Effects of Cathepsin K Inhibitors on Dentin Erosion: An in vitro Study.

Cathepsin K (catK) modulates the degradation of dentin collagen. This study aimed to evaluate the effects of catK inhibitors on dentin erosion. Dentin beams were eroded (4 times/d for 5 days) and immersed in deionized water (negative control), 0.1 M NaCl, 0.3 M NaCl, 0.5 M NaCl, or 1 µm odanacatib (each n = 16) for 30 min after each erosive challenge. Erosive dentin loss (EDL) and demineralized organic matrix (DOM) thickness were evaluated profilometrically. Additionally, dentin beams were demineralized, immersed in the respective solutions for 30 min each (n = 5), and then incubated in artificial saliva for 5 days. Dentin collage degradation was evaluated by quantifying the levels of the C-terminal peptide of type I collagen (CTX), C-terminal cross-linked telopeptide of type I collagen (ICTP), and hydroxyproline (HYP) in the incubation media. Significantly lower EDL and dentin collagen degradation (CTX, ICTP, and HYP) and thicker DOM layers were observed in the samples treated with 0.3 m NaCl and 1 µm odanacatib than in those treated with deionized water (all p < 0.05). The samples treated with 1 µm odanacatib showed significantly lower levels of CTX and HYP than those treated with 0.3 M NaCl (all p < 0.05). The present findings support the potential use of catK inhibitors in controlling dentin erosion.

Effects of a commercial whitening toothpaste containing hydrogen peroxide and citric acid on dentin abrasion and erosion.

BACKGROUND: Hydrogen peroxide (HP) and citric acid (CA), key contributors to toothpaste acidity, can lead to dental loss. This study aimed to compare the amount of abrasion or loss of dentin based on pH, buffering, and concentration of HP and CA in commercial and experimental toothpastes after toothbrushing or immersion. METHODS: Bovine dentin specimens were randomly assigned to nine solutions. The prepared solutions included two commercial toothpastes (whitening toothpaste [WT] with HP and CA; conventional toothpaste [CT] without HP and CA), reference slurry (RS), two CA solutions (1.92%, CAS1; 0.001%, CAS2), basic solution (7.16% sodium phosphate dibasic [SPDS]), CA phosphate buffer solution (3.58% SPDS and 0.96% CA [CAPB]), HP solution (4%, HPS), and distilled water (DW). Dentin specimens were performed in two treatments: one with only abrasion (10,000 brushings) and one with only immersion (1 h). After treatments, the amount of dentin loss and surface images were measured and observed using noncontact profilometry. Data were analyzed using an one-way analysis of variance and the Tukey test as a post hoc analysis (p < 0.05). RESULTS: WT with pH 5.0 had lower dentin abrasion than CT and RS after brushing but had higher dentin loss than both after immersion. The dentin surfaces of CAS1, CAPB, and WT were damaged after immersion, whereas HPS, CAS2, CT, SPDS, RS, and DW remained intact after soaking. CAS2 and HPS, which had a pH of 5.0 like WT, did not significantly differ from those of DW after brushing. CONCLUSIONS: WT containing HP and CA did not cause significant dentin abrasion but may cause additional dentin loss even without brushing. After brushing or immersion, the CA concentration may affect the dentin surface more than the HP concentration included in WT. The amount of abrasion or loss of dentin after brushing or soaking can vary based on the composition, concentration, and buffer in the solution, even if the pH of the solution is similar to pH 5.0.

Effect of Nd:YAG laser irradiation and fluoride application in the progression of dentin erosion in vitro.

