ABSTRACT
Abstract High concentrations of hydrogen peroxide can cause adverse effects on composition and structure of teeth. However, the addition of calcium and fluoride in bleaching agents may reduce enamel demineralization. Objective: To evaluate chemical changes of sound and demineralized enamels submitted to high concentrations of hydrogen peroxide containing fluoride (F) or calcium (Ca). Material and Methods: Enamel blocks of bovine incisors with standard dimensions were obtained and half of them were submitted to pH-cycling to promote initial enamel caries lesions. Sound and demineralized enamel samples were divided into (n=10): (C) Control (no whitening treatment); (HP) 35% hydrogen peroxide; and two experimental groups: (HPF) 35% HP+0.2% F and (HPC) 35% HP+0.2% Ca. Experimental groups were submitted to two in-office bleaching sessions and agents were applied 3 times for 15 min to each session. The control group was kept in remineralizing solution at 37°C during the bleaching treatment. The surface mineral content of sound and demineralized enamels was determined through Fourier Transform Raman spectroscopy (FT-Raman), Energy dispersive Micro X-ray fluorescence spectroscopy (μ-EDXRF); and the subsurface, through cross-sectional microhardness (CSMH). In addition, polarized light microscopy (PLM) images of enamel subsurface were observed. Results: According to three-way (FT-Raman and μ-EDXRF analyses) or two-way analysis of variance (ANOVA) (CSMH) and Tukey test (α=5%), the calcium or fluoride added to high-concentrated bleaching agents increased phosphate and carbonate concentrations on sound and demineralized enamels (p<0.05). However, HPC and HPF were unable to completely reverse the subsurface mineral loss promoted by bleaching on sound and demineralized enamels. The calcium/ phosphate (Ca/P) ratio of sound enamel decreased after HP treatment (p<0.001). Conclusion: Even though experimental bleaching agents with Ca or F reduced mineral loss for both sound and demineralized enamel surfaces, these agents were unable to reverse the enamel subsurface demineralization.
Subject(s)
Animals , Cattle , Calcium/chemistry , Tooth Demineralization/chemically induced , Dental Enamel/drug effects , Tooth Bleaching Agents/chemistry , Fluorides/chemistry , Hydrogen Peroxide/chemistry , Phosphates/chemistry , Reference Values , Spectrometry, X-Ray Emission , Spectrum Analysis, Raman , Surface Properties/drug effects , Time Factors , Tooth Bleaching/adverse effects , Tooth Bleaching/methods , Materials Testing , Carbonates/chemistry , Reproducibility of Results , Dental Enamel/chemistry , Tooth Bleaching Agents/adverse effects , Hardness Tests , Microscopy, PolarizationABSTRACT
Abstract The Southern Brazilian Highlands are composed by a mosaic of Mixed Ombrophilous Forest (MOF) and grassland formations, an interesting landscape for the study of population structure. We analyzed the genetic diversity within and among populations of the MOF-endemic bromeliad Vriesea reitzii by genotyping seven nuclear microsatellite loci in 187 individuals from six populations. We characterized levels of genetic diversity and assessed the genetic structure among populations. Vriesea reitzii populations showed high levels of genetic variation (number of alleles 28 - 43, allelic richness 3.589 - 5.531) and moderate levels of genetic differentiation (FST = 0.123, RST = 0.096). The high levels of genetic diversity may be explained by species life-history traits, such as habit and mating system. The moderate structure may be a product of the combination of ancient and contemporary gene flow, resulting from the expansion of the forest in the Holocene, and/or due to facilitated dispersal mediated by the MOF's mosaic landscape. The genetic results indicated no imminent threat to this bromeliad. However, the species is highly associated with the MOF, putting landscape conservation at the center of conservation efforts for the species' maintenance.
