Organo magadiites for diclofenac adsorption: influence of the surfactant chain.

The presence of drugs in aquatic environments has been considered a global challenge and several remediation technologies have been proposed, including adsorption. In this study, new diclofenac adsorbents were obtained from the reaction of sodium magadiite (Na-Mag) with surfactants dodecylpyridinium chloride hydrate (C12pyCl) and hexadecylpyridinium chloride monohydrate (C16pyCl)), 1-hexadecyltrimethylammonium bromide (C16Br), and dodecyltrimethylammonium bromide (C12Br). The synthesis was carried out in the microwave at 50 °C for 5 min using surfactant amounts of 100% and 200% in relation to the cation exchange capacity of Na-Mag. The elemental analysis indicated that surfactants with a longer organic chain were more incorporated into Na-Mag, whose values were 1.42 and 1.32 mmol g-1 for C16pyMag200% and C16Mag200%, respectively. X-ray diffraction results suggested formation of intercalated products with basal space in the range of 2.81-4.00 nm. Diclofenac was quickly adsorbed on all organophilic magadiites, at an equilibrium time of 1 min. Drug capacity adsorption was influenced by the arrangement and packing density of organic cations, the basal distance, and the organic contents of the samples at high drug concentrations. Alkylpyridinium magadiites exhibited maximum adsorption capacities higher than alkylammonium magadiites, of 96.4, 100.7, 131.7, and 166.1 mg g-1 for C12pyMag100%, C12pyMag200%, C16pyMag100%, and C16pyMag200%, respectively, at pH 6.0 and 30 °C. Diclofenac removal by samples was not affected by the presence of ibuprofen, which was also removed from binary system by organophilic magadiites reaching removal of 76.5% and 86.9% by C16pyMag100% and C16pyMag200%, respectively. Regeneration studies demonstrated a drug removal percentage of 83-92% for C16pyMag and C16Mag after three cycles of adsorption.

The optical behavior of pressable lithia-based glass-ceramics under two different heat treatment protocols / O comportamento óptico de vitrocerâmicas prensadas à base de lítio sob dois protocolos diferentes de tratamento térmico

Objective: This study aimed to evaluate the optical behavior of pressable lithia-silicate and lithia-zirconia-silicate glass ceramics toward additional heat treatment protocols. Material and Methods: 40 lithia-silicate discs (15mm x 1mm) were heat pressed following the manufacturers' instructions. Discs were divided into four groups (n=10) according to type as follows: two groups of lithia-silicate-glass ceramics; Gp(E) (IPS e.max Press; Ivoclar Vivadent AG), Gp(L) (GC Initial LiSi Press, GC), two lithia-zirconia-silicate pressable glass ceramics; Gp(C) (Celtra Press, Dentsply Sirona) and Gp(A) (VITA Ambria, VITA Zahnfabrik). Each group was subdivided into (n=5): Subgroup(T1): the thermal tempering temperature was set 9% below the pressing temperature, Subgroup(T2): the temperature was set 5% below the pressing temperature. Optical properties: color, translucency parameter (TP), and contrast ratio (CR) were evaluated by spectrophotometer (Aglient Cary 5000 UV-Vis­NIR) after pressing and after thermal tempering. Results: Thermal tempering regardless of temperature resulted in a color shift within the acceptability level as ΔE for Gp(E) (3.18±2) followed by ΔE for Gp(L) (2.47±0.19) by ΔE for Gp(C) (2.26±0.14) and the last ΔE for Gp(A) (1.62±0.13). Subgroup(T2) showed a significantly higher color shift with mean ΔE(2.55±0.63) compared to Subgroup(T1) ΔE(2.35±0.59). There was a statistically significant increase in TP after tempering for all tested groups parallelled with a decrease in CR values. Conclusion: Heat tempering of the tested lithia-silicate pressable ceramics had a significant effect on the optical outcome of these materials, being lithia-zirconia-silicate ceramics more stable and less affected optically than other lithia-silicate-glass ceramics.(AU)

