Study on removing marine multiple pollutants in raw exhaust gas with a novel composited method combined with pre-agglomeration and wet scrubbing technology.

Most of the existing oxidation denitrification methods need longer residence time to obtain higher NOx removal efficiency. In this study, urea peroxide (CO(NH2)2·H2O2) was first used for removing SO2 and NOx on diesel engine bench. The addition of ferrous sulfate can enhance the oxidant capacity of the solution. The better removal efficiency and lower nitrate content in liquid can be achieved in short exhaust gas residence time. The raw gas flow and residence time contained the actual application situation in ships and have high reference value. The removal efficiency decreased with the increase of gas flow, and the reaction temperature, urea peroxide concentration, liquid-gas ratio were the main factors. The optimal Fe2+ concentration of 50 mmol/L and pH value of 4 were determined. The urea peroxide concentration, reaction temperature, and liquid-gas ratio were 9%, 70 â„ƒ, and 10 L/m3 respectively. The maximum gas treatment capacity was about 100 L/min, and residence time was close to 10 s for the scrubber. The pre-agglomerating method were used to improve the particle capturing efficiency combined with spray technology. The composited method can realize the synchronous and efficient removal of multiple pollutants in a single scrubber. The possibility of application on ship was further increased.

Coupling Dual-phased nickel selenides with N-doped carbon enables efficient urea electrocatalytic oxidation.

Electrochemical urea oxidation reaction (UOR) is urgently in demand for diverse energy conversion and storage device coupled with pollution treatment because of its favorable thermodynamic potential (0.37 V vs RHE) and wide distribution nature of urea, but simultaneously gravely limited by the sluggish reaction dynamics and poisoning of catalyst. Herein, dual-phased Ni0.85Se/NiSe2 coupling with N doped carbon (Ni0.85Se/NiSe2@NC-2) in situ is prepared by a solvothermal-selenization pathway. Benefiting from the collective promotion of the dual-phased composition and the NC support, Ni0.85Se/NiSe2@NC provides abundant active sites, enhanced electrical conductivity. It delivers a current density of 252 mA cm-2 at 1.6 V vs RHE with a small Tafel slop of 64.4 mV dec-1 and gets a lower reaction barrier. Moreover, it requires a cell voltage of 1.46 V to approach 50 mA cm-2, about 250 mV less than that of water electrolysis, confirming the less energy consumption. Notably, the N doped carbon protects Ni0.85Se/NiSe2 nanocrystals from aggregation leading to a faster CO2 desorption from Ni sites, which endow the Ni0.85Se/NiSe2@NC-2 a much better working stability. The direct urea hydrogen peroxide fuel cell (DUHPFC) achieves a maximum power density of 9.09 mW cm-2 at 20 °C. This work extends highly efficient dual-phased structure loading in NC catalysts system for urea-assisted energy conversion.

How a 16% Carbamide peroxide home Bleaching agent affects the surface properties of chairside CAD/CAM materials? / ¿Cómo afecta un agente blanqueador casero de peróxido de carbamida al 16% a las propiedades de la superficie de los materiales CAD/CAM de consultorio?

Abstract Surface changes of restorative materials after bleaching have clinical importance in terms of the durability and survival of restorations. This study aimed to evaluate the effect of home bleaching on the surface roughness, microhardness, and surface analysis of four different types of chairside computer-aided design and computer-aided manufacturing (CAD/CAM) materials. Specimens were prepared from composite resin (Brilliant Crios: BC), resin nanoceramic (Lava Ultimate: LU), polymerinfiltrated ceramic-network (Vita Enamic: VE), and zirconia-reinforced lithium silicate glass-ceramic (Vita Suprinity: VS) CAD/CAM materials. Specimens were polished using 800, 1000, 1200, and 2000 grit SiC papers. Each restorative material was randomly divided into two groups; control and bleaching (n=10). The 16% carbamide peroxide bleaching agent (Whiteness Perfect 16%, FGM) was applied to the specimens for 4 h/ day for 14 days. Surface roughness values (Ra) were obtained using a profilometer, and microhardness values (VHN) were obtained using a Vickers microhardness test. Surface analysis of specimens was evaluated by scanning electron microscopy (SEM) and energy-dispersive X-ray spectroscopy (EDX). Data were analyzed Two-way ANOVA and Fishers Least Significant Difference (LSD) test (p<0.05). After bleaching, the surface roughness of BC (p<0.001) and VE (p<0.032) significantly increased. Bleaching did not significantly affect the microhardness of CAD/CAM materials. SEM evaluation showed material-dependent surface damages after bleaching procedures. The effect of 16% carbamide peroxide home bleaching agent on surface roughness and microhardness of chairside CAD/CAM materials is material-dependent. Before bleaching, restorative materials should be protected by applying a protective barrier and contact with the bleaching agent should be minimized. Also, after bleaching, the restoration surface should be carefully inspected, and re-polishing might be beneficial.

