Your search keyword '"Borges CPF"' showing total 18 results

1. Bleaching Gels Used After 1 Week of Mixing: Efficacy, Hydrogen Peroxide Penetration, and Physical–chemical Properties

Author

Forville, H, primary, Favoreto, MW, additional, Carneiro, TS, additional, Terra, RMO, additional, Pinheiro, LA, additional, Borges, CPF, additional, Loguercio, AD, additional, and Reis, A, additional

Published

2023

2. Application Tip and Concentration of a Self-mixing Bleach: Hydrogen Peroxide Inside the Pulp Chamber, Color Change, and Amount of Bleaching Gel Used

Author

Carneiro, TS, primary, Favoreto, MW, additional, Bernardi, LG, additional, Bandeca, MC, additional, Borges, CPF, additional, Reis, A, additional, and Loguercio, AD, additional

Published

2023

3. Effects of the Concentration and Composition of In-office Bleaching Gels on Hydrogen Peroxide Penetration into the Pulp Chamber

Author

Mena-Serrano, AP, primary, Parreiras, SO, primary, Nascimento, EMS do, primary, Borges, CPF, primary, Berger, SB, primary, Loguercio, AD, primary, and Reis, A, primary

Published

2015

4. Synthesis and characterization of different nano-hydroxyapatites and their impact on dental enamel following topical application for dental bleaching.

Author

Murr CG, Favoreto MW, da Silva KL, Borges CPF, Loguercio AD, Reis A, and Antunes SRM

Subjects

Humans, Spectroscopy, Fourier Transform Infrared, Hydrogen-Ion Concentration, Color, Nanoparticles chemistry, Hydroxyapatites chemistry, Durapatite chemistry, Materials Testing, Tooth Bleaching methods, Dental Enamel drug effects, Tooth Bleaching Agents chemistry, Tooth Bleaching Agents administration & dosage, Hydrogen Peroxide, Microscopy, Electron, Scanning, X-Ray Diffraction, Surface Properties

Abstract

Objective: This study aims to synthesize, characterize, and assess the penetration of hydrogen peroxide (HP), color change (CC), and surface morphology changes after the application of two distinct nano-hydroxyapatite (nano-HAp)., Methods: Two nano-HAp were previously synthesized by co-precipitation: one with rod-shaped particles (RS) and the other with spherical-shaped particles (SS). The surface charge of the nano-HAp particles was determined at varying pH levels and characterized by X-ray diffraction patterns and Fourier transform infrared spectroscopy. The morphology of the samples was assessed using scanning electron microscopy (SEM). The nano-HAp particles were applied before the dental bleaching procedure. Forty teeth were divided into four groups (n = 10) according to the bleaching treatment: no treatment, bleaching with 35 % HP only, RS application and bleaching with 35 % HP, and SS application and bleaching with 35 % HP. HP concentration (µg mL -1 ) was measured using UV-Vis, while CC was evaluated with a digital spectrophotometer (ΔE ab , ΔE 00 and WI D ). Additionally, four teeth from each group were selected for SEM analysis. Statistical analysis encompassed one-way ANOVA, Tukey's, and Dunnet's tests., Results: RS and SS were successfully synthesized by coprecipitation, primarily differing in pH during synthesis. Both variations of nano-HAp morphology significantly reduced HP diffusion into the pulp chamber (p < 0.001). Regarding enamel morphology, groups analyzed post dental bleaching exhibited greater HAp deposition on the enamel surface. Notably, this deposition did not impede CC., Significance: The utilization of different nano-HAp morphologies prior to dental bleaching appears to be a promising strategy for mitigating adverse effects associated with dental bleaching procedures., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

5. Whitening toothpastes with hydrogen peroxide concentrations vs. at-home bleaching.

Author

Barbosa LMM, de Souza Carneiro T, Favoreto MW, Borges CPF, Reis A, Meireles SS, and Loguercio AD