Nd:YAG laser and its association with fluoride have been proposed as an option for the prevention of dental erosion. This study evaluated the progression of existing dentin erosive lesions after treatment with different Nd:YAG laser (1064 nm) protocols, associated or not with fluoride. Erosive lesions were created with 1 % citric acid for 10 min in human dentin specimens. They were randomly assigned into eight groups (n = 15): no treatment (control), 1-min application of 2 % sodium fluoride gel (NaF), Nd:YAG1 (Nd:YAG laser irradiation 0.5 W; 50 mJ; ~41.66 J/cm(2); 10 Hz; 40 s; in contact), Nd:YAG2 (0.7 W; 70 mJ; ~62.50 J/cm(2); 10 Hz; 40 s; in contact), Nd:YAG3 (1 W; 100 mJ; ~54,16 J/cm(2); 10 Hz; 40 s; 1 mm unfocused), NaF + Nd:YAG1, NaF + Nd:YAG2, and NaF + Nd:YAG3. After treatment, the specimens were submitted to a 5-day erosion-remineralization cycling model, 6×/day. Dentin surface loss (SL) was evaluated with optical profilometry after the formation of the initial lesion; after treatment; and after days 1, 3, and 5. Data were statistically analyzed (alpha = 0.05). Significant differences were observed among the groups in all testing times (p < 0.001), except after initial lesion formation. Loss of dentin surface was observed after irradiation with all Nd:YAG laser protocols (p < 0.05). The association fluoride and laser did not differ significantly from laser alone. NaF showed the lowest values of SL and Nd:YAG2 and NaF + Nd:YAG2, the highest. Within the limitations of an in vitro study, it was concluded that laser irradiation, according to the parameters used, was not an appropriated approach to prevent dentin erosion progression, even when it was associated with fluoride.

Effects of the application timing of anti-erosive agents on dentin erosion.

This in vitro study aimed to evaluate the effects of the application timing of anti-erosive agents on dentin erosion. Eighty dentin specimens with dimensions of 2 × 2 × 2 mm were prepared and randomly divided into 4 groups based on the treatment solutions: 1.23 × 104 µg/ml sodium fluoride (NaF), 120 µg/ml chlorhexidine (CHX), 300 µg/ml quercetin (QUE), and deionized water (DW, negative control). The specimens in each group were further divided into 2 subgroups according to the application timing of the treatment solutions (n = 10): before the erosive challenges (PRE) and after the erosive challenges (POST). All specimens were submitted to 4 daily erosive challenges for 5 d. For each erosive challenge, the specimens in the subgroup PRE were treated with the respective solutions for 2 min and then immersed in cola drinks for 5 min, while the specimens in the subgroup POST were immersed in cola drinks for 5 min followed by treatment with the respective solutions for 2 min. The erosive dentin loss (EDL) was measured using a contact profilometer, and the surface morphology of the dentin specimens was evaluated by scanning electron microscopy at the end of the experiment. The data were statistically analyzed using two-way analysis of variance (ANOVA) and Bonferroni's test (α = 0.05). Significantly less EDL was observed in the groups NaF, CHX, and QUE than in the group DW (all P < 0.001). Significantly lower EDL was observed in the groups CHX and QUE than in the group NaF (P = 0.001 and P < 0.001, respectively). For CHX, subgroup POST exhibited significantly less EDL than subgroup PRE (P < 0.001). Regarding QUE, subgroup PRE showed significantly less EDL than subgroup POST (P < 0.001). Furthermore, a relatively greater number of obliterated dentinal tubules was visible in the subgroup POST rather than in the subgroup PRE of the group CHX, while in the group QUE, narrower dentinal tubules were observed in the subgroup PRE than those in subgroup POST. In conclusion, CHX and QUE showed the best performance in controlling dentin erosion. CHX was more effective in reducing EDL when applied after erosive challenges, whereas QUE worked more effectively when used before erosive attacks. The application timing should be considered when evaluating the effects of anti-erosive agents because it may determine their effectiveness.

Biomineralization induced by chitosan and collagen-based materials with fluoride for dentin coverage: Chemical and morphological analysis.