Resumen Los cambios en la superficie de los materiales de restauración tras el blanqueamiento tienen importancia clínica en cuanto a la durabilidad y supervivencia de las restauraciones. Este estudio tenía como objetivo evaluar el efecto del blanqueamiento en casa sobre la rugosidad de la superficie, la microdureza y el análisis de la superficie de cuatro tipos diferentes de materiales de diseño asistido por computadora y fabricación asistida por computadora (CAD/CAM). Se prepararon especímenes de materiales CAD/CAM de resina compuesta (Brilliant Crios: BC), de nanocerámica de resina (Lava Ultimate: LU), de cerámica en red infiltrada por polímeros (Vita Enamic: VE) y de cerámica de vidrio de silicato de litio reforzada con circonio (Vita Suprinity: VS). Las muestras se pulieron con papeles de SiC de grano 800, 1000, 1200 y 2000. Cada material de restauración se dividió aleatoriamente en dos grupos: control y blanqueo (n=10). El agente blanqueador de peróxido de carbamida al 16% (Whiteness Perfect 16%, FGM) se aplicó a las muestras durante 4 h/día durante 14 días. Los valores de rugosidad de la superficie (Ra) se obtuvieron utilizando un perfilómetro, y los valores de microdureza (VHN) se obtuvieron utilizando una prueba de microdureza Vickers. El análisis de la superficie de las muestras se evaluó mediante microscopía electrónica de barrido (SEM) y espectroscopia de rayos X de energía dispersiva (EDX). Los datos se analizaron mediante ANOVA de dos vías y la prueba de diferencia mínima significativa (LSD) de Fisher (p<0,05). Tras el blanqueamiento, la rugosidad de la superficie del CB (p<0,001) y del VE (p<0,032) aumentó significativamente. El blanqueamiento no afectó significativamente a la microdureza de los materiales CAD/CAM. La evaluación SEM mostró daños superficiales dependientes del material después de los procedimientos de blanqueo. El efecto del agente blanqueador casero de peróxido de carbamida al 16% sobre la rugosidad de la superficie y la microdureza de los materiales CAD/CAM en el sillón depende del material. Antes del blanqueamiento, los materiales de restauración deben protegerse aplicando una barrera protectora y debe minimizarse el contacto con el agente blanqueador. Además, después del blanqueamiento, la superficie de la restauración debe inspeccionarse cuidadosamente y puede ser beneficioso volver a pulirla.

The investigation of influencing factors on the degradation of sulfonamide antibiotics in iron-impregnated biochar-activated urea-hydrogen peroxide system: A QSAR study.

Iron-impregnated biochar-activated urea-hydrogen peroxide (FB-activated UHP) is a potential in-situ technology for simultaneously reducing soil sulfonamide antibiotic contaminants and improving soil fertility. To better understand the degradation of sulfonamide antibiotics by FB-activated UHP, a two-dimensional quantitative structure-activity relationship (2D-QSAR) model based on quantum chemical parameters and a three-dimensional QSAR (3D-QSAR) model based on molecular force field were developed to investigate the factors influencing the removal efficiencies (Re%). The optimal 2D-QSAR model was Re%= 0.858-8.930 E-5 EB3LYP-0.175 f(+)x with the evaluation indices of R2= 0.732, q2= 0.571, and Qext2= 0.673. The given 2D-QSAR model indicated that the molecular size (EB3LYP) and Fukui index with respect to nucleophilic attack (f(+)) were intrinsic factors influencing Re%. Three degradation pathways were subsequently proposed based on the f(+) distribution. Compared to the 2D-QSAR model, the developed 3D-QSAR model exhibited a better predictive ability, with the evaluation indices of R2= 0.989, q2= 0.696, and SEE= 0.001. The analysis of field contribution rates suggested that electrostatic field (48.2%), hydrophobic field (25.3%), and hydrogen-bond acceptor field (12.7%) were the main factors influencing Re%. These findings generated critical information for evaluating the degradation mechanisms/rules and provided theoretical bases for initially estimating the Re% of sulfonamide antibiotics undergoing FB-activated UHP process.

Influence of smoking on oral cells genotoxicity after at-home bleaching using 22% carbamide peroxide: a cohort study.

OBJECTIVE: This study evaluated the influence of smoking on the oral cells genotoxicity before and after at-home bleaching using 22% carbamide peroxide (CP). MATERIALS AND METHODS: This is a prospective observational analytics cohort study which evaluated nonsmokers (NS; n = 24) and smokers (S; n = 16) patients. At-home bleaching was performed using 22% CP gel in individual trays for 1 h per day for 14 days in both groups. Scrapped cells from marginal gums were collected before the bleaching treatment (D0-baseline) and 1 day (D1), 15 days (D15), and 1 month (D30) after its finishing. Cells were stained with Giemsa 10%, and the micronucleus (MN) and metanuclear alterations (MA) were counted by a trained operator in 1000 cells per patient. The collections and data analysis occurred blindly. Data was analyzed by Kruskal-Wallis, Dunn, and Mann-Whitney test (α = 0.05). RESULTS: MN frequency was not influenced by smoking or bleaching. An increase of MA was observed between D0 and D30 for both groups (p < 0.001); however, no statistical difference was found between NS and S (p > 0.05) in the evaluation times. CONCLUSION: Smoking associated with 22% carbamide peroxide gel for at-home bleaching does not show genotoxic potential analyzed by the MN counts. However, a significant increase of MA was found for smokers and nonsmokers. CLINICAL RELEVANCE: Despite of the increase in MA, smoking associated with 22% CP peroxide at-home bleaching showed no important genotoxic potential (MN) for oral cells. Therefore, at-home bleaching treatment is safe for nonsmokers and smokers even with a high carbamide peroxide concentration of 22%.