Subjects

Humans, In Vitro Techniques, Bicuspid, Viscosity, Hydrogen-Ion Concentration, Spectrophotometry, Ultraviolet, Urea analogs & derivatives, Urea pharmacology, Hydrogen Peroxide, Tooth Bleaching methods, Toothpastes chemistry, Tooth Bleaching Agents chemistry, Spectrophotometry, Carbamide Peroxide

Abstract

Objectives: To evaluate the effect of whitening toothpastes with different hydrogen peroxide (HP) concentrations on HP permeability, color change, and physicochemical properties, compared to at-home bleaching treatment., Materials and Methods: Forty-nine premolars were randomized into seven groups (n = 7): untreated (control); at-home bleaching with 10% carbamide peroxide gel (AH; 10% CP) with 14 and 28 applications of 180 min each (AH [14 × 180 min] and AH [28 × 180 min]); three whitening toothpastes (3% HP; 4% HP and 5% HP) and 10% CP brushed 28 times for 90 s each (TB [28 × 90 s]). HP permeability was measured using a UV-VIS spectrophotometer and color change by a digital spectrophotometer (ΔE ab , ΔE 00 , and ΔWI D ). Initial concentration, pH, and viscosity were measured through titration, digital pH meter, and rheometer, respectively. Statistical analysis included one-way ANOVA, Tukey's test, and Dunnett's test (α = 0.05)., Results: 4% HP group showed acidic pH, the lowest viscosity and the highest HP concentration into the pulp chamber (p < 0.05). The 10% CP groups had lower HP in the pulp chamber and greater color change than other groups (p < 0.05), except the 5% HP group in ΔE ab and ΔE 00 . For ΔWI D , the 10% CP AH groups showed greater whitening than other groups (p < 0.05)., Conclusions: Whitening toothpaste with up to 5% HP resulted in higher HP permeability and less color change compared to 10% CP. Higher HP commercial concentrations in toothpaste increased whitening effect; however, acidic pH toothpastes exhibited greater HP permeability., Clinical Relevance: Whitening toothpastes with high hydrogen peroxide concentrations were less effective than at-home bleaching, resulting in less color change and greater permeability of hydrogen peroxide, potentially increasing the risk of tooth sensitivity., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

6. Effect of whitening toothpastes with different hydrogen peroxide concentrations: Penetration into the pulp chamber and color change.

Author

Barbosa LMM, Carneiro TS, Favoreto MW, Borges CPF, Reis A, Loguercio AD, and Meireles SS

Subjects

Humans, Hydrogen-Ion Concentration, Viscosity, Materials Testing, Time Factors, Spectrophotometry, Bicuspid, Spectrophotometry, Ultraviolet, Hydrogen Peroxide chemistry, Tooth Bleaching Agents pharmacokinetics, Tooth Bleaching Agents chemistry, Toothpastes chemistry, Color, Tooth Bleaching methods, Dental Pulp Cavity metabolism, Toothbrushing

Abstract

Objectives: This study evaluated the efficacy of simulated brushing with toothpastes containing different concentrations of hydrogen peroxide (HP) in pulp chamber penetration and color change. Also, physical-chemical properties (concentration, pH and viscosity) were evaluated., Methods: Forty-nine premolars were divided into seven groups (n = 7): untreated (control); whitening gel (White Class 6 %, 6 %BG) with one 90  min application (6 %BG 90  min) and 14 applications of 90  min (6 %BG 14×90 min); toothpastes (Colgate Luminous White Glow 3 %, 3 %TP; Crest 3D White Brilliance 4 %, 4 %TP; Colgate Optic White Pro-Series 5 %, 5 %TP) and 6 %BG toothbrushing for 14 applications of 90 s. HP penetration into the pulp chamber was measured through UV-Vis spectrophotometry and color change with a spectrophotometer (ΔE ab , ΔE 00 , and ΔWI D ). Initial concentration, pH, and viscosity were measured through Titration, Digital pH-meter, and Rheometer, respectively. Statistical analysis used one-way ANOVA and Tukey's test (α = 0.05)., Results: 6 %BG (14×90 min) and 4 %TP groups showed acidic pH and higher concentrations of HP in the pulp chamber compared to the other groups (p < 0.05). On the other side, 3 %TP and 5 %TP groups showed alkaline pH, higher viscosity between the toothpastes and lower HP penetration (p < 0.05). The 6 %BG AH (14×90 min) group exhibited the most significant color change (ΔE ab , ΔE 00 , and ΔWI D ) (p < 0.05)., Conclusions: Brushing with whitening toothpaste with an acidic pH leads to greater HP penetration into pulp chamber; but, even when a high concentrated HP whitening toothpaste was used, a lower whitening effect was observed when compared to a two-week at-home bleaching., Clinical Significance: Whitening toothpastes containing up to 5 % HP produced lower whitening effect than two-week at-home bleaching. Additionally, HP was detected within the pulp chamber which can potentially impact in tooth sensitivity., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

