ABSTRACT
Abstract Radiation-related caries are one the most undesired reactions manifested during or after head and neck radiotherapy. Fluoride application is an important strategy to reduce demineralization and enhance remineralizaton. Objective: To evaluate the effect of the topical application of fluoride during irradiation on dental enamel demineralization. Material and Methods: Thirty molars were randomly divided into three groups: Non-irradiated (NI), Irradiated (I), Irradiated with fluoride (IF). Each group was subdivided according to the presence or absence of pH-cycling (n=5). In the irradiated groups, the teeth received 70 Gy. The enamel's chemical composition was measured using Fourier Transform Infrared Spectrometry (organic matrix/mineral ratio - M/M and relative carbonate content - RCC). Vickers microhardness (VHN) and elastic modulus (E) were evaluated at three depths (surface, middle and deep enamel). Scanning electron microscopy (SEM) was used to assess the enamel's morphology. Results: The FTIR analysis (M/M and RCC) showed significant differences for irradiation, pH-cycling and the interaction between factors (p<0.001). Without pH-cycling, IF had the lowest organic matrix/mineral ratio and relative carbonate content. With pH-cycling, the organic matrix/mineral ratio increased and the relative carbonate content decreased, except for IF. VHN was influenced only by pH-cycling (p<0.001), which generated higher VHN values. ANOVA detected significant differences in E for irradiation (p<0.001), pH-cycling (p<0.001) and for the interaction between irradiation and pH-cycling (p<0.001). Increased E was found for group I without pH-cycling. With pH-cycling, groups I and IF were similar, and showed higher values than NI. The SEM images showed no morphological changes without pH-cycling. With pH-cycling, fluoride helped to maintain the outer enamel's morphology. Conclusions: Fluoride reduced mineral loss and maintained the outer morphology of irradiated and cycled enamel. However, it was not as effective in preserving the mechanical properties of enamel. Radiotherapy altered the enamel's elastic modulus and its chemical composition.
Subject(s)
Humans , Cariostatic Agents/pharmacology , Fluorides, Topical/pharmacology , Tooth Demineralization/prevention & control , Dental Enamel/drug effects , Radiotherapy/adverse effects , Reference Values , Surface Properties , Microscopy, Electron, Scanning , Cariostatic Agents/radiation effects , Cariostatic Agents/chemistry , Random Allocation , Fluorides, Topical/radiation effects , Fluorides, Topical/chemistry , Reproducibility of Results , Analysis of Variance , Tooth Demineralization/etiology , Spectroscopy, Fourier Transform Infrared , Dental Enamel/radiation effects , Elastic Modulus , Hardness Tests , Hydrogen-Ion ConcentrationABSTRACT
OBJECTIVE: Radiation-related caries are one the most undesired reactions manifested during or after head and neck radiotherapy. Fluoride application is an important strategy to reduce demineralization and enhance remineralizaton. To evaluate the effect of the topical application of fluoride during irradiation on dental enamel demineralization. MATERIAL AND METHODS: Thirty molars were randomly divided into three groups: Non-irradiated (NI), Irradiated (I), Irradiated with fluoride (IF). Each group was subdivided according to the presence or absence of pH-cycling (n=5). In the irradiated groups, the teeth received 70 Gy. The enamel's chemical composition was measured using Fourier Transform Infrared Spectrometry (organic matrix/mineral ratio - M/M and relative carbonate content - RCC). Vickers microhardness (VHN) and elastic modulus (E) were evaluated at three depths (surface, middle and deep enamel). Scanning electron microscopy (SEM) was used to assess the enamel's morphology. RESULTS: The FTIR analysis (M/M and RCC) showed significant differences for irradiation, pH-cycling and the interaction between factors (p<0.001). Without pH-cycling, IF had the lowest organic matrix/mineral ratio and relative carbonate content. With pH-cycling, the organic matrix/mineral ratio increased and the relative carbonate content decreased, except for IF. VHN was influenced only by pH-cycling (p<0.001), which generated higher VHN values. ANOVA detected significant differences in E for irradiation (p<0.001), pH-cycling (p<0.001) and for the interaction between irradiation and pH-cycling (p<0.001). Increased E was found for group I without pH-cycling. With pH-cycling, groups I and IF were similar, and showed higher values than NI. The SEM images showed no morphological changes without pH-cycling. With pH-cycling, fluoride helped to maintain the outer enamel's morphology. CONCLUSIONS: Fluoride reduced mineral loss and maintained the outer morphology of irradiated and cycled enamel. However, it was not as effective in preserving the mechanical properties of enamel. Radiotherapy altered the enamel's elastic modulus and its chemical composition.