A review on natural teeth whitening.

BACKGROUND: Discoloration of teeth occurs for various reasons. Common ingredients like substances from tea and coffee, as well as antibiotics like tetracycline, or food dyes, can percolate into the teeth, and, as such, these stains may persist in the porous structure of the enamel. Smoking is also contributory to dental discoloration, with toxins of tobacco smoke accumulating in a similar way. With aging, teeth tend to be discolored with accumulation of various stains in addition to the enamel gradually eroding to expose the yellow dentin. HIGHLIGHT: This review focused on the effect of several natural ingredients with teeth-whitening properties and their daily clinical application. Metabolic dental bleaching mechanisms, as well as tooth discoloration and decay, were also reviewed. The current scientific literature (mostly from 2000 to 2020) was consolidated from manuscripts retrieved from Scopus, PubMed, ResearchGate, and Google Scholar. CONCLUSION: Natural teeth whitening effectively lightens the natural color of teeth without eroding dental surfaces. On the other hand, commercially available whiteners containing hydrogen peroxide and carbamide peroxide, in high concentrations, can lead to deproteinization and demineralization of teeth through oxidation processes. If used extensively, these compounds may cause a number of adverse effects. Alternative natural teeth-whiteners include ingredients like lemons, strawberries, oranges, papaya, and other fruits. Such natural ingredients offer a milder and safer way of whitening teeth than whiteners containing hydrogen peroxide or carbamide peroxide.

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)

In Vitro Evaluation of the Effectiveness of Dental Bleaching with Carbamide Peroxide and Violet Light.

Objective: The aim of the current study was to use the CIELab system to evaluate the performance of the whitening treatment involving violet light-emitting diode (LED) combined with a home 10% and 22% carbamide peroxide dental bleaching technique on dental enamel. Methods: Fifty blocks of bovine dental enamel were divided into five groups: control group (control), receiving only LED irradiation; Whitening 10%, receiving 10% carbamide peroxide treatment; Whitening 10%+VL, receiving 10% carbamide peroxide treatment combined with LED irradiation; Whitening 22%, receiving 22% carbamide peroxide treatment; and Whitening 22%+VL, receiving 22% carbamide peroxide treatment combined with violet LED irradiation. Color tests were performed before the protocols, after 1 week and after 2 weeks of treatment by using a spectrophotometer and the CIELab parameters: L*, (a*) and (b*). The Whitening 10%, Whitening 10%+VL, Whitening 22% and Whitening 22%+VL groups were submitted to 10% and 22% carbamide peroxide 8 h per day for 14 days, whereas the Control was only stored in artificial saliva. For irradiation in the Control, Whitening 10%+VL, and Whitening 22%+VL groups, we used violet LED at a wavelength of 405-410 nm activated for 60 permanent seconds and 30 sec of pause once per week. As all data exhibited normal distribution, the comparisons were performed by using two-way repeated-measures analysis of variance. A post hoc t-test was employed, followed by the Ryan-Holm stepdown Bonferroni procedure. Results: After 1 week, the Whitening 22%+VL group differed significantly from all other groups in relation to hue, while no difference was found between the remaining groups (p < 0.05). Analyzing lightness, the Whitening 22%+VL and Whiteness10%+VL groups differed from the other groups (p > 0.05). In the 2nd week, the Whitening 22%+VL groups differed significantly from all other groups (p < 0.05) in hue, chroma, and lightness. The comparative analysis of bleaching times within the same group revealed significant differences in the Whitening 22%+VL group between baseline and week 1, baseline and week 2, as well as weeks 1 and 2 in terms of hue (p > 0.05). In the Whitening 22%+VL group, significant differences (p < 0.05) were found between baseline and week 2 as well as between weeks 1 and 2 in chroma (p > 0.05). In the Whitening 22%+VL group, statistically significant differences (p < 0.05) were found between baseline and week 1, baseline and week 2, as well as between weeks 1 and 2 in lightness. In the Whitening 10%+VL group, statistically significant differences (p < 0.05) were found between baseline and week 1, between baseline and week 2, as well as between weeks 1 and 2 in lightness. Conclusions: Tooth whitening treatment involving 10% and 22% carbamide peroxide combined with violet light promoted changes in the three axes of color (ΔH, ΔC, and ΔL) of the specimens evaluated. The use of the gel bleach alone was more efficient when the higher concentration was used. When violet light was combined with the gel, the lower concentration was more efficient.

Comparison of Walking-Bleaching and Photon-Initiated Photoacoustic Streaming Techniques in Tooth Color Change of Artificially Colored Teeth.