7. At-home bleaching with carbamide peroxide with concentrations below 10%: bleaching efficacy and permeability in the pulp chamber.

Author

Cordeiro DCF, Favoreto MW, Centenaro GG, Gumy FN, Loguercio AD, Borges CPF, and Reis A

Subjects

Humans, Carbamide Peroxide, Dental Pulp Cavity, Hydrogen Peroxide, Hypochlorous Acid, Gels, Urea pharmacology, Peroxides pharmacology, Tooth Bleaching Agents pharmacology, Tooth Bleaching methods

Abstract

Objectives: To evaluate the bleaching efficacy and permeability of hydrogen peroxide (HP) in the pulp chamber of human teeth bleached with lower concentrations of carbamide peroxide gel (4%, 5% and 7% CP)., Materials and Methods: Bleaching gels with lower concentrations were formulated and a commercial standard gel, 10% CP, was used as a reference. Fifty-six human premolars were randomly divided into four groups. Applications of the bleaching gel were made for 3 h for 21 days. The bleaching efficacy was evaluated by digital spectrophotometry on 1, 7, 14 and 21 days, with analysis in the ∆E ab , ∆E 00 and WI D color spaces. The concentration of HP in the pulp chamber was measured in the same periods by UV-Vis spectrophotometry (µg/mL). Two-way repeated analysis of variance (ANOVA) examined bleaching efficacy and HP permeability, followed by Tukey's post-hoc test (α = 0.05)., Results: All groups showed significant color changes, with no statistical differences after the second and third week of bleaching (p > 0.05). The 'time' factor was statistically different (p < 0.05), increasing the bleaching efficacy throughout the treatment. The 4% CP group had lower HP levels in the pulp chamber (p < 0.05)., Conclusions: The results seem promising, revealing that low concentration gels are as effective as 10% CP with the benefit of reducing the amount of HP in the pulp chamber., Clinical Relevance: Low concentration 4% PC and 5% PC maintains bleaching efficacy, reduces the penetration of HP peroxide into the pulp chamber, and may reduce tooth sensitivity., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

8. Evaluation of hydrogen peroxide permeability, color change, and physical-chemical properties on the in-office dental bleaching with different mixing tip.

Author

Favoreto MW, Parreiras SO, Wendlinger M, Carneiro TS, Lenhani MI, Borges CPF, Reis A, and Loguercio AD

Subjects

Hydrogen Peroxide, Dental Enamel, Gels, Color, Tooth Bleaching methods, Tooth Bleaching Agents