Subject(s)
Cariostatic Agents/pharmacology , Dental Enamel/drug effects , Dental Enamel/radiation effects , Fluorides, Topical/pharmacology , Tooth Demineralization/prevention & control , Analysis of Variance , Cariostatic Agents/chemistry , Cariostatic Agents/radiation effects , Elastic Modulus , Fluorides, Topical/chemistry , Fluorides, Topical/radiation effects , Hardness Tests , Humans , Hydrogen-Ion Concentration , Microscopy, Electron, Scanning , Radiotherapy/adverse effects , Random Allocation , Reference Values , Reproducibility of Results , Spectroscopy, Fourier Transform Infrared , Surface Properties , Tooth Demineralization/etiologyABSTRACT
OBJECTIVE: This study evaluated the combined effect of fluoride varnish to Er:YAG or Nd:YAG laser on permeability of eroded root dentine. DESIGN: Sixty slabs of bovine root dentine (2×2×2mm) were eroded with citric acid 0.3% (pH 3.2) during 2h and then kept in artificial saliva during 24h. Specimens were randomly assigned in 6 groups (n=10), to receive the following treatments: fluoride varnish; fluoride varnish+Er:YAG laser; fluoride varnish+Nd:YAG laser; non-fluoride varnish; non-fluoride varnish+Er:YAG laser; non-fluoride varnish+Nd:YAG laser. The Er:YAG (100mJ, 3Hz) and Nd:YAG (70mJ, 15Hz) were applied for 10s. Specimens were subjected to further erosive challenges with citric acid 0.3% 4×/day, during 1min, for 5 days, remaining in artificial saliva between cycles. Dentin permeability was then assessed. Two-way ANOVA demonstrated no significant interaction between laser and varnish (p=0.858). RESULTS: No effect was also detected for the main factor varnish (p=0.768), while permeability of eroded root dentin was significantly lower when such substrate was laser-irradiated, no matter the laser source (p<0.001). CONCLUSIONS: This study concluded that Er:YAG and Nd:YAG lasers can be employed to control the permeability of eroded root dentin, regardless of fluoride varnish application.
Subject(s)
Dentin Permeability/drug effects , Dentin Permeability/radiation effects , Fluorides, Topical/radiation effects , Lasers, Solid-State , Tooth Root/drug effects , Tooth Root/radiation effects , Animals , Cattle , Citric Acid , Dentin/drug effects , Dentin/radiation effects , Fluorides, Topical/administration & dosage , Hydrogen-Ion Concentration , Random Allocation , Saliva, Artificial , Tooth Erosion/drug therapy , Tooth Erosion/etiology , Tooth Erosion/prevention & controlABSTRACT
Os tratamentos que visam a remissão dos sintomas provocados pela hipersensibilidade dentinária são baseados na obliteração física dos túbulos dentinários com o objetivo de reduzir a condutibilidade hidráulica da dentina. Nesse contexto, diversos tratamentos têm sido avaliados, entre eles, a irradiação da superfície dentinária com laser. O objetivo do presente estudo foi avaliar a condutibilidade hidráulica da dentina radicular bovina, após irradiação com um laser de diodo (980nm), associado ou não com um verniz fluoretado. Sessenta espécimes de dentina radicular bovina com dimensões 5,5 X 5,5 X 1mm foram divididos em 6 grupos (n=10): Grupos 1, 3 e 5 (laser de diodo com 0,5; 0,7 e 1W respectivamente); Grupos 2, 4 e 6 (associação entre verniz fluoretado e laser de diodo com 0,5; 0,7 e 1W). A condutibilidade hidráulica da dentina, avaliada em FLODEC, foi analisada em 4 momentos: após criação da smear layer (permeabilidade mínima), após condicionamento com gel de ácido fosfórico a 37% (permeabilidade máxima), após os tratamentos propostos e após o desafio ácido com ácido cítrico a 6%. Os dados obtidos foram avaliados pela ANOVA a 2 critérios e teste de Tukey para comparação entre os diferentes grupos e ANOVA 1 critério de medidas repetidas e teste de Tukey para comparação entre as diferentes leituras dentro de cada grupo, sempre com p<0,05%. As análises demonstraram um melhor resultado conforme o aumento da potência de irradiação, principalmente se esta for associada à aplicação do verniz fluoretado, garantindo uma melhor estabilidade dos tratamentos, mesmo após o desafio ácido. Após essa última etapa, os espécimes foram avaliados quanto à composição mineral em EDX, apresentando como principais alterações nos grupos irradiados com laser, um aumento na proporção de ions Cálcio e Fósforo, associada à redução dos íons Carbono e Oxigênio. Dessa forma, a irradiação da dentina exposta com laser de diodo promoveu redução significante na condutibilidade...