Objetivo: Avaliar o comportamento óptico de cerâmicas pressionáveis de vidro de litia-silicato e litia-zircônia-silicato sob protocolos adicionais de tratamento térmico. Materiais e métodos: 40 discos de litia-silicato (15mm x 1mm) foram prensados a quente conforme instruções dos fabricantes. Material e Métodos: 40 discos de litia-silicato (15mm x 1mm) foram prensados e divididos em quatro grupos (n=10): dois de lithia-silicato-vidro, Gp(E) (IPS e.max Imprensa) e Gp(L) (GC inicial LiSi Press), e dois de vidro prensado de litia-zircônia-silicato, Gp(C) (Celtra Press) e Gp(A) (VITA Ambria). Cada grupo foi subdividido em (n=5): Subgrupo(T1): amostras temperadas a 9% abaixo da temperatura de prensagem, e Subgrupo(T2): a temperatura foi ajustada 5% abaixo da temperatura de prensagem. As propriedades ópticas, incluindo cor, translucidez (TP) e contraste (CR), foram avaliadas com um espectrofotômetro (Aglient Cary 5000 UV-Vis-NIR) após prensagem e temperagem térmica. Resultados: O tratamento térmico resultou em mudança de cor dentro do nível aceitável, com ΔE mais alto para Gp(E) (3,18±2), seguido por Gp(L) (2,47±0,19), Gp(C) (2,26±0,14), e Gp(A) (1,62±0,13). No subgrupo (T2), houve uma mudança de cor mais significativa, com ΔE médio de (2,55±0,63), comparado ao subgrupo (T1) com ΔE médio de (2,35±0,59). Houve aumento significativo na TP e redução nos valores de RC após o tratamento térmico em todos os grupos testados. Conclusão: O tratamento térmico das cerâmicas prensadas de litia-silicato teve um efeito significativo na sua qualidade ótica, com as cerâmicas de litia-zircônia-silicato mostrando-se mais estáveis e menos afetadas visualmente em comparação com outras cerâmicas de litia-silicato-vidro(AU)

Orthodontic resins loaded with niobium silicate particles: Impact of filler concentration on the physicochemical and biological properties.

OBJECTIVES: White spot lesions (WSL) are prevalent in patients using orthodontic appliances. The presence of ion-releasing compounds in the tooth-appliance interface may limit enamel demineralization to control WSL incidence. Thus, this study aims to evaluate the mineral formation on SiNb-containing experimental orthodontic resins and the influence of these fillers on the physicochemical and biological properties of developed materials. MATERIALS AND METHODS: The SiNb particles were synthesized via the sol-gel route and characterized by their molecular structure and morphology. Photopolymerizable orthodontic resins were produced with a 75 wt% Bis-GMA/25 wt% TEGDMA and 10 wt%, 20 wt%, or 30 wt% addition of SiNb. A control group was formulated without SiNb. These resins were tested for their degree of conversion, softening in solvent, cytotoxicity in fibroblasts, flexural strength, shear bond strength (SBS), and mineral deposition. RESULTS: The addition of 10 wt% of SiNb did not impair the conversion of monomers, cytotoxicity, and flexural strength. All groups with SiNb addition presented similar softening in solvent. The presence of these particles did not affect the bond strength between metallic brackets and enamel, with SBS values ranging from 16.41 to 18.66 MPa. The mineral deposition was observed for all groups. CONCLUSION: The use of niobium silicate as filler particles in resins may be a strategy for the adhesion of orthodontic appliances. The 10 wt% SiNb concentration resulted in a material with suitable physicochemical and biological properties while maintaining the bond strength to tooth enamel and promoting mineral deposition.

Investigation of the effect of indirect pulp capping materials on dentin mineral density

Aim: To evaluate the potential of inducing mineral density changes of indirect pulp capping materials applied to demineralized dentin. Methods: A total of 50 cavities were prepared, 5 in each tooth, in extracted ten molars without caries, impacted or semi-embedded. The cavities were scanned by microcomputed tomography (µ-CT) after creating artificial caries by microcosm method (pre-treatment). Each cavity was subjected to one of 5 different experimental conditions: control (dental wax), conventional glass ionomer cement (Fuji IX GP Extra), resin-modified calcium silicate (TheraCal LC), resin-modified calcium hydroxide (Ultra-Blend Plus), MTA (MM-MTA) and the samples were kept under intrapulpal pressure using simulated body fluid for 45 days. Then, the second µ-CT scan was performed (post-treatment), and the change in dentin mineral density was calculated. Afterward, elemental mapping was performed on the dentinal surfaces adjacent to the pulp capping agents of 5 randomly selected samples using energy dispersive X-ray spectroscopy (EDS) apparatus attached to a scanning electron microscope (SEM). The Ca/P ratio by weight was calculated. Friedman test and Wilcoxon Signed Ranks test were used to analyze the data. Results: There was a significant increase in mineral density values of demineralized dentin after treatment for all material groups (p<0.05). Resin-modified calcium silicate had similar efficacy to MTA and conventional glass ionomer cement, but was superior to resin-modified calcium hydroxide in increasing the mineral density values of demineralized dentin. Conclusions: Demineralized dentin tissue that is still repairable can be effectively preserved using materials with remineralization capability