Abstract

Objective: This study aims to assess hydrogen peroxide (HP) penetration into the pulp chamber, color change (CC), physical-chemical properties, and material wastage (MW) and material used (MU) in mixing tips when using in-office bleaching gels with two different mixing tips., Materials and Methods: Forty teeth were divided into five groups (n = 8) based on the bleaching gels used (Pola Office +37.5% [PO+] and Whiteness HP Automixx Plus 35% [AM+]) and the mixing tip types (T-Mixer and Helical). A negative control group was treated with ultra-purified water. HP concentration was measured using UV-Vis, and CC was evaluated with a digital spectrophotometer. Initial concentration, pH, and viscosity were measured through Titration, a Digital pH meter, and Rheometer, respectively. MW and MU were measured using a precise analytical balance. Statistical analysis included two-way ANOVA, Tukey's, and Dunnett's test (α = 0.05)., Results: A higher HP concentration was observed with PO+ with the Helical mixing tip in comparison with AM+ (p = 0.01). No significant differences in CC or MU were found for different mixing tips (p = 0.001). The T-mixer mixing tip resulted in significantly less MW (p < 0.00001) and improved mixture homogeneity and viscosity., Conclusions: Utilizing a T-mixer with self-mixing bleaching gels achieves comparable CC while reducing MW. Moreover, it decreases HP penetration when using PO+., Clinical Significance: For the application of a self-mixing in-office bleaching gel, a T-mixer mixing tip should be recommended, as it reduces the penetration of hydrogen peroxide into the pulp chamber when using PO+, while also minimizing gel wastage., (© 2023 Wiley Periodicals LLC.)

Published

2024

9. Low and high hydrogen peroxide concentrations of in-office dental bleaching associated with violet light: an in vitro study.

Author

Vardasca IS, Favoreto MW, de Araujo Regis M, de Souza Carneiro T, Hul EA, Borges CPF, Reis A, Loguercio AD, and Francci C

Subjects

Hydrogen Peroxide, Peroxides, Hypochlorous Acid, Gels, Tooth Bleaching, Tooth Bleaching Agents

Abstract

Objectives: This study aims to assess hydrogen peroxide (HP) penetration within the pulp chamber, color change (CC), physical-chemical properties, and temperature using in-office different concentration bleaching gels with or without violet light., Materials and Methods: Fifty teeth were divided into five groups (n = 10) based on the HP concentration bleaching gels used (6% and 35%) and the used violet light (with or without). HP penetration within the pulp chamber was measured using UV-Vis. The CC was evaluated with a digital spectrophotometer. Initial and final concentration, and pH were measured through titration, and a Digital pHmeter, respectively. Temperature analyses were measured through a thermocouple. Statistical analysis included two-way ANOVA, Tukey's, and Dunnett's test (α = 0.05)., Results: The presence of violet light did not affect the amount of HP within the pulp chamber, or the CC (p > 0.05). Greater penetration of HP was observed within the pulp chamber, as well as CC when using 35% HP (p < 0.05). The final concentration of both gels was lower than the initial concentration, regardless of the use of violet light (p < 0.05). The initial and final pH levels remained neutral and stable (p > 0.05). The pulp temperature increased when the gels were used in conjunction with violet light (p < 0.05)., Conclusions: Using violet light in conjunction with 6% or 35% HP does not alter the physical properties of the bleaching agents, the penetration of HP or enhance color change. However, an increase in temperature was observed when violet light was applied associated with bleaching gels., Clinical Relevance: While the simultaneous use of violet light with hydrogen peroxide 6% or 35% does not alter the material's properties, it also does not bring benefits in reducing hydrogen peroxide penetration and improving color change. Furthermore, the use of violet light increases pulp temperature., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

10. Can all highly concentrated in-office bleaching gels be used as a single-application?

Author

da Silva KL, Favoreto MW, Centenaro GG, Bernardi LG, Borges CPF, Reis A, and Loguercio AD

Subjects

Dental Enamel, Gels, Hydrogen Peroxide, Hypochlorous Acid, Tooth Bleaching methods, Tooth Bleaching Agents