The dentin hypersensitivity treatments are based on the physical obliteration of dentinal tubules in order to reduce the dentin hydraulic conductance. Hence, many treatments have been evaluated, such as the dentin surface laser irradiation. The aim of the present study was to evaluate the bovine root dentin hydraulic conductance after 980nm diode laser irradiation, associated or not with a fluoride varnish. Sixty bovine root dentin specimens were divided into six groups (n=10): Groups 1, 3 and 5 (0.5, 0.7 and 1W diode laser respectively); Groups 2, 4 and 6 (association between fluoride varnish application and 0.5, 0.7 and 1W diode laser irradiation). The dentin hydraulic conductance was evaluated at 4 moments, with FLODEC: after smear layer (minimum permeability), after 37% phosphoric acid gel etching (maximum permeability), after the treatments and after 6% citric acid challenge. The analysis demonstrated a better result with increased irradiation power, especially if the diode laser irradiation was associated with the application of a fluoride varnish, ensuring a greater treatment stability, even after acid challenge. After the citric acid challenge, the specimens were evaluated for mineral composition in EDX. The irradiated groups showed, as major changes after laser irradiation, an increase in the proportion of calcium and phosphorus ions, associated with the reduction of carbon and oxygen ions. In conclusion, the laser irradiation of the exposed dentin promoted a significant reduction in hydraulic conductance, mainly with higher energy densities and when combined with a fluoride varnish.
Subject(s)
Animals , Cattle , Dentin/radiation effects , Dentin/chemistry , Fluorides, Topical/chemistry , Lasers, Semiconductor , Dentin , Fluorides, Topical/radiation effects , Dentin Permeability , Dentin Permeability/radiation effects , Surface Properties , Surface Properties/radiation effects , Reproducibility of Results , Smear LayerABSTRACT
A aplicação do laser sobre o esmalte associada ou não a aplicação tópica de fluoreto têm demonstrado aumentar sua resistência à ação de ácidos. O presente estudo teve como objetivo avaliar o efeito da irradiação laser de alta potência associada à aplicação de fluoretos sobre o esmalte dentário submetido à erosão e/ou abrasão dentária. Para tal, 184 blocos de esmalte foram selecionados pela microdureza de superfície (SMH inicial) e foram divididos em 8 grupos com 23 espécimes cada (3 foram utilizados para realização da biópsia básica da superfície de esmalte dentário, 10 foram submetidos à erosão e os outros 10 à erosão associada à abrasão): G1- sem tratamento (controle); G2- tratamento com flúor fosfato acidulado (1,23% F) por 4 min; G3- verniz fluoretado; G4- irradiação com laser Nd:YAG (56,6 J/cm2); G5- aplicação de flúor fosfato acidulado e posterior irradiação com laser Nd:YAG (56,6 J/cm2); G6- aplicação de flúor fosfato acidulado e prévia irradiação com laser Nd:YAG (56,6 J/cm2); G7- aplicação de verniz fluoretado e posterior irradiação com laser Nd:YAG (56,6 J/cm2); G8- aplicação de verniz fluoretado e prévia irradiação com laser Nd:YAG (56,6 J/cm2). Após os tratamentos, os blocos submetidos à ciclagem erosiva sofreram 4 imersões diárias em bebida ácida com pH 2,6, 0,32 ppm F (Coca-Cola Company, Spal, Porto Real, RJ, Brasil), por 2 min, seguida pela imersão em solução remineralizadora por 2 h, durante 5 dias. Nos blocos submetidos à erosão associada à abrasão, uma vez ao dia após cada ciclo, os espécimes foram submetidos à abrasão com 40 ciclos de escovação simulada com força de 2,5 N. Os blocos de esmalte foram avaliados por meio da perfilometria. Os resultados foram submetidos à ANOVA a um (biopsia básica) e dois critérios (perfilometria) e Teste de Tukey (p<0,05). Todos os grupos de tratamento promoveram menor desgaste dentário em relação ao controle, sendo que entre eles, a irradiação laser promoveu o pior...