Response of dental pulp capped with calcium-silicate based material, calcium hydroxide and adhesive resin in rabbit teeth

Direct pulp capping induces a local inflammatory process. Several biomaterials have been used for this procedure. The aim of this study was to compare the dentinal bridge thickness using three different pulp capping biomaterials with the conventional technique (high speed diamond bur) or Er-Yag laser, 1 month after pulp effraction. Materials and Methods: Forty two Class V cavities were prepared on the buccal surface of 4 maxillary incisors and 2 mandibular incisors of New Zealand rabbits. Specimens were divided into 6 treatment groups. Teeth were treated with: In Group 1: Er-Yag laser and Biodentine® (Septodont), in Group 2: Er: Yag laser and calcium hydroxide (Dycal® Dentsply), in Group 3: Er: Yag laser and adhesive system (Prime& Bond® NT Dentsply), in Group 4: high speed diamond bur and Biodentine® (Septodont), in Group 5: high speed diamond bur and calcium hydroxide (Dycal® Dentsply), and in Group 6: high speed diamond bur and adhesive system (Prime& Bond® NT Dentsply). The preparation was done with copious irrigation. The animals were sacrificed at 30 days and the teeth were extracted and prepared for histological analysis. Results: In the group of « laser Er-Yag ¼, iatrogenic pulpal wounds treated with Biodentine® were covered with a thick hard tissue barrier after 1 month. The difference was not significant with the groups of Dycal® used with Er: Yag laser and high speed diamond bur. Prime& Bond® NT Dentsply specimens showed a thin dentinal bridge layer. Conclusion: At 1 month, Er-Yag laser proved to be useful with Biodentine® for direct pulp capping procedures

Chabazite Synthesis and Its Exchange with Ti, Zn, Cu, Ag and Au for Efficient Photocatalytic Degradation of Methylene Blue Dye.

A chabazite-type zeolite was prepared by the hydrothermal method. Before ion exchange, the chabazite was activated with ammonium chloride (NH4Cl). The ion exchange process was carried out at a controlled temperature and constant stirring to obtain ion-exchanged chabazites of Ti4+ chabazite (TiCHA), Zn2+ chabazite (ZnCHA), Cu2+ chabazite (CuCHA), Ag+ chabazite (AgCHA) and Au3+ chabazite (AuCHA). Modified chabazite samples were characterized by X-ray diffraction (XRD), scanning electron microscope equipped with energy-dispersive spectroscopy (SEM-EDS), transmission electron microscopy (TEM), Fourier transform infrared (FTIR), N2 adsorption methods and UV-visible diffuse reflectance spectroscopy (DRS). XRD results revealed that the chabazite structure did not undergo any modification during the exchange treatments. The photocatalytic activity of chabazite samples was evaluated by the degradation of methylene blue (MB) in the presence of H2O2 under ultraviolet (UV) light illumination. The photodegradation results showed a higher degradation efficiency of modified chabazites, compared to the synthesized chabazite. CuCHA showed an efficiency of 98.92% in MB degradation, with a constant of k = 0.0266 min-1 following a first-order kinetic mechanism. Then, it was demonstrated that the modified chabazites could be used for the photodegradation of dyes.

A comparative evaluation of the sealing ability of two calcium silicate based sealers and a resin epoxy-based sealer through scanning electron microscopy and bond strength: an in vitro study

Aim: this study aimed to compare the sealing ability of two types of commercially available calcium silicate bioceramic based root canal sealers and a resin based root canal sealer. Methods: Twenty one single-rooted teeth were used, samples (n= 21) were randomly divided into three groups according to the sealer used (group A; ADSEAL, group B; Wellroot, group C; Ceraseal). Roots were then cleaved longitudinally in the labiolingual direction; all samples were then sectioned at three, six, and nine mm from the root tip. The penetration of sealers into the dentinal tubules was examined at 1000x with a scanning electron microscope. Data were tested for normality using Shapiro Wilk test. ANOVA test was used for analyzing normally distributed data followed by Bonferroni post hoc test for pair-wise comparison. Significance level p≤0.001. Results: groups B and C showed better sealing ability than group A in all the three sections. The coronal section showed higher sealing ability than the middle section followed by the apical section in the three tested groups. Conclusion: it can be concluded that both calcium silicate-based sealers had better sealing ability and higher bond strength than the resin epoxy- based sealer

Clay-Based Polymer Nanocomposites: Essential Work of Fracture.