Abstract

Objective: This in vitro study aims to evaluate of hydrogen peroxide (HP) diffusion into the pulp chamber, bleaching efficacy (BE), and pH stability (pH) of single-application high concentrated in-office bleaching gels., Materials and Methods: Eighty-eight healthy premolars were randomly into eleven groups (n = 8) according to the in-office dental bleaching: DSP White Clinic 35% calcium (DW), Nano White 35% (NW), Opalescence XTra Boost 40% (OB), Pola Office + 37.5% (PO), Potenza Bianco Pro SS 38% (PB), Total Blanc 35% (TB), Total Blanc One-Step 35% (TO), Whiteness Automixx 35% (WA), Whiteness Automixx Plus 35% (WP), and Whiteness HP Blue 35% (WB). A group not exposed to bleaching agents was the control group (CG). All bleaching agents were applied in one session with a single application. After the bleaching procedure, the concentration of HP diffusion (μg/mL) into the pulp chamber was assessed using UV-Vis spectrophotometry. The BE (ΔE ab and ΔE 00 ) was evaluated before and 1 week after the bleaching procedure using a digital spectrophotometer. The pH of each bleaching gel was evaluated by digital pHmeter. The one-way ANOVA and Tukey's was used for a statistical analysis (α = 0.05)., Results: The concentration of HP diffusion into the pulp chamber was higher in all in-office bleaching gels when compared to CG (p < 0.0000001). However, there are a significant difference between them (p = 0.0001). A significant BE was observed in all in-office bleaching gels (p < 0.0001 for ΔE ab and ΔE 00 ), with a significant difference between them (p < 0.0001). PO, OB, TB, WP, and WB showed a higher BE when compared to DW, PB, and WA (p < 0.0001). Most bleaching gels were slightly acidic or alkaline during the total application time, while DW, PB, TB, and WA showed a high acidic behavior after 30 min of application., Conclusions: A single application was able to produce a bleaching efficacy. However, usually, gels with slightly acidic or alkaline pH during the application time reduces the HP diffusion into the pulp chamber., Clinical Relevance: The single-application of bleaching gels with slightly acidic or alkaline and stable pH decreased the penetration of hydrogen peroxide into the pulp chamber in in-office bleaching and maintained the bleaching efficacy., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

11. Use of an applicator brush with high concentration bleaching gels.

Author

Bernardi LG, Favoreto MW, Carneiro TS, Mena-Serrano A, Borges CPF, Reis A, and Loguercio AD

Subjects

Gels, Hydrogen Peroxide, Hypochlorous Acid, Potassium Permanganate, Bicuspid, Humans, Tooth Bleaching instrumentation, Tooth Bleaching methods, Tooth Bleaching Agents administration & dosage

Abstract

Objectives: To evaluate in vitro two high concentration self-mix bleaching gels (35% or 37.5%) with different application tips (with or without an applicator brush) during in-office bleaching., Materials and Methods: Healthy premolars were randomly assigned to five groups (n = 8): no treatment; 35% HP without applicator brush, 35% HP with applicator brush, 37.5% HP without applicator brush, and 37.5% HP with applicator brush. After the procedures, the concentration of HP transferred into the pulp chamber was evaluated using UV-Vis. The amount of gel used in each group was measured on a precision analytical balance. Color change (ΔE ab , ΔE 00 , and ΔWI D ) was evaluated with a digital spectrophotometer. Initial concentration was measured by titration with potassium permanganate. The pH was evaluated using a digital pH meter. The data from each test were submitted to nonparametric tests (α = 0.05)., Results: Using a tip with an applicator brush expended less gel and left a lower amount of HP inside the pulp chamber compared to the tip without a brush for both bleaching gels (p < 0.0003), although no significant difference in color change was observed (p < 0.05). The 37.5% HP showed a more stable and less acidic pH and a lower amount of HP in the pulp chamber than the 35% HP (p < 0.00001)., Conclusion: The HP penetration into the pulp chamber was lower when using an applicator with a brush tip than when using one with a conventional tip. As for the color, both tips were considered to lighten teeth., Clinical Significance: For the application of a self-mixing high concentration in-office bleaching gel, a brush tip should be recommended because its use diminishes the penetration of HP into the pulp chamber and wastes less bleaching gel., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2022

12. Effects of microabrasion association to at-home bleaching on hydrogen peroxide penetration and color change.

Author

Bernardi LG, Favoreto MW, de Souza Carneiro T, Borges CPF, Pulido C, and Loguercio AD

Subjects

Color, Dental Pulp Cavity, Enamel Microabrasion, Humans, Hydrogen Peroxide, Tooth Bleaching methods, Tooth Bleaching Agents