The laser application on enamel associated or not to the topic fluoride have been showed to increase the resistance to acid action. This study aimed to evaluate the effect of high intensity laser irradiation submitted to dental erosion and/or abrasion. Hence, 184 enamel samples were selected by surface microhardness (initial SMH) and then divided into 8 groups with 23 specimens each (3 were selected to routine biopsy of enamel surface, 10 submitted to erosion procedure and another 10 were submitted to erosion associated to abrasion): G1 without treatment (control group); G2 treated with acidic phosphate for 4 min (1.23% F); G3 fluoride varnish; G4 - irradiation with Nd:YAG laser (56.6 J/cm2) ; G5 - acidic phosphate fluoride with posterior irradiation with Nd:YAG laser (56.6 J/cm2) ; G6 application of acidic phosphate fluoride with previous irradiation of Nd:YAG laser (56,6 J/cm2); G7- application of fluoride varnish with posterior laser irradiation with Nd:YAG laser (56,6 J/cm2); G8- application of fluoride varnish with previous irradiation of Nd:YAG laser (56,6 J/cm2). After the treatments, the samples were submitted to erosive cycling with 4 diary immersions in acidic beverages with pH 2.6, 0.32 F ppm (Coca-Cola Company, Spal, Porto Real, RJ, Brasil) for 2 min followed by remineralized solution for 5 days. To groups submitted to erosive associated to abrasion, once a day after each cycling, the specimens were submitted to abrasion with 40 simulated brushing cycles with power of 2.5 N. The enamel samples were evaluated by profilemetry. The results were submitted to one way ( routine biopsy) and two way (profilometry) ANOVA and Tukey test (p < 0.05). All the groups demonstrated a wear dental decrease in relation to control group, and among them, the laser irradiation promoted the worst outcome (p < 0.05). The groups related to fluoride resulted in increase concentration of fluoride in the enamel...
Subject(s)
Animals , Cattle , Dental Enamel/radiation effects , Fluorides, Topical/radiation effects , Lasers , Tooth Abrasion , Tooth Erosion , Dentin/radiation effects , Hardness Tests , Surface Properties/radiation effectsABSTRACT
A aplicação do laser sobre o esmalte associada ou não a aplicação tópica de fluoreto têm demonstrado aumentar sua resistência à ação de ácidos. O presente estudo teve como objetivo avaliar o efeito da irradiação laser de alta potência associada à aplicação de fluoretos sobre o esmalte dentário submetido à erosão e/ou abrasão dentária. Para tal, 184 blocos de esmalte foram selecionados pela microdureza de superfície (SMH inicial) e foram divididos em 8 grupos com 23 espécimes cada (3 foram utilizados para realização da biópsia básica da superfície de esmalte dentário, 10 foram submetidos à erosão e os outros 10 à erosão associada à abrasão): G1- sem tratamento (controle); G2- tratamento com flúor fosfato acidulado (1,23% F) por 4 min; G3- verniz fluoretado; G4- irradiação com laser Nd:YAG (56,6 J/cm2); G5- aplicação de flúor fosfato acidulado e posterior irradiação com laser Nd:YAG (56,6 J/cm2); G6- aplicação de flúor fosfato acidulado e prévia irradiação com laser Nd:YAG (56,6 J/cm2); G7- aplicação de verniz fluoretado e posterior irradiação com laser Nd:YAG (56,6 J/cm2); G8- aplicação de verniz fluoretado e prévia irradiação com laser Nd:YAG (56,6 J/cm2). Após os tratamentos, os blocos submetidos à ciclagem erosiva sofreram 4 imersões diárias em bebida ácida com pH 2,6, 0,32 ppm F (Coca-Cola Company, Spal, Porto Real, RJ, Brasil), por 2 min, seguida pela imersão em solução remineralizadora por 2 h, durante 5 dias. Nos blocos submetidos à erosão associada à abrasão, uma vez ao dia após cada ciclo, os espécimes foram submetidos à abrasão com 40 ciclos de escovação simulada com força de 2,5 N. Os blocos de esmalte foram avaliados por meio da perfilometria. Os resultados foram submetidos à ANOVA a um (biopsia básica) e dois critérios (perfilometria) e Teste de Tukey (p<0,05). Todos os grupos de tratamento promoveram menor desgaste dentário em relação ao controle, sendo que entre eles, a irradiação laser promoveu o pior...