ABSTRACT
Abstract The quality of the dentin root is the most important factor for restoration resin sealing and drives the outcome of endodontic treatment. Objective This study evaluated the effect of different filling pastes and cleaning agents on the root dentin of primary teeth using Fourier-transformed Raman spectroscopy (FT-Raman), micro energy-dispersive X-ray fluorescence (µ-EDXRF) and scanning electron microscopic (SEM) analysis. Material and Methods Eighty roots of primary teeth were endodontically prepared and distributed into 4 groups and filled according to the following filling pastes: Control-no filling (CP), Calen®+zinc oxide (CZ), Calcipex II® (CII), Vitapex® (V). After seven days, filling paste groups were distributed to 4 subgroups according to cleaning agents (n=5): Control-no cleaning (C), Ethanol (E), Tergenform® (T), 35% Phosphoric acid (PA). Then, the roots were sectioned and the dentin root sections were internally evaluated by FT-Raman, µ-EDXRF and SEM. Data was submitted to two-way ANOVA and Tukey tests (α=0.05). Results Regarding filling pastes, there was no significant difference in organic content. CP provided the lowest calcium values and, calcium/phosphoric ratio (Ca/P), and the highest phosphoric values. For cleaning agents there was no difference in organic content when compared to the C; however, T showed significantly higher calcium and Ca/P than PA. All groups showed similar results for phosphorus. The dentin smear layer was present after use of the cleaning agents, except PA. Conclusion The filling pastes changed the inorganic content, however they did not change the organic content. Cleaning agents did not alter the inorganic and organic content. PA cleaned and opened dentin tubules.
Subject(s)
Humans , Root Canal Filling Materials/chemistry , Root Canal Irrigants/chemistry , Dental Pulp Cavity/drug effects , Dentin/drug effects , Phosphoric Acids/chemistry , Silicones/chemistry , Spectrometry, X-Ray Emission , Spectrum Analysis, Raman , Surface Properties/drug effects , Time Factors , Tooth, Deciduous/drug effects , Zinc Oxide/chemistry , Calcium Hydroxide/chemistry , Microscopy, Electron, Scanning , Analysis of Variance , Spectroscopy, Fourier Transform Infrared , Ethanol/chemistryABSTRACT
The aim of this work was to study the influence of uncoated and apatite-coated Al2O3 implants on bone regeneration after 30 days of surgery in New Zealand white rabbits. Twelve samples of Al2O3 implants were prepared and half of them (n = 6) were apatite-coated by the modified biomimetic method. Three experimental groups were tested as Group C - control, surgery procedure without cerami c implant, Group Ce - uncoated Al 2O3 implants (n = 6) and Group CeHA - apatite-coated Al2O3 implants (n = 6). The mineralization of the Al2O3 implants was analyzed in bone fragments using FT-Raman spectroscopy. Raman peaks at 959 cm-1 and 2940 cm-1 evaluated the inorganic and organic bone content, respectively. In vivo citotoxicity was analyzed using micronucleus test. Inorganic and organic content were higher in CeHA samples than in Ce and C (CeHA > Ce > C). FT-Raman spectroscopy showed that the higher the deposition of the organic matrix, more mineralization occurred. The micronucleus test showed that the uncoated and apatite-coated Al2O3 implants were non-cytotoxic and safe to in vivo applications.
ABSTRACT
AIM: To evaluate the effects of three hydrogen peroxide (HP) concentrations on enamel mineral content (MC), following three peroxide applications and using three methods to measure the MC. METHODS : Forty samples were obtained from bovine incisors and randomly divided into 4 groups (n=10). The control group remained untreated, while the experimental groups were tested for three HP concentrations (10%, 35% and 50%). The HP gel was applied 3 times on the enamel surface for 30 min per application and the samples were analyzed after each application. The MC of the enamel was determined before and after bleaching using Fourier transform (FT-Raman) spectroscopy and micro energy-dispersive x-ray fluorescence spectrometry (µEDXRF). The calcium (Ca) lost from the bleached enamel was quantified with an atomic absorption spectrometer (AAS). The data were analyzed statistically by ANOVA, Tukey and Dunnett´s tests (p<0.05). RESULTS: The FT-Raman showed a decrease in MC for all bleaching treatments, without influence of the different HP concentrations or the number of applications. µEDXRF did not detect any changes in MC. CONCLUSIONS: Ca loss was observed by the AAS, with no difference among the three HP concentrations. The FT-Raman and AAS analyses detected MC reduction and Ca loss after HP bleaching.