Abstract

Purpose: This study aimed to quantify the penetration of hydrogen peroxide (HP) inside the pulp cavity and color change with two different concentrations of HP to at-home bleaching associated or not with enamel microabrasion (MA)., Methods: Forty healthy premolars were randomly divided in four groups (n = 10): only HP4%, MA + HP4%, only HP10%, MA + HP10%. The concentration (μg/ml) of HP was assessed using UV-Vis spectrophotometry. The color change (ΔE ab , ΔE 00 and WI D ) was evaluated before and one-week after bleaching. Data were evaluated for a two-way ANOVA and the Tukey's test (α = 0.05)., Results: The application of MA increased the amounts of HP inside the pulp chamber when compared to without MA, as well as PH10% when compared to PH4% (p < 0.0001). PH10% showed higher WI D when compared to PH4%. No significant difference was observed when ΔE ab , and ΔE 00 were used., Conclusions: The enamel MA before at-home bleaching promotes greater penetration of HP, although this procedure did not significantly affect the color change., Clinical Significance: Since greater penetration of HP into the pulp chamber was detected when home bleaching was applied immediately after MA, the clinician should not apply home bleaching gels in the same session when MA was performed., (© 2021 Wiley Periodicals LLC.)

Published

2022

13. In-office bleaching with a commercial 40% hydrogen peroxide gel modified to have different pHs: Color change, surface morphology, and penetration of hydrogen peroxide into the pulp chamber.

Author

Acuña ED, Parreiras SO, Favoreto MW, Cruz GP, Gomes A, Borges CPF, Loguercio AD, and Reis A

Subjects

Dental Pulp Cavity, Gels, Hydrogen Peroxide, Tooth Bleaching, Tooth Bleaching Agents pharmacology

Abstract

Objective: In-office bleaching gels are usually marketed in different pHs. This study is aimed at evaluating the efficacy, enamel surface morphology and concentration of hydrogen peroxide (HP) in the pulp chamber of teeth bleached with 40% HP with different pHs., Materials and Methods: Forty premolars were randomly divided according to bleaching gel pH: 5.1, 6.3, 7.0, and control (no bleaching). Teeth were prepared, an acetate buffer was placed in the pulp chamber and teeth were bleached with two 20-minutes applications. The amount of HP was determined on a UV-VIS spectrophotometer. Color change was assessed by using a digital spectrophotometer before and 1 week after bleaching treatment. Five additional premolars were divided into four parts, assigned to the same groups above for analysis under scanning electron microscope. Data were subjected to anova and Tukey's tests (alpha = 0.05)., Results: The group pH 5.1 showed the highest HP diffusion in the pulp chamber (P < .001). No significant difference was detected in color change (P = .51). All groups presented the same pattern of enamel demineralization., Conclusions: The bleaching agent with pH 5.1 presented the highest HP amounts in the pulp chamber, but color change and enamel morphology were similar among groups., Clinical Significance: Regardless of the pH, the bleaching effect can be observed in teeth submitted to high concentrations of HP, but a higher permeability of HP was found in the pulp chamber of teeth bleached with more acidic bleaching agents. Based on that, we suggest the use of alkaline gels for in-office bleaching to minimize damage to the pulpal tissue., (© 2019 Wiley Periodicals, Inc.)

Published

2022

14. Synthesis of zeolites from residual diatomite using a microwave-assisted hydrothermal method.

Author

Stafin G, Grzebielucka EC, Antunes SRM, Borges CPF, de Andrade AVC, Alves SA, and de Souza ÉCF