Background and objective: The aim of this study is to compare the bleaching effect of photon-induced photoacoustic streaming (PIPS) using carbamide peroxide or sodium perborate-20% hydrogen peroxide (H2O2) compared with walking-bleaching techniques using sodium perborate-20% H2O2 or carbamide peroxide without PIPS on artificially colored teeth. Materials and methods: Root canal treatments of 85 extracted human maxillary central incisors were completed and artificially stained using sheep's blood. Teeth were randomly grouped into five groups according to the bleaching techniques to be tested: Group 1: walking bleaching with carbamide peroxide; Group 2: walking bleaching with sodium perborate-20% H2O2; Group 3: PIPS+carbamide peroxide; Group 4: PIPS+sodium perborate-20% H2O2; and Group 5: control. Experimental specimens were bleached for 3 weeks. Buccal surfaces of the crowns were used for spectrophotometric measurements, limited with a 7-mm external diameter rounded strip, before bleaching and on days 7, 14, and 21. The total change in color (ΔE*) were analyzed with Welch's ANOVA at a significance level of p = 0.05 and Tamhane post-hoc test was used for multiple comparisons. Results: Starting from the second week, Group 4 showed significantly better bleaching effect compared with the other groups (p < 0.05). The other experimental groups also have bleaching effects, but there was no statistically significant difference between Group 1, Group 2, and Group 3 (p > 0.05). Conclusions: Sodium perborate-20% H2O2 activated with PIPS gave a bleaching effect superior to that of walking-bleaching techniques or PIPS using with carbamide peroxide.

Estética y color en dientes calcificados: Informe de tres casos clínicos con blanqueamiento / Esthetics and shade in calcified teeth. Report of three clinical cases with whitening

Objetivo: El objetivo de este informe es presentar tres casos clínicos de piezas dentarias anterosuperiores calcificadas y con decoloración, resueltos según tres protocolos clínicos de blanqueamiento diferentes, con un mismo fin: devolver la estética al sector anterior. Casos clínicos: Cada una de las tres situaciones clínicas de decoloración dentaria se trató siguiendo un protocolo diferente. A partir del análisis clínico y radiográfico, se estableció un diagnóstico y un plan de tratamiento acorde. Todos los casos evolucionaron de manera favorable y siguen siendo controlados periódicamente. Conclusiones: En casos clínicos como los que se muestran en este trabajo, en los que el conducto y la cámara pulpar están calcificados u obliterados totalmente, sería posible realizar blanqueamiento interno y externo para recuperar la armonía óptica de forma conservadora. Este tipo de tratamientos permitiría responder a la alta prevalencia de demanda estética debido a traumatismos y cambios de coloración (AU)

Aim: To present three clinical cases of discoloration in calcified upper anterior teeth, that were resolved following different clinical protocols for teeth whitening to return the aesthetics of the anterior teeth. Clinical cases: Each clinical case of discoloration was treated following a different treatment protocol based on a correct clinical and radiographic diagnosis. All cases had a favourable outcome and have no regular review. Conclusion: In clinical cases as those presented in this article where the canal and pulp chamber are totally calcified or obliterated, it was possible to perform internal and or external whitening to restore optical harmony in a conservative way. This type of treatment would allow responding to the high prevalence of aesthetic demand due to trauma and colour changes (AU)

Estabilidad del color en el blanqueamiento intracoronal / Color stability in intracoronal whitening

RESUMEN Introducción: El blanqueamiento intracoronal es una alternativa mínimamente invasiva que permite devolver el color a dientes no vitales tincionados. La estabilidad del color logrado es fundamental para evaluar la predictibilidad de este tipo de tratamiento. Objetivo: Evaluar la estabilidad del color 3 años después del blanqueamiento intracameral con peróxido de hidrógeno y carbamida a diferentes concentraciones. Métodos: Se utilizaron 44 premolares extraídos por indicación ortodóncica, los cuales fueron tratados endodónticamente y pigmentados artificialmente con cromógenos sanguíneos. Las muestras fueron divididas aleatoriamente en 4 grupos de estudio (n = 11) siendo: grupo A: peróxido de carbamida 37 por ciento, grupo B: peróxido de hidrógeno 35 por ciento, grupo C: peróxido de carbamida 100 por ciento y grupo D: control; para luego realizar 4 aplicaciones de agente blanqueador con un intervalo de 4 días entre cada aplicación. El registro del color se realizó mediante espectrofotometría, lo que permitió obtener los valores CIE L*a*b* para calcular la variación total de color entre los parámetros iniciales y finales del tratamiento, así como el control a los 3 años. Resultados: Los resultados fueron analizados mediante las pruebas de Shapiro-Wilks, ANOVA y Mann-Whitney, sin registrar diferencias significativas en la variación total de color al control de los 3 años (p > 0,05). Conclusión: Los resultados del blanqueamiento intracoronal, independiente del tipo y concentración del agente utilizado en este estudio son estables en el tiempo y cualquier variación regresiva de color debe ser atribuida a factores extrínsecos(AU)