Subject(s)
Animals , Cattle , Bleaching Agents , Dental Enamel , Hydrogen Peroxide/therapeutic useABSTRACT
This study evaluated structural and molecular issues of dentin caries-like lesions produced by different artificial models (ACL) compared with natural caries lesions (NCL). One hundred twenty-four sound occlusal dentin blocks and 47 carious blocks were obtained and surface hardness was analyzed (SH1). They were assigned to groups according to ACL: GB: Biological; GC: Chemical; GIS: In situ; GNC: natural caries (control). Blocks from groups 1, 2 and 3 were submitted to caries lesion induction. NCL and ACL blocks were submitted to surface hardness (SH 2), FT-Raman and µEDXRF analysis. All blocks were longitudinally sectioned and one of the halves was submitted to cross-sectional hardness (CSH) and the other to SEM analysis. SH1 and SH2 data were submitted to t test (unpaired and paired, respectively), CSH and SEM data to two-way and one-way ANOVA respectively, and Tukey and t tests, respectively (p<0.05). Data from FT-Raman/µEDXRF were submitted to one-way ANOVA and Dunnett multiple-comparisons test (a=0.05). GB and GNC showed lowest SH2 values that were significantly different from GC and GIS. Regarding CSH, GB and GNC showed no significant difference between them. SEM showed similar caries lesion depth for GB and GNC, being significantly higher than for GC and GIS. µEDXRF showed similar values of calcium and phosphate for GB and GNC; GNC values were significantly different from GIS. No significant difference was found among the groups concerning phosphate, carbonate and CH bonds values. For collagen type I, GC values were significantly different compared to other groups. It may be concluded that caries-like lesions produced by GB were the closest model to NCL.
Este estudo avaliou as características estruturais e moleculares da lesão de cárie artificial em dentina produzidas por diferentes modelos artificiais (LCA) comparados à lesão de cárie natural (LCN). Cento e vinte e quatro blocos de dentina oclusal hígida e 47 blocos cariados foram obtidos e a dureza superficial foi analisada (SH1). Eles foram divididos em grupos de acordo com os modelos de LCA: GB: Biológico; GQ: Químico; GIS: In situ; GCN: lesão de cárie natural (controle). Blocos dos grupos 1, 2 e 3 foram submetidos à produção da lesão de cárie. Blocos de dente contendo LCA e LCN foram submetidos à análise de dureza superficial (SH2), análise FT-Raman e µEDXRF. Em seguida, todos os blocos foram seccionados longitudinalmente e uma das metades foi submetida à análise da dureza transversal (CSH) e outra à análise em microscopia eletrônica de varredura (MEV). Dados da SH1 e SH2 foram submetidos ao teste t (não-pareado e pareado, respectivamente). Dados do CSH e MEV foram submetidos à ANOVA a um fator e teste Tukey e ANOVA a um fator e teste t, respectivamente (p<0,05). Dados do FT-raman/µEDXRF foram submetidos a ANOVA a um fator e teste de Dunnett para múltiplas comparações (p<0,05). GB e GCN apresentaram os menores valores de SH2 que foram significativamente diferentes de GC e GIS. Quanto a CSH, GB e GCN mostraram nenhuma diferença significativa entre eles. SEM mostrou profundidade de lesão de cárie semelhante para GB e GCN, sendo significativamente maior que para GC e GIS. µEDXRF mostrou valores similares de cálcio e fosfato para GB e GCN, enquanto os valores do GCN foram significativamente diferentes em relação ao GIS. Nenhuma diferença significativa foi encontrada entre os grupos em relação aos valores de fosfato, carbonato e ligações CH. Para o colágeno tipo I, os valores do GC foram significativamente diferentes em comparação aos outros grupos. Pode-se concluir que a cárie artificial produzida pelo GB foi o mais próximo da LCN.
Subject(s)
Humans , Dental Caries/pathology , Dentin/pathology , Dental Enamel/pathology , Hardness , In Vitro Techniques , Microscopy, Electron, Scanning , Molar, Third , Spectrometry, X-Ray Emission , Spectroscopy, Fourier Transform Infrared , Surface PropertiesABSTRACT
The aim of this study was to investigate the effects of some acidic drinks on dentin erosion, using methods of surface profile (SP) analysis and energy-dispersive X-ray fluorescence spectrometry (EDXRF). One hundred standardized dentin slabs obtained from bovine incisor roots were used. Dentin slabs measuring 5x5 mm were ground flat, polished and half of each specimen surface was protected with nail polish. For 60 min, the dentin surfaces were immersed in 50 mL of 5 different drinks (Gatorade®, Del Valle Mais orange juice®, Coca-Cola®, Red Bull® and white wine), 20 blocks in each drink. The pH of each beverage was measured. After the erosive challenge, the nail polish was removed and SP was analyzed. The mineral concentration of dentin surfaces was determined by means of EDXRF. Data were analyzed statistically by ANOVA and Tukey's test (α=0.05). SP analysis showed that Red-Bull had the highest erosive potential (p<0.05). EDXRF results exhibited a decrease in phosphate in the groups immersed in Red-Bull, orange juice and white wine (p<0.05), and no significant difference in calcium content between the reference surface and eroded surface. In conclusion, this study demonstrated that all studied beverages promoted erosion on root dentin and Red Bull had the highest erosive potential. There was no correlation between pH of beverages and their erosive potential and only the P content changed after erosive challenge.