Subjects

Adsorption, Diatomaceous Earth, Industrial Waste analysis, Microwaves, Zeolites

Abstract

Population growth directly affects the industrial production sector, as well as the quantities of waste generated in this sector. Diatomite is a typical example of such industrial waste and is used for the filtration of various products. With the aim of increasing its value, the present study employs this residue, following its usage in beer filtration, as a silicon source for the synthesis of zeolites. Two synthetic routes are used, namely, hydrothermal treatment with and without a pre-treatment step in a conventional microwave for 3-24 h. The results of the compositional and morphological characterization show that the use of a few minutes of microwave radiation reduces the process of zeolite synthesis to 15 h compared to the synthesis without pre-treatment, as well as reducing the production costs. The efficiency of microwave radiation is assessed with regards to solubilizing the residue, the possibility of employing a device of conventional use and the possibility of putting to use the diatomite residue, turning it into a versatile material that can be applied in several areas and process, such as industrial catalysts, the adsorption of environmental pollutants (ions and molecules) and water treatment via ion-exchange resins., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

15. A novel carbamide peroxide polymeric nanoparticle bleaching gel: Color change and hydrogen peroxide penetration inside the pulp cavity.

Author

Favoreto MW, Madureira MP, Hass V, Maran BM, Parreiras SO, Borges CPF, Reis A, and Loguercio AD

Subjects

Carbamide Peroxide, Color, Hydrogen Peroxide, Peroxides, Urea, Nanoparticles, Tooth Bleaching, Tooth Bleaching Agents

Abstract

Objective: This study evaluated the hydrogen peroxide (HP) penetration inside the pulp cavity and the color change of teeth submitted to the 15% carbamide peroxide (CP) nanoparticle bleaching gel at several application times., Materials and Methods: Premolars were divided into nine groups (n = 6) according to 15% CP bleaching agents (nanoparticle and commercial) and to application times (15, 30, 45, and 60 minutes). A negative control was exposed to ultra-purified water. After a whitening procedure, the HP concentration (μg/mL) inside the pulp cavity was assessed via spectrophotometry. The color change (ΔE* and ΔE00*) was evaluated with a spectrophotometer. Data were analyzed via two-way ANOVA and Tukey (α = 0.05)., Results: A lower concentration of HP was detected for CP nanoparticle gel after 30 and 45 minutes of whitening procedure (P = .001). The bleaching groups promoted a higher color change (ΔE* and ΔE00*) regardless of the application time (P = .0001)., Conclusions: The CP nanoparticle gel reduced HP inside the pulp cavity, and showed effective bleaching compared with CP commercial gel., Clinical Significance: Using 15% carbamide peroxide nanoparticle bleaching gel decreased the HP penetration inside the pulp cavity and may decrease bleaching-induced tooth sensitivity in at-home bleaching., (© 2020 Wiley Periodicals LLC.)

Published

2021

16. Visible light activated magnetic photocatalysts for water treatment.

Author

Almeida F, Grzebielucka EC, Antunes SRM, Borges CPF, Andrade AVC, and Souza ÉCF

Subjects

Catalysis, Coloring Agents, Light, Water, Water Purification

Abstract

Environmental concerns have been raised regarding the intense contamination of water resources. Currently, numerous contaminants that reach water bodies are not efficiently removed by conventional water treatment methods. Therefore, there arises the need for development and optimization of efficient treatment methods for the removal of such recalcitrant contaminants. Given the circumstances, the present study aims to use of advanced oxidative processes for dye degradation. For this purpose, copper and zinc doped cobalt ferrites were synthesized by coprecipitation, targeting the degradation of methylene blue dye. The photocatalysts were characterized by XRD, WD-XRF, FE-SEM, N 2 physisorption isotherms, UV-Vis diffuse reflectance spectroscopy, molecular fluorescence spectroscopy and zeta potential. According to the investigation of the degradation mechanism, the holes and hydroxyl radicals were mainly responsible for the dye's degradation. The obtained photocatalysts displayed promising results with up to 99% of dye degradation, employing conventional visible LED lamps, making the practical use of the catalyst highly viable, as well as the economic matters. Additionally, the synthesized materials' magnetic properties allowed total and efficient separation of the catalyst for its reutilization up to 4 cycles, with no decrease in photocatalytic activity and with low leaching of iron ions to solution., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

17. Effect of Prior Application of Desensitizing Agent on the Teeth Submitted to In-Office Bleaching.

Author

Parreiras SO, Favoreto MW, Lenz RE, Serra ME, Borges CPF, Loguercio AD, and Reis A

