Effect of S. mutans biofilm on the hybrid ceramic-resin cement bond strength assessed by different methods

Aim: The purpose of this study was to investigate the biofilm effect on the hybrid ceramic-resin cement bond strength (BS) by comparing two methods. Methods: Teeth were distributed into groups (n=5), according to the resin cement (Maxcem Elite-(MC) or NX3 Nexus-(NX)) and degradation method (24h or 7 days in distilled water; 7 or 30 days incubated with biofilm and 30 days in sterile media). Treated surfaces of Vita Enamic blocks (5x6x7mm) were luted to treated or no treated dentin surfaces and light-cured. After 24h, beams were obtained (1x1x10mm) and stored accordingly. The flexural bond strength (FBS) was assessed by four-point bending test. Additional beams were obtained from new teeth (n=5), stored for 24h or 7 days in distilled water, and submitted to a microtensile bond strength (µTBS) assay. Failure modes were determined by scanning electron microscopy (100X). The flexure strength of the cements (n=10) was assessed by a four-point bending test. Data were analyzed by 1 and 2-ways ANOVA, and Tukey's test (α=0.05). Results: There was no significant difference between the degradation methods for the FBS groups. For the µTBS, the significant difference was as follows: NX 7days > NX 24h > MC 7days = MC 24h. Failure mode was mainly adhesive and mixed, but with an increase of cohesive within cement and pre-failures for the MC groups assessed by µTBS. NX had better performance than MC, regardless of the method. Conclusions: The biofilm had no effect on the materials BS and FBS test was a useful method to evaluate BS of materials with poor performance

Surface deterioration of indirect restorative materials

Abstract The objective of this work was to evaluate the effects of in vitro and in situ biodegradation on the surface characteristics of two resin cements and a hybrid ceramic system. One hundred and eighty specimens (4X1.5mm) of each material (Maxcem Elite, NX3 Nexus and Vita Enamic) were made and randomly distributed in twelve groups (n=15) according to the material and biodegradation method. The specimens were then submitted to the following challenges: storage in distilled water 37 ºC for 24 h or 7 days, storage for 7 days, at 37 ºC, in stimulated saliva or in situ. The in situ stage corresponded to the preparation of 15 intraoral palatal devices, used for 7 days. Each device presented 3 niches, where a sample of each materials was accommodated. Specimens from both saliva and in situ groups suffered a cariogenic challenge, corresponding to the application of a solution of 20% of sucrose, 10 times throughout each day. After each biodegradation method, the surface roughness (Ra), Vickers hardness (VHN) and scanning electron microscopy (SEM) analyzes were performed. The data collected were evaluated by Levene test, two-way ANOVA and Tukey`s test (α=5%). The in situ challenge promoted the greater biodegradation, regardless of the material. Regarding the materials, the Vita Enamic VHN was negatively affected by all biodegradation methods and the Nexus NX3 presented better performance than the self-adhesive cement tested. Therefore, within the conditions of this work, it was concluded that in situ biodegradation can affect negatively the surface characteristics of indirect restorative materials.

Resumo O objetivo deste trabalho foi avaliar os efeitos da biodegradação in vitro e in situ nas características superficiais de dois cimentos resinosos e de um sistema cerâmico híbrido. Cento e oitenta espécimes (4X1,5mm) de cada material (Maxcem Elite, NX3 Nexus e Vita Enamic) foram distribuídos aleatoriamente em doze grupos (n=15) de acordo com o material e o método de biodegradação. Os espécimes foram então submetidos aos seguintes desafios: armazenamento em água destilada 37ºC por 24 horas ou 7 dias, armazenamento por 7 dias, a 37ºC, em saliva estimulada ou in situ. O estágio in situ correspondeu à preparação de 15 dispositivos intra-orais palatinos, utilizados por 7 dias. Cada dispositivo apresentou 3 nichos, onde uma amostra de cada material foi acomodada. As amostras dos grupos saliva e in situ sofreram um desafio cariogênico, correspondendo à aplicação de uma solução de 20% de sacarose, 10 vezes ao longo de cada dia. Após cada método de biodegradação, foram realizadas as análises de rugosidade superficial (Ra), dureza Vickers (VHN) e microscopia eletrônica de varredura (MEV). Os dados coletados foram analisados por meio do teste de Levene, ANOVA two-way e teste de Tukey (α=5%). O desafio in situ promoveu maior degradação, independentemente do material. Em relação aos materiais, a VHN do Vita Enamic foi afetada negativamente por todos os métodos de degradação e o Nexus NX3 apresentou melhor desempenho que o cimento autoadesivo testado. Portanto, dentro das condições deste trabalho, concluiu-se que a biodegradação in situ pode afetar negativamente as características superficiais de materiais restauradores indiretos.

Physical properties of two bis-acryl interim materials: color stability, flexural strength and shear bond strength to flowable composite resin as add-on material