ABSTRACT Introduction: Intracoronal whitening is a minimally invasive procedure to restore natural color to stained non-vital teeth. The color stability achieved is fundamental to evaluate the predictability of this type of treatment. Objective: Evaluate color stability 3 years after intracameral whitening with carbamide and hydrogen peroxide at various concentrations. Methods: A total 44 premolars were used which had been extracted by orthodontic indication. The premolars were treated endodontically and artificially pigmented with blood chromogenes. The samples were randomly divided into 4 study groups (n = 11): Group A: 37 percent carbamide peroxide, Group B: 35 percent hydrogen peroxide, Group C: 100 percent carbamide peroxide and Group D: control. Four applications were then made of the whitening agent with a 4-days' separation between them. Color was recorded by spectrophotometry, obtaining the values CIE L*a*b* to estimate total color variation between the initial and final parameters of the treatment, as well as control at 3 years. Results: The results were analyzed with Shapiro-Wilk, ANOVA and Mann-Whitney tests, not finding any significant differences in total color variation with respect to the 3 years' control (p > 0.05). Conclusion: The results of the intracoronal whitening studied are stable throughout time, regardless of the type and concentration of the agent used, and any regressive color variation should be attributed to extrinsic factors(AU)

Regresión de la luminosidad del color posblanqueamiento dental casero en pacientes fumadores y no fumadores / Color luminosity regression after home tooth whitening in smoking and nonsmoking patients

Introducción: Existen muchos estudios de efectividad del blanqueamiento dental; sin embargo, son muy pocos los que hablan de regresión de color (fenómeno que se produce posterior a un blanqueamiento dental), lo mismo ocurre en relación a pacientes fumadores. Objetivo Determinar la regresión de la luminosidad del color en pacientes sometidos a blanqueamiento dental casero con peróxido de carbamida al 10 por ciento, en pacientes fumadores y no fumadores. Métodos: Estudio descriptivo, transversal, en 43 pacientes de un grupo de 60 previamente tratados de forma casera durante 3 semanas con peróxido de carbamida al 10 por ciento. Fueron divididos en un grupo experimental (pacientes fumadores GE) y grupo control (no fumadores GC). Se midió la variación del color con el espectrofotómetro Vita Easyshade® a la semana, mes, 6 meses y 9 meses posblanqueamiento. Los datos obtenidos mediante la medición con el espectrofotómetro fueron analizados por el test de Shapiro Wilk y Kolmogorov-Smirnov para evaluar normalidad de la distribución y, posteriormente, sometidos al test Mann-Whitney U y Wilcoxon W (#945; = 0,05). Resultados: El delta L* fue: 2,3 (GE) y 3,66 (GC); deltas calculados con datos de los 9 meses vs. semana posblanqueamiento. No hubo diferencias estadísticamente significativas entre ambos grupos. Conclusiones: No existen diferencias estadísticamente significativas en la regresión del color posteriores al blanqueamiento casero con peróxido de carbamida al 10 por ciento en pacientes fumadores y no fumadores(AU)

Introduction: Many studies have been conducted about the effectiveness of tooth whitening, but few refer to color regression (a phenomenon occurring after tooth whitening) or to smoking patients. Objective: Determine color luminosity regression in smoking and nonsmoking patients undergoing home tooth whitening with 10 percent carbamide peroxide. Methods: A descriptive cross-sectional study was conducted of 43 patients from a group of 60 previously undergoing home treatment with 10 percent carbamide peroxide for 3 weeks. The patients were divided into an experimental group (EG, smoking patients) and a control group (CG, nonsmoking patients). A Vita Easyshade® spectrophotometer was used to measure color variation one week, one month, 6 months and 9 months after whitening. The data obtained by spectrophotometry were analyzed with the Shapiro-Wilk and the Kolmogorov-Smirnov tests to evaluate the normality of the distribution, and then they were subjected to the Mann-Whitney-Wilcoxon U test (α = 0,05). Results: Delta L* was 2,3 (EG) and 3,66 (CG); delta values were estimated from data obtained 9 months vs. one week after whitening. No statistically significant differences were found between the groups. Conclusions: No statistically significant color regression differences are found in either smoking or nonsmoking patients after home whitening with 10 percent carbamide peroxide(AU)

Over-the-counter tooth whitening agents: a review of literature

Abstract There is an increased accessibility of over-the-counter (OTC) whitening agents with very little data in the literature regarding their effectiveness. This review was done to determine their effectiveness of the predominant OTC whitening agents from 2006 until 2018 where a comparison of each agent was made with a placebo, no treatment or with other OTC whitening agents. The major categories of OTC whitening agents such as dentifrices, whitening strips and paint on gels. Dentist prescribed bleaching applied at home and in-office bleaching studies and studies that demonstrated whitening products to participants were excluded. Articles were searched for in the databases of Medline (Ovid), PubMed, the Cochrane Library and Cochrane Central Register of Controlled Trials. Twenty-four articles were included in the systematic review and the quality of studies was determined by the GRADE (Grading of Recommendations, Assessment, Development and Evaluations) ranking criteria. Compared to other OTC, strips are reported to be effective. Two studies determined whitening strips to be effective. Whitening strips have been shown to be effective when compared with placebos and other OTC whitening agents. Dentifrices are effective in changing the shade of the tooth "by removing extrinsic stains" when compared to a placebo and non-whitening dentifrices, but they are not as effective in comparison to whitening strips. There is a lack of evidence with regards to the effectiveness of paint-on gels. While there is some evidence that OTC can alter shade in the short term, there is a need for better-designed studies.