Subjects

Dental Enamel, Dental Pulp Cavity, Hydrogen Peroxide, Tooth Bleaching, Tooth Bleaching Agents

Abstract

This study aimed to quantify the penetration of hydrogen peroxide, color change evaluation, surface morphology, and composition after application of desensitizing agents before in-office bleaching. Fifty premolars were sectioned, an acetate buffer was placed in the pulp chamber and divided into five groups (n=10). In the positive control group, only the in-office bleaching gel was used, and in the negative control group, no treatment was used. Three different desensitizing agents were applied: Desensibilize KF2%® group; Mi Paste® group, and Desensibilize Nano-P® group. The bleaching procedure was carried out with 35% HP. The absorbance of the resulting solution was determined in a spectrophotometer. Color change was assessed by using a digital spectrophotometer. Four additional premolars were assigned to the same groups above for analysis under scanning electron microscope, as well as to evaluate the elemental composition with X-ray dispersive energy spectrometry. Data were subjected to ANOVA and Tukey's test (α=0.05). All products reduced the penetration of HP in the pulp chamber. Mi Paste and Nano P were the products that yielded the lowest HP penetration, which was similar to the negative control group (p<0.001). No significant difference was detected in color change (p<0.001). Concerning enamel morphology, the groups that were analyzed after bleaching were observed a greater deposition of desensitizing agents on the surface. The use of desensitizing agents before tooth bleaching seems to be an alternative to reduce adverse effects of the tooth.

Published

2020

18. The effect of stainable drinks followed by simulated brushing on the roughness and stainability of acrylic resins polymerized with different cycles.

Author

Figuerôa RMS, de Albuquerque KB, Borges CPF, Sánchez-Ayala A, Bombarda NHC, Arrais CAG, Neppelenbroek KH, and Urban VM

Subjects

Materials Testing, Microwaves, Polymerization, Surface Properties, Acrylic Resins, Toothbrushing

Abstract

Statement of Problem: No information is available on roughness and stainability of acrylic resins polymerized by experimental microwave cycles after immersion in stainable liquids and simulated brushing., Purpose: The purpose of this in vitro study was to evaluate the effect of stainable drinks and brushing on roughness and stainability of acrylic resins (Vipi Cril [CA] and Vipi Wave [MA]) polymerized with different cycles., Material and Methods: CA and MA specimens (n=5; diameter, 20 mm; thickness, 3 mm) were made using 4 methods recommended by the manufacturer (water bath polymerization and microwave polymerization cycles) and experimental at 550 W or 650 W for 3 or 5 minutes (M550/3 and M650/5), respectively. After storage in distilled water at 37°C for 48 hours (T 0 ), the specimens were stored in water, coffee, or red wine (37°C) for 36 days with simulated brushing (54 000 cycles, T 1 ). Roughness (Ra) and stainability (ΔE/National Bureau of Standards) were measured at T 0 and T 1 . Roughness and stainability data were analyzed by 3-way repeated measures and 2-way ANOVA, respectively, followed by the Bonferroni test (α=.05)., Results: After storing in coffee and brushing, CA showed the highest (M550/3=2.33 ±0.72 μm) and the lowest roughness (water bath polymerization=1.22 ±0.58 μm), whereas roughness of MA specimens processed by M650/5 increased (1.57 ±0.59 μm). Storing in wine and brushing increased roughness (1.75 ±0.32 μm) in the M550/3 group. No staining was observed on MA after brushing regardless of the polymerization cycle. All values were acceptable (ΔE≤3.3), except for MA (microwave polymerization), which showed National Bureau of Standards=4.49 (appreciable change) after storing in wine and brushing., Conclusions: A slight increase in material roughness was observed after staining and brushing. Only MA polymerized following manufacturer cycles showed relevant stainability after immersion in wine and brushing., (Copyright © 2018 Editorial Council for the Journal of Prosthetic Dentistry. Published by Elsevier Inc. All rights reserved.)

Published

2020