The prevention and treatment of erosive tooth wear are becoming increasingly important due to its increasing prevalence. The use of natural solutions to modify dental surfaces has become an area of research. Organic materials such as chitosan and hydrolyzed collagen may be a promising option to treat dentin. This in vitro study aimed to evaluate the influence of chitosan or hydrolyzed collagen, alone or combined with acidulated phosphate fluoride (APF) gel, on the composition and morphology of dentin after erosion. Bovine dentin samples were prepared (n = 84) and treated with artificial saliva (AS, negative control); APF gel (F, positive control); chitosan solution (Chi); hydrolyzed collagen solution (Col); fluoride/chitosan composition (F_Chi); and fluoride/hydrolyzed collagen composition (F_Col). Erosive cycles (six cycles of immersion in orange juice for 1 min, followed by immersion in AS for 1 hr) were performed. The materials were characterized by their morphology, composition, and particle size distribution. Micro-energy dispersive X-ray fluorescence spectroscopy and scanning electron were used to evaluate the dentin's inorganic chemical composition and morphology. The F_Col and F groups had a reduction in calcium loss by 17 and 26%, respectively (p < .001). Both of these groups still had a covering layer of agglomerates at the dentin surface after the erosive cycles. The fluoridated chitosan or collagen solutions improved the dentin resistance to erosion as a novel hybrid-fluoride-based material approach to provide surface protection from erosion.

Hesperidin reduces dentin wear after erosion and erosion/abrasion cycling in vitro.

OBJECTIVE: To evaluate the action of hesperidin (HPN) at different concentrations to prevent dentin erosive wear, associated or not to abrasion. METHODS: A study with 6 experimental groups (n = 10) for erosion (experiment 1) and another 6 for erosion + abrasion (experiment 2). The treatments were: distilled water (DW), DW with collagenase (DW + Col), 0.46% epigallocatechin-3-gallate (EGCG) and 0.1%, 0.5% or 1% HPN. The specimens were submitted to a cycle (3x/day) for 5 days that consisted of immersion on 1% citric acid (5 min), artificial saliva (60 min), treatment (5 min), brushing (150 movements only in experiment 2), and artificial saliva (60 min / overnight). Collagenase was added in artificial saliva for all groups except DW-group. Dentin changes were assessed with optical profilometry and scanning electron microscopy. Data were submitted to one-way analysis of variance and Tukey tests (α = 0.05). RESULTS: For experiment 1, DW showed the lowest wear and did not significantly differ from EGCG. DW + Col showed the highest wear, being significantly different from HPN at 1%. In experiment 2, DW showed the lowest wear and DW + Col the highest. EGCG showed less wear than the three groups treated with HPN. In addition, for both cycling models, there were no significant differences among the three concentrations of HPN analyzed. In micrographs of HPN-treated groups, it could be observed the formation of a barrier on the dentin that promoted the obliteration of the tubules. CONCLUSIONS: HPN was able to preserve the demineralized organic matrix layer but did not overcome the effect of EGCG.

Effect of black tea and matrix metalloproteinase inhibitors on eroded dentin in situ.

Purpose of this in situ study was to evaluate the surface properties of eroded dentin specimens activated with three different matrix metalloproteinase (MMP) inhibitors (chlorhexidine [CHX], fluoride, green tea), black tea, and water. One hundred eighty dentin samples were prepared from extracted third molars and then samples divided into six groups. Ten volunteers were carried three specimens of each group, on acrylic palatal appliances, which were fabricated exactly for them (n = 3). Erosive cycles were done by immersing appliances in cup containing Cola and was followed by rinsing with test solutions. Microhardness values were measured. Surface properties were investigated by atomic force microscopy (AFM). Lowest change in microhardness was shown in fluoride group whereas negative control group (water) had the highest change. There were no statistically significant differences among surface roughness changes (p > .05). The least change in microhardness was seen in the fluoride group (13.05 ± 8.07), while the control group showed the highest change (33.80 ± 12.42) and was statistically significant when compared to other groups (p < .05). Besides lowest depth, values were shown in fluoride group as well. AFM evaluations showed macromolecular deposits on surfaces of fluoride, CHX, and black tea groups. No superior results were detected in CHX + fluoride group and black tea showed similar surface characteristics as green tea. Mouthrinses containing not only green tea but also black tea could be beneficial for patients with exposed dentin surfaces. Catechines and theaflavins in teas could be useful for improving surface quality.

Raman spectroscopy-multivariate analysis related to morphological surface features on nanomaterials applied for dentin coverage.