O objetivo deste estudo foi investigar os efeitos de algumas bebidas ácidas sobre a erosão da dentina, utilizando métodos de análise de perfil de superfície (SP) e espectrometria de energia dispersiva de fluorescência de raios X (EDXRF). Cem blocos de dentina padronizados obtidos de raízes de incisivos bovinos foram utilizados. Os blocos de dentina medindo 5x5 mm foram planificados, polidos e metade de cada superfície das amostras foram impermeabilizados com esmalte para unhas. Por 60 min, as superfícies de dentina foram imersas em 50 mL de 5 bebidas diferentes (Gatorade, suco de laranja, Coca-Cola, Red Bull e vinho branco), 20 blocos em cada bebida. O pH de cada bebida foi medido. Após o desafio erosivo, o esmalte de unha foi removido e SP foram analisados. A concentração de minerais das superfícies de dentina foi determinada por meio de EDXRF. Os dados foram analisados estatisticamente por ANOVA e teste de Tukey. (p<0,05). A análise SP mostrou que o Red-Bull apresentou o maior potencial erosivo. Os resultados do EDXRF apresentaram uma diminuição do fosfato dos grupos imersos no Red-Bull, suco de laranja e vinho branco, e não houve diferença significativa no teor de cálcio entre a superfície de referência e a superfície que sofreu erosão. O Red Bull apresentou o maior potencial erosivo sobre a dentina radicular. Não houve correlação entre o pH das bebidas e o seu potencial erosivo.
Subject(s)
Animals , Cattle , Beverages/adverse effects , Dentin/pathology , Tooth Erosion/etiology , Acids , Citrus sinensis , Calcium/analysis , Carbonated Beverages/adverse effects , Energy Drinks/adverse effects , Hardness , Hydrogen-Ion Concentration , Phosphates/analysis , Spectrometry, X-Ray Emission , Time Factors , Wine/adverse effectsABSTRACT
The aim of this study was to observe the influence of two light polymerization units (LED or halogen light) on the degree of conversion (DC) of three dental composites with lighter shades and a different photoinitiator system. The top (T) and bottom (B) surfaces of 60 discs of composite resin (Filtek Supreme, Filtek Z250, Tetric Ceram Bleach) cured either by LED or by halogen lamp (HL) were studied using an FT-Raman spectrometer. The degree of conversion (DC) was evaluated by following the changes in the intensity of the methacrylate C=C stretching mode at 1640 cm-1. The calculated DC ranged from 54.2 percent (B) to 73.4 percent (T) and from 60.2 percent (B) to 76.6 percent (T) for the LED and HL, respectively. LED and halogen devices were able to produce an adequate DC for all the resins tested.
Subject(s)
Curing Lights, Dental , Composite Resins/radiation effects , Photoinitiators, Dental , Polymerization/radiation effects , Composite Resins/chemistry , Materials Testing , Spectrum Analysis, Raman , Statistics, Nonparametric , Surface Properties , Time FactorsABSTRACT
O objetivo deste estudo foi avaliar por espectroscopia Raman, os componentes mineral e orgânico da dentina humana antes e após o condicionamento ácido e a irradiação com laser de Er:YAG. Seis discos de dentina foram obtidos de 6 terceiros molares humanos hígidos após remoção da superfície oclusal. Cada disco foi dividido em quatro regiões (quadrantes) de tratamento: condicionamento com ácido fosfórico a 37% (controle), irradiação com laser de Er:YAG (KaVo Key Laser II) com 80 mJ, 3 Hz, 30 s (grupo I); 120 mJ, 3 Hz, 30 s (grupo II) e 180 mJ, 3 Hz, 30 s (grupo III). Os espectros Raman da dentina normal e tratada foram analisados e os componentes mineral e orgânico foram avaliados. Os resultados foram submetidos a análise estatística pela ANOVA e teste de Tukey com intervalo de confiança de 95%. O conteúdo mineral e orgânico foi menos afetado nos grupos controle e I (p>0,05). O grupo II apresentou maior redução no conteúdo mineral (p<0,01) enquanto que a irradiação com laser Er:YAG 180 mJ (grupo III) reduziu mais o conteúdo inorgânico (p<0,05) e orgânico (p<0,01). A espectroscopia Raman forneceu informações dos conteúdos químicos da dentina sem preparação química dos espécimes.