Aims: The objective of this study was to evaluate the mechanical properties of two bis-acryl interim resin materials, such as color stability, flexural strength and shear bond strength to flowable composite resin, simulating clinical situations when this material has to be used for repair as add-on. Two shades of two bis-acryl interim resin materials [Structur 2 SC (shades Bleach and A2); Protemp 4 (shades A1 and A2)] were evaluated. Discs (5 x 1 mm) were fabricated and baseline color was determined after 1 h. Ten specimens were immersed at 37oC in solutions of distilled water (control) and cola-based soft drink (Coca-Cola). Color measurements were performed with a spectrophotometer using CIELab parameters. Color readings were again measured after 2 hours, 4 hours, 24 hours and 7 days. Flexural strength was determined using the three-point bending test (10 x 1 x 2 mm) on a universal testing machine (0.5 mm/min) (n = 10). Discs of bis-acryl resin were embedded in acrylic resin, planned and distributed in 2 groups: G1 - Filtek Z350 Flow/Protemp4 and G2 - Grandio SO Flow/Structure 3 (n = 15). Cylinders (3.5 x 2 mm) were made with the flowable composite resins and polymerized for 20 s. The specimens were stored in distilled water at 37oC for 24 h and subjected to shear bond strength test. Data were analyzed using one-way ANOVA and Tukey's test (α = 0.05). ΔE values were higher for Structur Bleach (3.08)a compared with Protemp 4 (shade A1, 2.22)b (shade A2, 2.25)b. There were no significant differences between Structur Bleach and Structur A2 (2.62)ab. Coca-Cola presented higher ΔE values (3.08)a than (2.00)b. Regarding time, ΔE values increased from 1.84a after 2 h to 2.31b after 4 h. The higher values were observed after 24 h and 7 days (2.93c and 3.09d, respectively). No significant differences were observed for the flexural strength of Structur (22.05 MPa)a and Protemp 4 (19.01 MPa)a. The repairs executed with Structur/Grandio flow (9.21 MPa)a were similar to those performed with Protemp 4/Z350XT flow (10.71 MPa)a. It can be concluded that the two bis-acyl resins evaluated showed similar physical and mechanical properties (AU)

Effect of Sonic Vibrations on Bond Strength of Fiberglass Posts Bonded to Root Dentin

Abstract Sonic vibrations may improve the bond strength and durability of fiberglass posts by improving adhesive penetration into dentin as well as the cement flow. The objective of this study was to evaluate the effect of sonic vibrations on the bond strength between fiberglass posts and root dentin using the pull-out test. Bovine roots were endodontically treated and divided randomly into four groups (n=12): Group C - conventional cementation (control); Group SA - sonic vibration (Smart Sonic Device, FGM) of the adhesive system and conventional post accommodation; SP group - conventional adhesive application and sonic vibration of the post during accommodation; and SASP - sonic vibration of the system adhesive and the post during accommodation. The posts were cleaned, treated with a silane and adhesive system (Ambar, FGM), and cemented with a dual-cured resin cement (Allcem Core, FGM). After 24 h, the specimens were subjected to mechanical tests and failure analyses. Representative specimens were analyzed by a scanning electron microscope to observe the cementation line. The results were analyzed using ANOVA and Tukey's test (a=5%). The bond strengths were as follows: SASP (90.9±27.1 N), C (121.4±60.6 N), SA (127.6±31.8 N) and SP (156.4±41.3 N). The use of sonic vibrations during the application of adhesive or post cementation separately did not affect the bond strength but had a negative effect when used for both procedures.

Resumo Vibrações sônicas podem melhorar a resistência e a durabilidade da união de pinos de fibra de vidro, melhorando a penetração do sistema adesivo à dentina, bem como o escoamento do cimento. O objetivo deste estudo foi avaliar o efeito da vibração sônica na resistência de união de pinos de fibra de vidro à dentina radicular, através de ensaio pull out. Raízes bovinas tratadas endodonticamente foram preparadas e divididas aleatoriamente em quatro grupos (n=12): Grupo C - cimentação convencional, (controle); Group SA - vibração sônica (Smart Sonic Device(r), FGM) do sistema adesivo e assentamento convencional do pino; grupo SP - aplicação convencional do sistema adesivo e vibração sônica no assentamento do pino; e SASP - vibração sônica do sistema adesivo e no assentamento do pino. Os retentores foram limpos, tratados com silano e sistema adesivo (Ambar, FGM) e cimentados com cimento resinoso dual (Allcem Core, FGM). Após 24 h as amostras foram submetidas ao teste mecânico e análise de falha. Amostras representativas foram avaliadas sob microscópio eletrônico de varredura, para avaliação da linha de cimentação. Os resultados foram analisados por meio de análise de variância e teste de Tukey (a=5%). Os resultados obtidos foram: SASP (90,9±27,1 N, C (121,4±60,6 N), SA (127,6±31,8 N) e SP (156,4±41,3 N). A vibração sônica para aplicação apenas do sistema adesivo ou pino não afetou a resistência de união, entretanto interferiu negativamente quando utilizada para ambos procedimentos.

Aesthetic management of molar-incisor hypomineralization

Introduction: Molar-incisor hypomineralization (MIH) has been challenging for clinical practice. The term refers to an enamel defect that affects permanent molars and often permanent incisors. This defect may result in high sensibility, coronal destruction of the molars, aesthetic problem when incisors are affected, which can jeopardize the child`s emotional and psychological development. Objective: The aim of this paper is to report two cases in which a conservative approach was adopted using new technologies for direct restorative treatment of incisor with MIH opacities. Case report: Patients aged 11 and 12 years-old attended to the clinics of the School of Dentistry (Sao Paulo State University - Unesp) complaining about the appearance of incisors due to the presence of opacities on the labial surface. The cases were diagnosed as MIH, presenting enamel defects on the permanent molars and incisors. Direct restorations were carried out with minimal removal of the opacities using CVD diamond tip (CVDentus, São José dos Campos, São Paulo, Brazil) coupled to an ultrasonic device (CVDentus, São José dos Campos, São Paulo, Brazil) and direct restorations with composite resin. The result of the restorative treatment was satisfactory in both cases, with children showing immediate satisfaction. Conclusion: The incisors affected by MIH should be treated to improve the child`s self-esteem and avoid negative effects on their psychology development. The aesthetic treatment of the incisors should be conservative, since the replacements of restorations are needed throughout life.