This work details the general structure of the clays used as a reinforcement phase in polymer nanocomposites. Clays are formed by the molecular arrangement of atomic planes described through diagrams to improve their visualization. The molecular knowledge of clays can facilitate the selection of the polymer matrix and achieve a suitable process to obtain clay-based polymer nanocomposite systems. This work highlights the development of polymer nanocomposites using the melt intercalation method. The essential work of fracture (EWF) technique has been used to characterize the fracture behavior of materials that show ductility and where complete yielding of the ligament region occurs before the crack propagation. In this sense, the EWF technique characterizes the post-yielding fracture mechanics, determining two parameters: the specific essential work of fracture (we), related to the surface where the actual fracture process occurs, and the specific non-essential work of fracture (wp), related to the plastic work carried out in the outer zone of the fracture zone. The EWF technique has been used successfully in nano-reinforced polymers to study the influence of different variables on fracture behavior. In this work, the fundamentals of the EWF technique are described, and some examples of its application are compiled, presenting a summary of the most relevant contributions in recent years.

Effect of the addition of nanoparticles of CaCO3 and different water-to-powder ratios on the physicochemical properties of white Portland cement.

The addition of calcium carbonate nanoparticles (nano-CaCO3 ) accelerates the hydration of Portland cement improving its mechanical properties. Conversely, nano-CaCO3 addition leads to reduction in the water required during initial PC hydration. Therefore, the use of a correct water-to-powder ratio is fundamental for manipulating this hydraulic cement. This study evaluated the effect of nano-CaCO3 addition and different water-to-powder ratios on the physicochemical properties of white Portland cement (WPC). WPC was associated to different concentrations of nano-CaCO3 , and the following experimental groups were created: G1a (no nano-CaCO3 ); G2a (0.5% nano-CaCO3 ), G3a (1% nano-CaCO3 ), G4a (2% nano-CaCO3 ), and G5a (5% nano-CaCO3 ). The setting-time (ST), compressive strength (CS), dimensional change (DC), solubility (S), and pH were assessed (24 hr and 30 days). Next, WPC + 5% nano-CaCO3 was manipulated varying the water-to-powder ratio: G1b (WPC/0.33 ml); G2b (WPC/nano-CaCO3 /0.33 ml); G3b (WPC/0.29 ml); G4b (WPC/nano-CaCO3 /0.29 ml); G5b (WPC/0.26 ml); and G6b (WPC/nano-CaCO3 /0.26 ml). The tests were repeated. The data analysis (2-way ANOVA and Tukey test, α = 5%) demonstrated that ST was shorter for samples containing nano-CaCO3 (p < .05). Reduction in CS was observed for all groups at 30 days, except G5a, G2b, and G6b (p < .05). DC and S had no statistical difference among groups (p > .05) independently of nano-CaCO3 water-to-powder ratio. After 30 days, there was significant reduction in pH for G3a and G6b (p < .05). The different concentrations of nano-CaCO3 and water-to-powder ratios affected the physicochemical properties of WPC, especially the setting-time and compressive strength.

Resistencia a la compresión de Biodentine®: mezcla manual vs. Mecánica / Compressive strength of Biodentine®: mechanical vs. manual mix