The laser application on enamel associated or not to the topic fluoride have been showed to increase the resistance to acid action. This study aimed to evaluate the effect of high intensity laser irradiation submitted to dental erosion and/or abrasion. Hence, 184 enamel samples were selected by surface microhardness (initial SMH) and then divided into 8 groups with 23 specimens each (3 were selected to routine biopsy of enamel surface, 10 submitted to erosion procedure and another 10 were submitted to erosion associated to abrasion): G1 without treatment (control group); G2 treated with acidic phosphate for 4 min (1.23% F); G3 fluoride varnish; G4 - irradiation with Nd:YAG laser (56.6 J/cm2) ; G5 - acidic phosphate fluoride with posterior irradiation with Nd:YAG laser (56.6 J/cm2) ; G6 application of acidic phosphate fluoride with previous irradiation of Nd:YAG laser (56,6 J/cm2); G7- application of fluoride varnish with posterior laser irradiation with Nd:YAG laser (56,6 J/cm2); G8- application of fluoride varnish with previous irradiation of Nd:YAG laser (56,6 J/cm2). After the treatments, the samples were submitted to erosive cycling with 4 diary immersions in acidic beverages with pH 2.6, 0.32 F ppm (Coca-Cola Company, Spal, Porto Real, RJ, Brasil) for 2 min followed by remineralized solution for 5 days. To groups submitted to erosive associated to abrasion, once a day after each cycling, the specimens were submitted to abrasion with 40 simulated brushing cycles with power of 2.5 N. The enamel samples were evaluated by profilemetry. The results were submitted to one way ( routine biopsy) and two way (profilometry) ANOVA and Tukey test (p < 0.05). All the groups demonstrated a wear dental decrease in relation to control group, and among them, the laser irradiation promoted the worst outcome (p < 0.05). The groups related to fluoride resulted in increase concentration of fluoride in the enamel...
Subject(s)
Animals , Cattle , Dental Enamel/radiation effects , Fluorides, Topical/radiation effects , Lasers , Tooth Abrasion , Tooth Erosion , Dentin/radiation effects , Hardness Tests , Surface Properties/radiation effectsABSTRACT
AIM: To evaluate chemically the effects of diode laser on fluoride uptake before and after laser irradiation of enamel surfaces. METHODS: Crowns of 20 sound human teeth were halved and a 3 x 3 mm acid-resistant varnish uncovered window left for: A) no treatment; B) fluoride (Elmex gel); C) diode (fluoride + diode laser); D) diode (diode laser + fluoride). The dental surfaces were analysed using a fluoride ion-selective electrode, in order to evaluate the fluoride treatment in combination with a diode laser. Also, to investigate laser-induced compositional changes (contents in F(-)) in enamel before/after laser irradiation and topical fluoride application. RESULTS: The mean ± SD of fluoride uptake of teeth of group A was 1.55 ± 0.89 mg/l. Mean fluoride uptake increased sevenfold after fluoride gel treatment: 10.51 ± 3.38 mg/l for group B, up to 15 times after gel and laser treatment: 23.62 ± 3.58 mg/l for group C and was 22.7 ± 4.60 mg/l for group D (diode laser before fluoride application). The Kruskal Wallis test indicated a statistically significant effect of fluoride uptake for all three treatments (p<0.001). The Student-Newman-Keuls multiple comparison test indicated a statistically significant increase of fluoride uptake before and after all treatments, and also a statistically significant difference for laser treatment versus fluoride gel. However, there was no statistically significance difference between laser groups. CONCLUSIONS: There is an enhanced capability of lasers to increase fluoride uptake of enamel and providing protection to enamel surface from acid attack.
Subject(s)
Cariostatic Agents/pharmacokinetics , Dental Enamel/radiation effects , Fluorides, Topical/pharmacokinetics , Lasers, Semiconductor/therapeutic use , Low-Level Light Therapy/methods , Cariostatic Agents/analysis , Cariostatic Agents/radiation effects , Dental Enamel/chemistry , Dental Enamel/metabolism , Diamines/pharmacokinetics , Diamines/radiation effects , Fluorides/pharmacokinetics , Fluorides/radiation effects , Fluorides, Topical/analysis , Fluorides, Topical/radiation effects , Humans , Ion-Selective ElectrodesABSTRACT
28 samples of human enamel have been studied in order to measure fluoride absorption after treatment with ultraviolet radiations. Samples treated with topical application only presented limited fluoride absorption in enamel surface (up to 0.5 microns deep). The absorption rate was higher, using an U.V. lamp. In samples treated with "excimer" laser, fluoride absorption was much higher in the surface layer and occurred also deeper (3 microns).