Raman spectroscopy and scanning electron microscopy (SEM) were used to investigate the effect of coating materials and acidulated phosphate fluoride gel (APF) treatment on dentin before and after erosion-abrasion cycles. A multi-walled carbon nanotube/graphene oxide hybrid carbon-based material (MWCNTO-GO), nanohydroxyapatite (nHAp), or a combined composite (nHAp/MWCNTO-GO) were used as a coating. Seventy root dentin fragments obtained from 40 bovine teeth were prepared and divided into groups (n = 10): negative control, artificial saliva - C, positive control - APF; nHAp; MWCNTO-GO; APF_nHAp; APF_MWCNTO-GO and APF_nHAp/MWCNTO-GO. All samples were subjected to cycles of demineralization (orange juice, pH ~3.7, room temperature, 1 min) followed by remineralization (saliva, 37 °C, 1 h). The remineralization procedures were followed by tooth brushing (150 strokes). The above cycle was repeated 3×/day for 5 days. The previous APF treatment of dentin allowed a better affinity of nHAp and MWCNTO-GO with the inorganic and organic portion of dentin, respectively. This interaction indicates the formation of a protective layer for the dentin surface and for the collagen giving possible protection against erosion. SEM micrographs illustrated the formation of a protective layer after application of the biomaterials and that it was partially or totally removed after the erosion and abrasion. Raman spectroscopy combined with multivariate analysis could distinguish samples with respect to treatment efficacy. The APF_nHAP/MWCNT-GO composite has shown to be a promising material since it has binding characteristics both to the inorganic and organic portion of the dentin and reduced solubility. Mineral-to-matrix ratio (MMR) parameter analysis confirmed the binding capability of MWCNTO-GO-based materials to dentin.

The Evaluation of Dentin Microhardness After Use of 17% EDTA, 17% EGTA, 10% Citric Acid, MTAD Used as Chelating Agents Combined With 2.5% Sodium Hypochlorite After Rotary Instrumentation: An In Vitro SEM Study.

INTRODUCTION: The smear layer removed during root canal instrumentation enables penetration of irrigant solution and adhesion of root canal sealants providing a fluid tight seal of obturated root canals, necessitating its removal. The aim of the study was to compare the effect of smear layer removal by 17% Ethylene diamine tetraacetic acid (EDTA), 17% Ethylene glycol tetraacetic acid (EGTA),10% Citric acid and (MTAD solution) a Mixture of tetracycline isomer, an acid and a detergent applied as final rinse , when used along with 2.5% (NaOCl) Sodium hypochlorite and its effect on dentin microhardness. MATERIALS AND METHODS: Sixty single-rooted human mandibular premolars with minimum curvature (<5°) were instrumented using rotary instrumentation till apical enlargement size 35 RaCe file 0.04 taper. During instrumentation, the canals were irrigated with 2-mL 2.5% NaOCl. After instrumentation, teeth were rinsed with distilled water and were divided into 5 groups (n = 12) according to final rinse for 1 min with 5-mL 17% EDTA followed by 5-mL 2.5% NaOCl (group 1, control group), 17% EGTA (group 2), MTAD solution (group 3), 10% citric acid (group 4), and 17% EDTA (group 5). Teeth were split through the groove prepared, and one-half of specimen were evaluated for smear layer removal using scanning electron microscopy. A score system was followed to evaluate the images and comparisons among groups were performed using Kruskal-Wallis one-way analysis. Multiple comparisons were performed using Mann-Whitney U test. The other half was evaluated for dentin microhardness using Vickers microhardness testing machine. Microhardness values were statistically analyzed using parametric one-way analysis of variance test. CONCLUSION: Irrigation regimen following the use of 2.5% NaOCl during instrumentation followed by application of 5-mL 17% EDTA solution for 1 min resulted in efficient smear layer removal and less decrease in dentin microhardness compared with 17% EGTA, 10% citric acid, and MTAD solution.

Do matrix metalloproteinase and cathepsin K inhibitors work synergistically to reduce dentin erosion?

