H2O2) in concentrations ranging from 10 to 32% by volume or carbamide peroxide, a compound made up of hydrogen peroxide and urea concentrations of 10 to 22%, is usual. The use of hydrogen peroxide is mainly carried out in offices, while the use of carbamide peroxide is a home procedure. Despite the excellent results obtained by using both whiteners, their use can cause dental erosion and tooth sensitivity. The first case can lead to the adherence of cariogenic bacteria such as Streptococcus mutans responsible for caries. The results obtained showed that hydrogen peroxide is a more aggressive agent than carbamide peroxide, which causes greater dental sensitivity and greater bacterial control; On the other hand, carbamide peroxide was a better whitener and caused less dental sensitivity(AU)

Effect of a hydrogen peroxide bleaching agent with calcium and phosphorus-containing salts on enamel surface hardness and roughness.

PURPOSE: To evaluate whether adding calcium and phosphorus-containing salts to 35% hydrogen peroxide at saturation concentrations with respect to hydroxyapatite would reduce its deleterious effects on bleached enamel or affect bleaching efficacy. METHODS: The saturation concentrations of elemental calcium and phosphorus in a 35% hydrogen peroxide solution were determined after equilibration with powdered enamel. The solubility limit of the salts in 35% hydrogen peroxide was then experimentally determined. Polished bovine enamel-dentin specimens (n=120) with known baseline enamel Knoop microhardness (KHN), surface roughness (Ra), and color were bleached with hydrogen peroxide containing different concentrations of calcium and phosphorus-containing salts as follows: Negative Control - water without any addition; Positive Control - 35% hydrogen peroxide without any addition; 50% of Ca and P - hydrogen peroxide with calcium and phosphorus-containing salt additions of 50% of the saturation concentration; 100% of Ca and P - hydrogen peroxide with calcium and phosphorus-containing salt additions of 100% of the saturation concentration; Ca limit - hydrogen peroxide with addition of calcium-containing salt at the solubility limit, and P limit - hydrogen peroxide with addition of phosphate-containing salt at the solubility limit. The prepared bleaching solutions were applied on the surface of the specimens for 60 minutes. The microhardness and surface roughness were measured immediately after bleaching, and the color change (ΔE*00) was evaluated after 7 days. RESULTS: One-way ANOVA showed significant differences among the groups for all evaluations (P< 0.05). The groups saturated with elemental calcium and/or phosphorus with respect to hydroxyapatite did not show significant changes in microhardness and roughness in relation to the negative control, while the positive control without mineral supplementation and the 50% saturated group showed reduced microhardness and increased roughness. The addition of calcium and/or phosphorus-containing salts in sufficient concentrations to create a saturated hydrogen peroxide solution with respect to hydroxyapatite was able to completely prevent surface changes without affecting the bleaching effect. CLINICAL SIGNIFICANCE: The addition of ions at saturation concentrations or higher with respect to hydroxyapatite can prevent enamel demineralization without compromising the efficacy of bleaching gels.

Change of dental color and temperature through two bleaching agents boosted with light emitted by diodes.

INTRODUCTION: The use of light sources during the application of bleaching can reduce the time and improve the results, but at the same time this can increase the dental temperature. The objective of this study was to evaluate the performance of two bleaching agents and the increase in dental temperature with the use of light emitted by diodes (LED)-unit. MATERIALS AND METHODS: Forty third molars were obtained and randomized: the whiteness without lamp (WHN) and Pola office without lamp (PON) groups, two bleaching systems based on 35% hydrogen peroxide were used, according to manufacturer specifications. For the whiteness with lamp (WHL) and Pola office with lamp (POL) groups the same bleaching agents were light boosted. A spectrophotometer and ∆WID equation was used to record and analyzed teeth color. An infrared thermometer was used to record the external and internal temperature. A ∆T was obtained by the difference of the temperature of the groups with and without LED (WHN-WHL and PON-POL). For statistical analysis Kruskal-Wallis test and Anova test were performed. RESULTS: The WHN, PON, WHL, and POL groups reported ∆WID values of 4.88 ± 1.08, 9.26 ± 3.27, 5.70 ± 2.48, 12.08 ± 5.44, respectively. The dates of internal temperature were 1.01 and 1.07°C, and for external temperature were 1.61 and 1.15°C respectively. CONCLUSIONS: With the limitations of this study, both bleaching agents reported a significant increase in ∆WID with and without association of light. Significant temperature increases were also observed. The highest average temperature increase was approximately 1.61°C. CLINICAL SIGNIFICANCE: Bleaching agents boosted with LED may improve the results of bleaching, but it is not essential to obtain good results.

Assessment of the effect of experimental bleaching agent with nano-bioactive material on postoperative sensitivity: A randomized, triple blind clinical trial.

OBJECTIVES: This clinical study aimed to evaluate the effect of incorporating bioactive nanoparticles (n-Bm) inside an in-office bleaching gel on the risk and intensity of tooth sensitivity (TS) and on bleaching effectiveness. MATERIALS AND METHODS: Sixty-six participants were selected and randomly assigned into two groups: control-only in-office gel and experimental-in-office gel with n-Bm. Teeth were bleached in two sessions (3 × 15-min). TS was recorded using a VAS and NRS. The color change was evaluated by subjective (VITA Classical and VITA Bleachedguide) and objective (Easyshade spectrophotometer) methods at baseline and 30 days after the end of treatment. The TS was evaluated by McNemar, Wilcoxon Signed Rank, and paired t test. The color changes between groups were compared using paired t test (α = 0.05). RESULTS: No significant differences between the groups were observed in the risk (control = 27% [95%IC 18-39]; experimental = 21% [95%IC 13-32]) and intensity of TS, as well as in the color change (p >0.05) for any color measurement. CONCLUSION: The inclusion of n-Bm into the bleaching agents did not affect the whitening effectiveness, as well as the risk and intensity of TS between groups. However, the results of the absolute risk of TS were low for both in-office gels used. CLINICAL SIGNIFICANCE: Despite no significant differences between groups, both experimental bleaching agents present suitable results with low values for TS.