INTRODUCCIÓN: La incorporación de innovaciones tecnológicas en determinados materiales dentales, especialmente aquellos que requieren de aparatología específica para su uso y/o cuya pre-dosificación implica el descarte de una porción de su contenido, está condicionada por la relación costo-beneficio del producto. Según las instrucciones del fabricante, las cápsulas del silicato tricálcico Biodentine® (Septodont) deben activarse mediante el uso de mezcladores mecánicos luego de adicionar las proporciones exactas del líquido ad-hoc, utilizando la totalidad de cada cápsula de polvo y su respectiva ampolla del líquido, con un excedente de material considerable, según su indicación. Si bien es posible realizar la mezcla del cemento en forma manual prescindiendo de un amalgamador, una modificación en las recomendaciones del fabricante podría alterar las propiedades del material. OBJETIVO: Determinar si existen diferencias en la resistencia compresiva de Biodentine® según el método de mezcla utilizado: con activación mecánica y con mezcla manual. MATERIALES Y METODOS: Se confeccionaron probetas cilíndricas de 6 mm de alto por 4 mm de diámetro (n=6) para los dos grupos de estudio A) Biodentine® / Mezcla manual y B) Biodentine® / Mezcla mecánica. Las muestras fueron sometidas a la aplicación de una fuerza continua en máquina universal de ensayos Digimess RS-8000-5 a una velocidad de carrera de 1 mm/min hasta su ruptura. Se compararon los valores obtenidos entre los grupos mediante test de Student, determinando diferencias significativas para valores de p>0,05. RESULTADOS: Los valores medios obtenidos y su desviación estándar fueron A) 52.6 (16.3) MPa y B) 65.7 (30.6) MPa respectivamente. La distribución de valores de resistencia a la compresión según el grupo de estudio fue levemente superior en el grupo B, aunque las diferencias no fueron significativas (p=3,77). CONCLUSIONES: La mezcla manual no disminuye significativamente la resistencia a la compresión de Biodentine® en comparación al cemento mezclado mecánicamente.

INTRODUCTION: Economic circumstances may create difficulties in access to certain dental materials, especially those that a part of their content has to be disposed after mixing. According to the manufacturers´ instructions, capsules of tri-calcium silicate Biodentine® (Septodont) ought to be activated using a mechanical mixer after addition of the liquid accordingly. The whole content of a capsule is then used before the setting of the material. Aim: To compare the effect of the mixing mode on the compressive strength of Biodentine®, mixed manually and using a mechanical mixer. OBJECTIVE: To compare the effect of the mixing mode on the compressive strength of Biodentine®, mixed manually and using a mechanical mixer. MATERIALS AND METHODS Two groups were defined, A) Biodentine® / Manual mix and B) Biodentine® / Mechanical mix, with n = 6 cylindric specimens each of 6 mm height and 4 mm diameter. Samples were tested using a universal testing machine Digimess RS-8000-5 at a crosshead speed of 1 mm/min until fracture. Obtained values were compared using the Student-t test with a significance of p>0,05. RESULTS: Mean values were A) 52.6 (16.3) MPa and B) 65.7 (30.6) MPa respectively, finding no significant differences between the two groups (p=3,77). CONCLUSION: Compressive strength is not affected in Biodentine® when mixed manually compared to mechanical mixing.

Reparación Ósea en Alvéolos de Ratas Ovariectomizadas con Biosilicato Cristalizado. Análisis Histomorfométrico / Alveolar Bone Repair in Ovarictomized Rats with Crystallized Biosilicate. Histomorphometric Analysis

RESUMEN: Evaluar el proceso de reparación alveolar en ratas sometidas a cirugía de simulacro u ovariectomizadas tras el relleno alveolar con coágulo o con biosilicato cristalino. Sesenta ratas Wistar fueron divididas en cuatro grupos (n=15) de acuerdo con el tratamiento: Grupo 1- ratas sometidas a cirugía de simulacro con alveolos rellenados con coágulo; Grupo 2- ratas sometidas a cirugía de simulacro con alveolos rellenados con biosilicato cristalino; Grupo 3- ratas ovariectomizadas con alveolos rellenados con coágulo; Grupo 4- ratas ovariectomizadas con alveolos rellenados con biosilicato cristalino. Después de 7, 14 y 28 días, los animales fueron sacrificados, se tomaron muestras óseas que fueron teñidas con hematoxilina-eosina y analizadas al microscopio para realizar un análisis histomorfométricos. Los mayores porcentajes de formación de hueso se presentaron en los grupos 1 (32 % a los 7 días, 46 % a los 14 días y 83.5 % a los 28 días) y 4 (27,1 % a los 7 días, 41,1 % a los 14 días y 79,7 % a los 28 días). En los alveolos rellenados con coágulo, las ratas sometidas a cirugía de simulacro mostraron los mejores resultados, mientras que, en los alveolos rellenados con biosilicato, las ratas ovariectomizadas tenían porcentajes significativamente mayores. En este estudio, el biosilicato cristalino se comportó como un biomaterial adecuado para la reparación ósea, favoreciendo la osteoconducción.