Resumo Há um aumento da acessibilidade dos agentes clareadores de venda livre com poucos dados na literatura sobre sua eficácia. Esta revisão foi feita para determinar a eficácia dos agentes clareadores de venda livre predominantes de 2006 a 2018, onde foi feita uma comparação de cada agente com um placebo, sem tratamento ou com outros agentes clareadores de venda livre. As principais categorias de agentes clareadores de venda livre, como dentifrícios, tiras branqueadoras e géis. Estudos em que o dentista prescreveu clareamento caseiro e em consultório, e estudos que demonstraram os agentes clareadores para os participantes. Os artigos foram pesquisados ​​nas bases de dados do Medline (Ovid), PubMed, Cochrane Library e Cochrane Central Register of Controlled Trials. Vinte e quatro artigos foram incluídos na revisão sistemática e a qualidade dos estudos foi determinada pelo critério de classificação GRADE (Classificação de Recomendações, Avaliação, Desenvolvimento e Avaliações). Em comparação com outros clareadores de venda livre, as tiras são relatadas como eficazes. Dois estudos determinaram que as tiras de clareamento são eficazes. As tiras de clareamento mostraram-se eficazes quando comparadas com placebos e outros agentes clareadores de venda livre. Os dentifrícios são eficazes na mudança da tonalidade do dente "removendo manchas extrínsecas" quando comparados a dentifrícios com placebo e sem clareamento, mas não são tão eficazes em comparação com as tiras de clareamento. Há uma falta de evidência com relação à eficácia dos géis de tinta. Embora exista alguma evidência de que os clareadores de venda livre possa alterar a tonalidade no curto prazo, há necessidade de estudos melhor projetados.

Radiodynamic therapy using 15-MV radiation combined with 5-aminolevulinic acid and carbamide peroxide for prostate cancer in vivo.

Photodynamic therapy has been clinically proven to be effective, but its effect is limited to relatively shallow tumors because of its use of visible light. Radiodynamic therapy (RDT) has therefore been investigated as a means to treat deep-seated tumors. In this study, the treatment effect of a novel form of RDT consisting of radiation combined with 5-aminolevulinic acid (5-ALA) and carbamide peroxide was investigated using a mouse model. Male nude mice were injected bilaterally and subcutaneously with human prostate cancer (PC-3) cells and randomized into 8 treatment groups, consisting of various combinations of 15-MV radiotherapy (RT), 5-ALA, and carbamide peroxide. The treatment effect of a single fraction of treatment was measured by calculating tumor growth delay, monitored using weekly MR scans. The ability of the drugs to be delivered to the tumors was qualitatively measured using 18 F-FDG PET/CT scans. RDT was shown to significantly delay the tumor growth for the mouse model and tumor cell line investigated in this work. Tumors treated with RDT showed a decrease in tumor growth of 24 ± 9% and 21 ± 8% at one and two weeks post-treatment, respectively. Peroxide and 5-ALA did not contribute significantly to tumor growth delay when administered alone or separately with RT. Blood perfusion was shown to be able to deliver agents to the tumors investigated in this work, although uptake of 18 F-FDG was shown to be non-uniform.

Effect of violet LED light on in-office bleaching protocols: a randomized controlled clinical trial.

Objective This study evaluated the clinical effect of violet LED light on in-office bleaching used alone or combined with 37% carbamide peroxide (CP) or 35% hydrogen peroxide (HP). Methodology A total of 100 patients were divided into five groups (n=20): LED, LED/CP, CP, LED/HP and HP. Colorimetric evaluation was performed using a spectrophotometer (ΔE, ΔL, Δa, Δb) and a visual shade guide (ΔSGU). Calcium (Ca)/phosphorous (P) ratio was quantified in the enamel microbiopsies. Measurements were performed at baseline (T 0 ), after bleaching (T B ) and in the 14-day follow-up (T 14 ). At each bleaching session, a visual scale determined the absolute risk (AR) and intensity of tooth sensitivity (TS). Data were evaluated by one-way (ΔE, Δa, ΔL, Δb), two-way repeated measures ANOVA (Ca/P ratio), and Tukey post-hoc tests. ΔSGU and TS were evaluated by Kruskal-Wallis and Mann-Whitney, and AR by Chi-Squared tests (a=5%). Results LED produced the lowest ΔE (p<0.05), but LED/HP promoted greater ΔE, ΔSGU and Δb (T 14 ) than HP (p<0.05). No differences were observed in ΔE and ΔSGU for LED/CP and HP groups (p>0.05). ΔL and Δa were not influenced by LED activation. After bleaching, LED/CP exhibited greater Δb than CP (p>0.05), but no differences were found between these groups at T 14 (p>0.05). LED treatment promoted the lowest risk of TS (16%), while HP promoted the highest (94.4%) (p<0.05). No statistical differences of risk of TS were found for CP (44%), LED/CP (61%) and LED/HP (88%) groups (p>0.05). No differences were found in enamel Ca/P ratio among treatments, regardless of evaluation times. Conclusions Violet LED alone produced the lowest bleaching effect, but enhanced HP bleaching results. Patients treated with LED/CP reached the same efficacy of HP, with reduced risk and intensity of tooth sensitivity and none of the bleaching protocols adversely affected enamel mineral content.