Abstract Objectives To evaluate the effects of matrix metalloproteinase (MMP) and cathepsin K (catK) inhibitors on resistance to dentin erosion. Methodology A total of 96 dentin specimens (3×3×2 mm) were prepared and randomly assigned into four groups (n=24): deionized water (DW); 1 µM odanacatib (ODN, catK inhibitor); 1 mM 1,10-phenanthroline (PHEN, MMP inhibitor); and 1 µM odanacatib + 1 mM 1,10-phenanthroline (COM). Each group was further divided into two subgroups for the application of treatment solutions before (PRE) and after erosive challenges (POST). All specimens were subjected to four daily erosive challenges for 5 d. For each erosive challenge, the specimens in subgroup PRE were immersed in the respective solutions before cola drinks, while the specimens in subgroup POST were immersed in the respective solutions after cola drinks (the immersion duration was 5 min in both cases). All specimens were stored in artificial saliva at 37°C between erosive challenges. The erosive dentin loss (EDL) was measured by profilometry. The residual demineralized organic matrix (DOM) of specimens was removed using type VII collagenase and evaluated by profilometry. Both the EDL and thickness of the residual DOM were statistically analyzed by two-way analysis of variance (ANOVA) and Bonferroni's test (α=0.05). The surface topography and transverse sections of the specimens were observed using SEM. MMPs and catK were immunolabeled in the eroded dentin and in situ zymography was performed to evaluate the enzyme activity. Results Significantly lower EDL was found in the groups ODN, PHEN, and COM than in the control group (all p<0.05), while no significant difference in EDL was found among the groups ODN, PHEN, and COM (all p>0.05). The application sequence showed no significant effect on the EDL of the tested groups (p=0.310). A significantly thicker DOM was observed in the group ODN than in the control group regardless of the application sequence (both p<0.05). The treatment with ODN, PHEN, and COM inhibited the gelatinolytic activity by approximately 46.32%, 58.6%, and 74.56%, respectively. Conclusions The inhibition of endogenous dentinal MMPs and catK increases the acid resistance of human dentin but without an apparent synergistic effect. The inhibition of MMPs and catK is equally effective either before or after the acid challenge.

Multi-walled carbon nanotubes/graphene oxide hybrid and nanohydroxyapatite composite: A novel coating to prevent dentin erosion.

To date is emergent the development of novel coatings to protect erosion, especially to preventive dentistry and restorative dentistry. Here, for the first time we report the effectiveness of multi-walled carbon nanotube/graphene oxide hybrid carbon-base material (MWCNTO-GO) combined with nanohydroxyapatite (nHAp) as a protective coating for dentin erosion. Fourier transform Raman spectroscopy (FT-Raman), scanning electron (SEM), and transmission electron (TEM) microscopy were used to investigated the coatings and the effect of acidulated phosphate fluoride gel (APF) treatment on bovine teeth root dentin before and after erosion. The electrochemical corrosion performance of the coating was evaluated. Raman spectra identified that: (i) the phosphate (ν1PO43-) content of dentin was not significantly affected by the treatments and (ii) the carbonate (ν1CO32-) content in dentin increased when nHAp was used. However, the nHAp/MWCNTO-GO composite exposited lower levels of organic matrix (CH bonds) after erosion compared to other treatments. Interesting, SEM micrographs identified that the nHAp/MWCNTO-GO formed layers after erosive cycling when associate with APF treatment, indicating a possible chemical bond among them. Treatments of root dentin with nHAp, MWCNTO-GO, APF_MWCNTO-GO, and APF_nHAp/MWCNTO-GO increased the carbonate content, carbonate/phosphate ratio, and organic matrix band area after erosion. The potentiodynamic polarization curves and Nyquist plot showed that nHAp, MWCNT-GO and nHAp/MWCNT-GO composites acted as protective agents against corrosion process. Clearly, the nHAp/MWCNTO-GO composite was stable after erosive cycling and a thin and acid-resistant film was formed when associated to APF treatment.