ABSTRACT: The objective of this study was to assess the process of alveolar bone repair in rats subjected to sham surgery or ovariectomized rats, after alveolar filling with clot or with crystalline biosilicate. Sixty Wistar rats were divided into four groups (n = 15) according to the treatment: Group 1 - rats subjected to sham surgery with sockets filled with clot; Group 2- rats submitted to sham surgery with sockets filled with crystalline biosilicate; Group 3 ovariectomized rats with sockets filled with clot; Group 4 ovariectomized rats with sockets filled with crystalline biosilicate. After 7, 14 and 28 days, the animals were sacrificed, bone samples were taken, stained with hematoxylin-eosin and analyzed under a microscope to perform a histomorphometric analysis. The highest percentages of bone formation were presented in groups 1 (32 % at 7 days, 46 % at 14 days and 83.5 % at 28 days) and 4 (27.1 % at 7 days, 41.1 % at 14 days and 79.7 % after 28 days). In the sockets filled with clot, the rats subjected to sham surgery showed the best results, while in the sockets filled with biosilicate, the ovariectomized rats had significantly higher percentages. In this study, the crystalline biosilicate behaved as an adequate biomaterial for bone repair, favoring osteoconduction.

Evaluation of the dislodgement resistance of bioceramic reparative cements placed in a retrograde cavity using a different technique

Aim: Calcium silicate-based fillings have been widely used in surgical endodontic treatment because of hard-tissue conductive and inductive properties. The aim of present study is to investigate the bond strength of different calcium silicate-based fillings in retrograde cavities. Methods: Forty-four maxillary single rooted teeth were endodontically treated. The apical portions of the teeth were removed and root-end cavities were prepared using an ultrasonic tip. The roots were randomly divided into four experimental groups (n = 11) according to the material used; (1) MTA-FILLAPEX, (2) MTA Repair HP, (3) MTA-FILLAPEX+ MTA Repair HP, and (4) MTA Plus. Two horizontal cross sections (1±0.1 mm thick) from each specimen were resected from the apices. These sections were placed in a universal testing machine to evaluate the push-out bond strength force required for dislodgement of the root end filling was recorded. The failure type was also evaluated by using a stereomicroscope. The differences in bond strength were analyzed using the two-way analysis of variance (ANOVA). Results: MTA-FILLAPEX and MTA Plus displayed the lowest and highest dislocation resistance, respectively (P < 0.05). In the apical level, bond strength was significantly higher than the coronal level in all groups except for MTA-FILLAPEX. Mixed failure was prevalent in all groups, except for MTA-FILLAPEX, which showed purely cohesive failures. Conclusions: Investigated calcium silicate-based filling materials showed different bond strength to the root-end cavity. The bond strength was significantly decreased when the prior application of MTA-FILLAPEX before delivery of MTA Repair HP

Cerámicas: una actualización / Ceramics: an update / Cerâmica: uma atualização

Las cerámicas dentales utilizadas para restaurar y reemplazar tejido dental perdido de los dientes o las piezas dentales mismas, han sufrido una enorme transformación desde que aparecieron las primeras porcelanas hace ya varias décadas. Con las feldespáticas se podían hacer dientes, coronas y puentes pero, necesitaban un soporte de metal para que no sufran fracturas con los esfuerzos masticatorios, y por ello no tenían una apa-riencia vital. Hoy en día, han aparecido muchas otras cerámicas con diferentes y mejoradas características mecánicas y ópticas, lo que ha permitido que los odontólogos puedan por primera vez ofrecer a sus pacientes dientes artificiales con sorprendente naturalidad. Objetivo: Describir la clasificación actual, las características mecánicas y ópticas, así como la microestructura y los usos clínicos de las diferentes cerámicas dentales utilizadas hoy en día. Materiales y métodos: Revisión de la literatura acerca del tema, en tres de los más importantes buscadores de internet (Pubmed,Cochrane,Web of Science). Limitando su busca a artículos en inglés y publicados en los journals de investigación de materiales dentales con calificación Q1 y Q2. Resul-tados: Se revisaron 69 artículos publicados entre 1975 y 2019 los cuales aportaron una fuente interesante de información que permitió desarrollar el conocimiento acerca de la clasificación, microestructura, propiedades mecánicas y ópticas, usos clínicos y forma de procesamiento de las cerámicas. Conclusiones: Actualmente los odontólogos tienen a disposición una amplia variedad de materiales cerámicos con diferentes composicio-nes y características únicas que son necesarias conocer al momento de escoger la cerámica específica para cada necesidad de los pacientes.