Clinical Evaluation of In-Office Dental Bleaching Using a Violet Light-Emitted Diode.

Objective: To clinically evaluate the effect of the violet light-emitted diode (LED) light (405-410 nm) associated to in-office dental bleaching with 35% carbamide peroxide, on tooth color change and sensitivity. Participant's satisfaction after treatment was also evaluated. Materials and methods: A total of 50 participants were selected and randomized into a treatment group (n = 25): G1-two bleaching sessions of 30 min each, with 7-day interval (D0 and D7); G2-two bleaching sessions (same protocol as G1) associated with violet LED light, 30 min each session. The color evaluation was performed before and after 7 days of the second session (D0 and D14); the medium third of buccal surface of canine and central incisor teeth were evaluated under VITA Shade Guide and spectrophotometry (subjective and objective). Tooth sensitivity was evaluated immediately after the treatment and after 48 h of each bleaching session (D0, D2, D7, and D9), and a self-perception questionnaire was applied on D14. Results: Data were subjected to nonparametric Mann-Whitney test and both canine and central incisor teeth presented color change. Group G2 showed significantly more change than G1. Fisher's exact test showed no statistically significant dental sensitivity differences between groups. Both groups reported a high level of satisfaction but chi-square test showed statistically higher satisfied patients with dental bleaching in G2 than G1. Conclusions: The violet LED light (405-410 nm) could improve dental bleaching effectiveness, without sensitivity increase.

Penetración en la cámara pulpar del blanqueamiento dental con peróxido de carbamida a diferentes concentraciones / Penetration in the pulp chamber of dental whitening with carbamide peroxide to different concentrations / Penetração na câmara pulpar do clareamento dental com peróxido de carbamida a diferentes concentrações

Los agentes utilizados en blanqueamiento dental provocan una respuesta inflamatoria de la pulpa, que de-pende de la concentración y el tiempo de aplicación de la sustancia empleada. Objetivo: Evaluar el nivel de penetración del blanqueamiento a base de peróxido de carbamida a diferentes concentraciones: 10, 20 y 35% dentro de la cámara pulpar. Materiales y métodos: Se utilizaron 120 terceros molares humanos extraí-dos, divididos aleatoriamente en cuatro grupos (n=30): grupo A: control; grupo B: 10% gel de Peróxido de Carbamida (CP del inglés Carbamide Peroxide); grupo C: 20% gel CP y grupo D: 35% gel CP. Los dientes se cortaron 2 mm por debajo del límite amelocementario con una máquina de corte, se colocó buffer de acetato en la cámara pulpar y se aplicó por 40 minutos el agente clareador una sola vez. Los dientes se mantuvieron a temperatura ambiente (25°C) durante el proceso. La penetración de CP se estimó con cristal violeta y peroxi-dasa de rábano picante, en un espectrofotómetro de absorbancia. Los datos fueron analizados mediante las pruebas estadísticas ANOVA complementada con el Test post Hoc de Tukey con un grado de significancia al 5%. Resultados: Las medias obtenidas para el Grupo B fueron de 0,062 mg (±0,018), para el Grupo C fueron de 0,063 mg (±0,017), y para el Grupo D fueron de 0,086 mg (±0,024). Existiendo diferencia significativa (p= <0.05) del grupo D con relación a los otros grupos. Conclusión: la penetración de CP en la cavidad pulpar depende de la concentración, siendo mayor en concentración al 35%.

The elimination of calcium hydroxide in the root canal is decisive for the success of endodontic treatment, the remnants can interact negatively with endodontic sealants increasing filtrations and decreasing the quality of the seal. Objective: To evaluate the effect of intra-duct medication with calcium hydroxide paste on the pen-etration of the sealing cement inside the dentinal tubules. Materials and methods: 20 distal roots of upper molars were instrumented using the Wave One Large 40 / .08 System. They were randomly divided into two groups: one sealed with a single cone technique and Ah plus cement with rhodamine-B and another sealed with the same technique and Ah plus cement with rhodamine B, previous placement for 15 days and removal by recapping the paste calcium hydroxide. Subsequently, the teeth were cut transversely and photomicro-graphs of the cervical, middle and apical third were performed using the laser scanning confocal microscopy technique. The maximum depth of penetration was determined through the Image J program. Results: The Ah plus sealing cement had lower penetration values when the calcium hydroxide paste was previously used as an intra-channel medication (p <0.01). The third of the duct with the highest penetration was the cervical third followed by the middle third and finally the apical (p <0.01). Conclusion: Remaining calcium hydroxide decreases the penetration of the sealing cement Ah plus in the dentinal tubules in all thirds of the root canal.