Activación sónica versus ultrasónica de EDTA al 10% para remoción de barrillo dentinario en el tercio apical del canal radicular / Sonic versus ultrasonic activation of 10% EDTA for smear layer removal in the root canal apical third

El objetivo de este estudio fue evaluar la efectividad de la activación sónica y ultrasónica del ácido etilendiaminotetraacético (EDTA) al 10% para remover barrillo dentinario en el tercio apical y el grado de erosión producido sobre las paredes del canal radicular. Se realizó un estudio cuantitativo experimental in vitro. Se instrumentaron 40 dientes manualmente con la técnica step-back hasta lima maestra número 55 y fueron asignados a 4 grupos según protocolo de irrigación final: I: agua destilada estéril sin activación, II: EDTA 10% sin activación por 30 segundos, III: EDTA 10% activado sónicamente por 30 segundos y IV: EDTA 10% activado ultrasónicamente por 30 segundos. Las muestras fueron observadas en MEB a una magnificación de 5000X. Se evaluó la presencia de barrillo dentinario remanente y grado de erosión según criterios de Torabinejad et al. Para el análisis estadístico se utilizó la prueba de Kruskal-Wallis y Post Hoc de Tukey con un nivel de significancia 5% (p=0,05). El grupo I (agua sin activación) presentó mayor cantidad de barrillo que el resto de los grupos (p<0,01). En cuanto a la presencia de barrillo, entre los grupos II (EDTA sin activación), III (EDTA con sonido) y IV (EDTA con ultrasonido) no hubo diferencias estadísticamente significativas. En cuanto a la erosión, el grupo II presentó una mayor erosión que el resto siendo significativa con los grupos I y III (p=0,006). Entre los grupos I, III y IV no hubo diferencias estadísticamente significativas. La activación sónica y ultrasónica del EDTA 10% no produjo una remoción de barrillo significativamente superior al compararlo con la irrigación convencional, pero sí hubo diferencias en cuanto a erosión, siendo menor con la activación sónica

The purpose of this study was to observe the effect of passive sonic and ultrasonic irrigation with 10% Ethilenediaminotetracethic acid (EDTA) on smear layer of the apical third of instrumented root canals as well as the level of erosion produced on the canal walls. For this quantitative experimental in vitro study 40 teeth were hand instrumented with step back technique until master file num 55 and divided in four groups according to the final irrigation protocol: I: distilled water without activation, II: 10% EDTA for 30 seconds without activation, III: 10% EDTA sonic activated for 30 seconds, IV: 10% EDTA ultrasonic activated for 30 seconds. Samples were prepared for MEB observation at 5000X. The presence of smear layer and erosion on dentine walls was quantified according to Torabinejad et al. criteria. Data were submitted at Kruskal-Wallis test and Tukey Post Hoc with a significance level of 5% (P=0.05). When evaluating the smear layer presence, there were no statistically significant differences between the groups II, III and IV. Group I had a highest amount of smear layer (p<0.01). As for erosion, group II showed higher erosion than the others, being significant with groups I and III (p=0.006). Among groups I, III and IV there were not statistically significant differences. Sonic and ultrasonic activation of EDTA 10% did not produce a significantly superior removal of smear layer when compared with conventional irrigation. Erosion of root canal walls was significantly lower after sonic activation

Efeitos comparativos de diferentes géis à base de cranberry e proantocianidina sobre a dentina submetida à erosão: estudo in vitro / In vitro effect of Cranberry and proanthocyanidin on dentin erosion