The dental ceramics used to restore and replace lost tooth tissue or the teeth have undergone a huge trans-formation since the first porcelains appeared several decades ago. With the feldspathic teeth, crowns and bridges could be made but, they needed a metal support so that they did not suffer fractures with the mastica-tory efforts, and therefore they did not have a vital appearance. Today, many other ceramics with different and improved mechanical and optical characteristics have appeared, which has allowed dentists to offer artificial teeth to their patients for the first time with surprising naturalness. Objective: Describe the current classifica-tion, mechanical and optical characteristics, as well as the microstructure and clinical uses of the different dental ceramics used today. Materials and methods: Review about the literature on the subject, in three of the most important internet search engines (Pubmed, Cochrane, Web of Science). Limiting your search to articles in English and published in the journals of research of dental materials with qualification Q1 and Q2. Results:69 articles published between 1975 and 2019 were reviewed, which provided an interesting source of informa-tion that allowed the development of knowledge about classification, microstructure, mechanical and optical properties, clinical uses and method of processing ceramics. Conclusions: Currently, dentists have available a wide variety of ceramic materials with different compositions and unique characteristics that are necessary to know when choosing the specific ceramic for each patient need.

A cerâmica dentária usada para restaurar e substituir o tecido dentário perdido ou as próprias peças dentárias sofreram uma enorme transformação desde que as primeiras porcelanas surgiram várias décadas atrás. Com os materiais feldespáticos, podiam ser feitas coroas e pontes, mas eles precisavam de um suporte de metal para não sofrer fraturas com os esforços mastigatórios e, portanto, não tinham uma aparência de vitalidade. Hoje, outras cerâmicas com características mecânicas e ópticas diferentes e aprimoradas surgiram, o que permitiu aos dentistas oferecer dentes artificiais a seus pacientes pela primeira vez com uma naturalidade surpreendente. Objetivo: Descrever a classificação atual, características mecânicas e ópticas, bem como a microestrutura e os usos clínicos das diferentes cerâmicas odontológicas utilizadas atualmente. Materiais e métodos: Revisão da literatura sobre o assunto, em três dos mais importantes mecanismos de busca na In-ternet (Pubmed, Cochrane, Web of Science). Limitando a sua pesquisa a artigos em inglês e publicados nas revistas científicas de materiais dentários com qualificação Q1 e Q2. Resultados: Foram revisados 69 artigos publicados entre 1975 e 2019, que forneceram uma fonte interessante de informações que permitiram desen-volver conhecimento sobre a classificação, microestrutura, propriedades mecânicas e ópticas, usos clínicos e forma de processamento da cerâmica. Conclusões: Atualmente, os dentistas têm disponível uma ampla variedade de materiais cerâmicos com composição diferente e características únicas que são necessárias conhecer ao escolher a cerâmica específica para cada necessidade do paciente.

Dynamic Modeling of Silicon Bioavailability, Uptake, Transport, and Accumulation: Applicability in Improving the Nutritional Quality of Tomato.

Silicon is an essential nutrient for humans, additionally is beneficial for terrestrial plants. In plants Si enhances tolerance to different types of stress; in humans, it improves the metabolism and increases the strength of skeletal and connective tissues as well as of the immune system. Most of the Si intake of humans come from edible plants creating a double benefit: first, because the absorption of Si increases the antioxidants and other phytochemicals in plants, thereby increasing its functional value, and second because the higher concentration of Si in plants increases intake in human consumers. Therefore, it is desirable to raise the availability of Si in the human diet through the agronomic management of Si accumulator species, such as corn, wheat, rice, soybeans, and beans. But also in such species as tomatoes, carrots, and other vegetables, whose per capita consumption has increased. However, there are few systematized recommendations for the application and management of Si fertilizers based on the physicochemical factors that determine their availability, absorption, transport, and deposition in cells and tissues. This study presents updated information about edaphic and plant factors, which determine the absorption, transport, and deposition rates in edible organs. The information was integrated into an estimated dynamic model that approximates the processes previously mentioned in a model that represents a tomato crop in soil and soilless conditions. In the model, on the other hand, was integrated the available information about key environmental factors related to Si absorption and mobilization, such as the temperature, pH, and soil organic matter. The output data of the model were compared against information collected in the literature, finding an adequate adjustment. The use of the model for educational or technical purposes, including the possibility of extending it to other horticultural crops, can increase the understanding of the agronomic management of Si in plants.