Os agentes utilizados no clareamento dos dentes estimulam uma resposta inflamatória da polpa, o que de-pende da concentração e do tempo de aplicação da substância utilizada. Objetivo: Avaliar o nível de pe-netração do clareamento à base de peróxido de carbamida em diferentes concentrações: 10, 20 e 35% no interior da câmara pulpar. Materiais e métodos: foram utilizados 120 terceiros molares humanos extraídos, divididos aleatoriamente em quatro grupos (n = 30): grupo A: controle; grupo B: gel de peróxido de carbamida a 10% (CP do inglês carbamide peroxide); grupo C: gel CP de 20% e grupo D: gel CP de 35%. Os dentes foram cortados 2 mm abaixo do limite amelocementário com uma máquina de corte, tampão acetato foi colo-cado na câmara pulpar e o clareador foi aplicado por 40 minutos apenas uma vez. Os dentes foram mantidos à temperatura ambiente (25 °C) durante o processo. A penetração de CP foi estimada com cristal violeta e peroxidase de rábano picante, em espectrofotômetro de absorvância. Os dados foram analisados por meio dos testes estatísticos ANOVA, complementados com o teste post hoc de Tukey, com um grau de significância de 5%. Resultados: As médias obtidas no grupo B foram de 0,062 mg (± 0,018), no grupo C foram de 0,063 mg (± 0,017) e no grupo D foram de 0,086 mg (± 0,024). Existe uma diferença significativa (p = <0,05) do grupo D em relação aos demais grupos. Conclusão: a penetração da PC na cavidade pulpar depende da concentração, sendo maior na concentração em 35%.

Effect of violet LED light on in-office bleaching protocols: a randomized controlled clinical trial

Abstract Objective This study evaluated the clinical effect of violet LED light on in-office bleaching used alone or combined with 37% carbamide peroxide (CP) or 35% hydrogen peroxide (HP). Methodology A total of 100 patients were divided into five groups (n=20): LED, LED/CP, CP, LED/HP and HP. Colorimetric evaluation was performed using a spectrophotometer (ΔE, ΔL, Δa, Δb) and a visual shade guide (ΔSGU). Calcium (Ca)/phosphorous (P) ratio was quantified in the enamel microbiopsies. Measurements were performed at baseline (T 0 ), after bleaching (T B ) and in the 14-day follow-up (T 14 ). At each bleaching session, a visual scale determined the absolute risk (AR) and intensity of tooth sensitivity (TS). Data were evaluated by one-way (ΔE, Δa, ΔL, Δb), two-way repeated measures ANOVA (Ca/P ratio), and Tukey post-hoc tests. ΔSGU and TS were evaluated by Kruskal-Wallis and Mann-Whitney, and AR by Chi-Squared tests (a=5%). Results LED produced the lowest ΔE (p<0.05), but LED/HP promoted greater ΔE, ΔSGU and Δb (T 14 ) than HP (p<0.05). No differences were observed in ΔE and ΔSGU for LED/CP and HP groups (p>0.05). ΔL and Δa were not influenced by LED activation. After bleaching, LED/CP exhibited greater Δb than CP (p>0.05), but no differences were found between these groups at T 14 (p>0.05). LED treatment promoted the lowest risk of TS (16%), while HP promoted the highest (94.4%) (p<0.05). No statistical differences of risk of TS were found for CP (44%), LED/CP (61%) and LED/HP (88%) groups (p>0.05). No differences were found in enamel Ca/P ratio among treatments, regardless of evaluation times. Conclusions Violet LED alone produced the lowest bleaching effect, but enhanced HP bleaching results. Patients treated with LED/CP reached the same efficacy of HP, with reduced risk and intensity of tooth sensitivity and none of the bleaching protocols adversely affected enamel mineral content.

Evaluation of reservoirs in bleaching trays for at-home bleaching: a split-mouth single-blind randomized controlled equivalence trial

Abstract Objectives This randomized, split-mouth, single-blinded trial assessed whether the use of reservoirs in at-home bleaching trays is equivalent to non-reservoir trays. Our choice of an equivalence trial was based on the expectation that a non-reservoir tray is sufficient to produce a color change. Secondary outcomes such as tooth sensitivity (TS) and gingival irritation (GI) were also assessed. Methodology Forty-six patients were selected with canines shade A2 or darker. In half of the patient's arch, bleaching trays were made with reservoirs and the other half, without reservoirs. At-home bleaching was performed with carbamide peroxide (CP) 10% (3 h daily; 21 days). Color change was evaluated with a digital spectrophotometer (ΔE, ΔE00, and Whiteness Index) and shade guide units (ΔSGU) at baseline, during and one-month post-bleaching. TS and GI were assessed with a numeric scale (NRS) and a visual analog scale (VAS). Results After one month, the equivalence of reservoir and non-reservoir groups were observed in all color instruments (p>0.05). Fifteen and sixteen patients presented pain (absolute risk: 33% and 35%, 95%, confidence interval (CI) 21-46% and 23-49%) in the reservoir and non-reservoir side, respectively. The odds ratio for pain was 0.8 (95%CI 0.2-3.0) and the p-value was non-significant (p=1.0). TS intensity was similar between both groups in any of the pain scales (p>0.05). No difference in the GI was observed (p>0.05). Conclusions The protocol with reservoirs is equivalent in color change to the non-reservoir, although no superiority of the latter was observed in terms of reduced TS and GI with at-home 10% carbamide peroxide bleaching. Clinical Relevance The presence of reservoirs in a bleaching tray did not improve color change or affect tooth sensitivity and gingival irritation.