Considerando que a Proantocianidina e outros componentes do Cranberry possam inibir as metaloproteinases da dentina quando esta é exposta a ação de agentes erosivos e tal fato pode minimizar o desgaste dentinário, o presente trabalho tem como objetivo avaliar o efeito protetor in vitro de géis à base de extrato de Cranberry e Proantocianidina em diferentes concentrações, aplicados sobre a dentina posteriormente submetida à erosão. Para tal, 150 espécimes de dentina bovina (4 x 4 mm) foram confeccionados e igualmente divididos em 10 grupos: G1- gel de clorexidina a 0,012%; G2- gel placebo; G3- gel a base de extrato de Cranberry a 0,05%; G4- gel a base de extrato de Cranberry a 1%; G5- gel a base de extrato de Cranberry a 5%; G6- gel a base de extrato de Cranberry a 10%; G7- gel a base de Proantocianidina 0,05%; G8- gel a base de Proantocianidina 1%, G9- gel a base de Proantocianidina 5%; G10- gel a base de Proantocianidina 10%. Os diferentes géis foram aplicados uma única vez sobre os espécimes antes do primeiro desafio erosivo durante 5 minutos. Em seguida, os espécimes foram submetidos a 3 ciclagens erosivas seguidas (imersão em bebida à base de Cola por 5 minutos seguido de imersão em saliva artificial por 3 horas) por dia, durante 5 dias. Após as 3 cilclagens erosivas diárias, os espécimes foram mantidos em saliva artificial por 15 horas. A perfilometria foi utilizada para quantificar o desgaste dentinário (μm). Os dados foram analisados pelo teste ANOVA seguido do teste de Fisher (p<0,05). Os resultados (G1: 15,6 ± 2,4b; G2: 23,1 ± 1,4e; G3: 15,1 ± 2,3b; G4: 20,4 ± 1,9cd; G5: 19,0 ± 2,1ac; G6: 18,7 ± 1,4a; G7: 18,2 ± 1,6a; G8: 21,1 ± 1,2d; G9: 19,2 ± 2,6ac; G10: 15,2 ± 2,5b) mostraram que o gel de Cranberry a 0,05% (G3) e gel de Proantocianidina 10% (G10) apresentaram eficácia estatisticamente significante na redução da erosão dentinária em comparação aos outros grupos analisados...

Considering that Proanthocyanidin and other Cranberrys components might inhibit dentin metalloproteinases exposed to erosive agents and it can prevent dental wear, the aim of this in vitro study was to evaluate the effect of Cranberry and Proanthocyanidin gels used in different concentrations on dentin before an erosive challenge. For this purpose, 150 bovine root dentin blocks (4x4mm) were treated by different gels and randomly divided into 10 groups: G1- 0.012% Chlorhexidine Gel (positive control), G2- Placebo gel with no active principle (negative control), G3- 0.05% Cranberry gel, G4- 1% Cranberry gel, G5- 5% Cranberry gel, G6- 10% Cranberry gel, G7- 0.05% Proanthocyanidin gel, G8- 1% Proanthocyanidin gel, G9- 5% Proanthocyanidin gel and G10- 10% Proanthocyanidin gel. The gels were applied over specimens once before the first erosive challenge for 5 minutes. After that, the blocks were subjected to 3 sequential erosive cycles (cola drink for 5 minutes and artificial saliva for 3 hours, each) per day, during 5 days. After 3 daily erosive cycles, the blocks were maintained in artificial saliva for 15 h. Profilometry was used to quantify the dentin wear (μm). Data were analyzed by ANOVA and Fisher's test (p<0.05). Results (G1: 15,6 ± 2,4b; G2: 23,1 ± 1,4e; G3: 15,1 ± 2,3b; G4: 20,4 ± 1,9cd; G5: 19,0 ± 2,1ac; G6: 18,7 ± 1,4a; G7: 18,2 ± 1,6a; G8: 21,1 ± 1,2d; G9: 19,2 ± 2,6ac; G10: 15,2 ± 2,5b) showed that 0.05% Cranberry gel (G3) and 10% Proanthocyanidin gel (G10) presented similar results when compared to positive control group (G1), and these three groups showed statistically lowest wear when compared to all other evaluated groups. The results of this study suggest a significant efficacy of Cranberry and Proanthocyanidin gels in preventing wear of dentin subjected to dental erosion in vitro...