Assessment of a novel bleaching agent formula containing 35% hydrogen peroxide and titanium tetrafluoride: an in vitro study.

This study developed experimental gels containing titanium tetrafluoride (TiF4) combined with commercial 35% hydrogen peroxide (HP), and evaluated bleaching efficacy and pH of the gels, and mineral content and morphology of enamel submitted to these treatments. In phase-1, different stock gels mixed with TiF4 were combined with HP. In phase-2, the selected gels were tested on enamel/dentin specimens (n=8): HP; HP and Natrosol+TiF4 (HPnT); HP and Natrosol+Chemygel+TiF4 (HPncT); HP and Aristoflex+TiF4 (HPaT). Bleaching was performed in four sessions (3x15min-application/session). Color (CIEL*a*b*) and whiteness index (WID) were measured after each session, whereas whiteness index differences (ΔWID), color alteration (CIELab-ΔE, CIEDE2000-ΔE00), enamel morphology and pH, at end of bleaching therapy. The change in Knoop microhardness (ΔKHN) was compared before and after bleaching. Data were analyzed by two-way repeated measures ANOVA and Bonferroni (CIEL*, a*, b*), one-way ANOVA and Tukey (ΔWID, ΔE, ΔE00), and LSD (ΔKHN) tests (α=5%). SEM and pH measurements were submitted to descriptive analysis. No differences were observed in lightness (L*) or WID among the groups (p > 0.05), but HP exhibited lower b* values (p<0.05), higher ΔWID than HPnT, and the highest ΔE among the groups (p < 0.05). No differences in ΔE00 were observed between HP and HPncT (p > 0.05), and HPncT showed higher ΔKHN than HP (p < 0.05). HP presented pH values closer to neutral (6.9), whereas experimental agents showed acidic pH values (2.3-3.9). No morphological changes were observed in HP or HPncT groups. HPncT was able to bleach the enamel and maintain enamel microhardness and surface integrity, even at low pH.

Evaluation of Dental Enamel Mass in Prolonged Supervised Dental Bleaching Protocol with Calcium-Containing Gel / Evaluación de la Masa de Esmalte Dental Expuesto a Protocolo de Blanqueamiento Dental Supervisado Prolongado con Gel Conteniendo Calcio

The objective of this study was to determine the enamel mass variation after a prolonged bleaching treatment using a calcium-containing 4% hydrogen peroxide gel Twenty sound bovine incisors were randomly assigned to two groups (n=10) stored in G1) distilled water and G2) artificial saliva. An electronic analytic scale (.000 grams measurements) was used to determine the enamel mass variation before and after the bleaching procedures at the following evaluation times: T0) before the bleaching procedures; T1) 14 days of treatment, as instructed by the manufacturer; T2) 21 days of treatment, 50 % beyond what is instructed by the manufacturer; and T3) 28 days of treatment, 100 % beyond what is instructed by the manufacturer. The highest mean was observed at T2/G2 (0.3259 g) and the lowest at T2/G1 (0.3265 g). The specimens stored in distilled water (G1) showed 6 % mass reduction when T0 (0.3277 g) was compared to T3 (0.3277 g). On the other hand, the specimens stored in artificial saliva exhibited a significant mass increase of 19 % when T0 (0.3521 g) was compared to T3 (0.3528 g). Prolonged bleaching therapy using 4 % hydrogen peroxide with calcium resulted in a massive reduction when water was used as a storage medium. When the specimens were stored in artificial saliva, an increase in mass was observed, probably due to the mineralizing properties of the artificial saliva.

El objetivo de este estudio fue determinar la variación de la masa del esmalte después de un tratamiento de blanqueamiento prolongado utilizando calcio conteniendo un gel de peróxido de hidrógeno al 4 %. Veinte incisivos bovinos intactos fueron asignados aleatoriamente a dos grupos (n-10) almacenados en G1 - agua destilada y G2- saliva artificial. Se utilizó una escala analítica electrónica (.000 gramos) para determinar la variación de la masa de esmalte antes y después de los procedimientos de blanqueamiento en los siguientes tiempos de evaluación: T0) antes de los procedimientos blanqueadores; T1) 14 días de tratamiento, según las instrucciones del fabricante; T2) 21 días de tratamiento, 50 % más allá del tiempo indicado por el fabricante; y T3) 28 días de tratamiento, 100 % más allá del tiempo indicado por el fabricante. La media más alta se observó en T2/G2 (0,3259 g) y la más baja en T2/G1 (0,3265 g). Los especímenes almacenados en agua destilada (G1) mostraron una reducción de masa del 6 % cuando se comparó T0 (0,3277 g) con T3 (0,3277 g). Por otro lado, los dientes almacenados en saliva artificial mostraron un aumento significativo de masa del 19 % cuando se comparó T0 (0,3521 g) con T3 (0,3528 g). La terapia de blanqueamiemto prolongado con calcio conteniendo un gel de peróxido de hidrógeno al 4 % condujo a una reducción masiva cuando se utilizó agua como medio de almacenamiento, mientras que los dientes almacenados en saliva artificial mostraron un aumento en la masa, probablemente debido a las propiedades remineralizadoras de la saliva artificial.