Efeitos comparativos de diferentes géis à base de cranberry e proantocianidina sobre a dentina submetida à erosão: estudo in vitro / In vitro effect of Cranberry and proanthocyanidin on dentin erosion

Considerando que a Proantocianidina e outros componentes do Cranberry possam inibir as metaloproteinases da dentina quando esta é exposta a ação de agentes erosivos e tal fato pode minimizar o desgaste dentinário, o presente trabalho tem como objetivo avaliar o efeito protetor in vitro de géis à base de extrato de Cranberry e Proantocianidina em diferentes concentrações, aplicados sobre a dentina posteriormente submetida à erosão. Para tal, 150 espécimes de dentina bovina (4 x 4 mm) foram confeccionados e igualmente divididos em 10 grupos: G1- gel de clorexidina a 0,012%; G2- gel placebo; G3- gel a base de extrato de Cranberry a 0,05%; G4- gel a base de extrato de Cranberry a 1%; G5- gel a base de extrato de Cranberry a 5%; G6- gel a base de extrato de Cranberry a 10%; G7- gel a base de Proantocianidina 0,05%; G8- gel a base de Proantocianidina 1%, G9- gel a base de Proantocianidina 5%; G10- gel a base de Proantocianidina 10%. Os diferentes géis foram aplicados uma única vez sobre os espécimes antes do primeiro desafio erosivo durante 5 minutos. Em seguida, os espécimes foram submetidos a 3 ciclagens erosivas seguidas (imersão em bebida à base de Cola por 5 minutos seguido de imersão em saliva artificial por 3 horas) por dia, durante 5 dias. Após as 3 cilclagens erosivas diárias, os espécimes foram mantidos em saliva artificial por 15 horas. A perfilometria foi utilizada para quantificar o desgaste dentinário (μm). Os dados foram analisados pelo teste ANOVA seguido do teste de Fisher (p<0,05). Os resultados (G1: 15,6 ± 2,4b; G2: 23,1 ± 1,4e; G3: 15,1 ± 2,3b; G4: 20,4 ± 1,9cd; G5: 19,0 ± 2,1ac; G6: 18,7 ± 1,4a; G7: 18,2 ± 1,6a; G8: 21,1 ± 1,2d; G9: 19,2 ± 2,6ac; G10: 15,2 ± 2,5b) mostraram que o gel de Cranberry a 0,05% (G3) e gel de Proantocianidina 10% (G10) apresentaram eficácia estatisticamente significante na redução da erosão dentinária em comparação aos outros grupos analisados.

Considering that Proanthocyanidin and other Cranberrys components might inhibit dentin metalloproteinases exposed to erosive agents and it can prevent dental wear, the aim of this in vitro study was to evaluate the effect of Cranberry and Proanthocyanidin gels used in different concentrations on dentin before an erosive challenge. For this purpose, 150 bovine root dentin blocks (4x4mm) were treated by different gels and randomly divided into 10 groups: G1- 0.012% Chlorhexidine Gel (positive control), G2- Placebo gel with no active principle (negative control), G3- 0.05% Cranberry gel, G4- 1% Cranberry gel, G5- 5% Cranberry gel, G6- 10% Cranberry gel, G7- 0.05% Proanthocyanidin gel, G8- 1% Proanthocyanidin gel, G9- 5% Proanthocyanidin gel and G10- 10% Proanthocyanidin gel. The gels were applied over specimens once before the first erosive challenge for 5 minutes. After that, the blocks were subjected to 3 sequential erosive cycles (cola drink for 5 minutes and artificial saliva for 3 hours, each) per day, during 5 days. After 3 daily erosive cycles, the blocks were maintained in artificial saliva for 15 h. Profilometry was used to quantify the dentin wear (μm). Data were analyzed by ANOVA and Fisher's test (p<0.05). Results (G1: 15,6 ± 2,4b; G2: 23,1 ± 1,4e; G3: 15,1 ± 2,3b; G4: 20,4 ± 1,9cd; G5: 19,0 ± 2,1ac; G6: 18,7 ± 1,4a; G7: 18,2 ± 1,6a; G8: 21,1 ± 1,2d; G9: 19,2 ± 2,6ac; G10: 15,2 ± 2,5b) showed that 0.05% Cranberry gel (G3) and 10% Proanthocyanidin gel (G10) presented similar results when compared to positive control group (G1), and these three groups showed statistically lowest wear when compared to all other evaluated groups. The results of this study suggest a significant efficacy of Cranberry and Proanthocyanidin gels in preventing wear of dentin subjected to dental erosion in vitro.