Mineral density in carious dentine after treatment with calcium silicates and polyacrylic acid-based cements.

AIM: To test the hypothesis that polyacrylic acid-based and calcium silicate materials are able to increase mineral density of artificially demineralized dentine produced by a microcosm model for caries formation. METHODOLOGY: Forty-five dentine cavities were prepared in nine sound human third molars (five in each tooth). Specimens received a bacterial inoculum and were incubated in BHI plus 5% of sucrose for 96 h to allow biofilm formation. After that, the specimens were scanned in a high energy micro-CT (baseline stack) and then, each cavity was filled with different cements: zinc polycarboxylate (Poly Zinc™, Prevest DenPro, Jammu, India), conventional glass-ionomer (Ketac Molar, 3M ESPE, Seefeld, Germany) and two calcium silicate-based materials (MTA, Angelus, Londrina, Brazil and Biodentine™, Septodont, Saint Maur des Fosses, France) whilst the central cavity was filled with utility wax (negative control). Specimens were kept for 45 days under simulated intrapulpal pressure using simulated body fluid and after, they were again scanned (treated stacks). Reconstruction of the acquired projections was accomplished using standardized parameters, and the percentage mineral density change was calculated around each cavity. Data were tested for normality using the Shapiro-Wilk test, followed by nonparametric methods. RESULTS: A microcosm artificial caries model was able to cause dentine demineralization (±90% related to sound dentine). Significant increases in dentine mineral density were achieved using MTA or Poly Zinc™ (43.56% and 41.64% remineralization), followed by Biodentine™ (36.40%) and Ketac Molar (32.54%), P < 0.05. CONCLUSION: All cements increased mineral density in demineralized dentine, but zinc polycarboxylate cement and MTA had greater bioactive potential. Micro-CT proved to be an effective method to evaluate changes in mineral density within dentine in contact with bioactive materials.

Stabilizing effect of montmorillonite on acerola juice anthocyanins.

This study was conducted to evaluate color and anthocyanin stability of clarified acerola juice (CAJ) as affected by montmorillonite (Mnt) at different concentrations (0-6 wt%, dry basis). While non-complexed CAJ suffered noticeable color degradation with time and pH variations, the presence of Mnt (especially at 4-6 wt%) not only changed the initial color of CAJ but also made it more stable with time and pH changes. CAJ/Mnt mixtures were ultracentrifuged in order to separate them into supernatants and anthocyanin-complexed Mnt precipitates. The supernatants presented decreasing anthocyanin contents with increasing Mnt concentrations, indicating pigment retention by the precipitates. X-ray diffraction of precipitates showed that Mnt interlayer spacing was increased by increasing anthocyanin/Mnt ratios, corroborating anthocyanin intercalation. FTIR revealed a band at 1530 cm-1 ascribed to formation of anthocyanin-Mnt complexes. Moreover, chromatograms indicated the selective adsorption of two compounds by Mnt, which were identified by LC-MS as cyanidin-3-O-rhamnoside and pelargonidin-3-O-rhamnoside.

Development and pharmacological evaluation of in vitro nanocarriers composed of lamellar silicates containing copaiba oil-resin for treatment of endometriosis.

In this work, newly developed nanocomposites based upon lamellar silicates are evaluated to determine their potential in controlling endometriosis. The preparation of the new nanocarriers is detailed, properties characterized and in vitro pharmacological evaluation performed. The nanocomposites in this study were obtained from the reaction of copaiba oil-resin (COPA) with the polymer polyvinylpyrrolidone (PVP K-30). COPA was selected due to its antiinflammatory and anticancer activities along with the organophilic derivatives of sodium montmorillonite, Viscogel B8, S7 and S4. The results indicated that it was feasible to obtain a good yield of a COPA nanocomposite using a simple process. Intercalation was confirmed by X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FTIR), thermogravimetric analysis (TGA) and differential scanning calorimetry (DSC). In vitro release experiments demonstrated that COPA was released from the nanocomposite in a delayed fashion. Whereas, in vitro pharmacological studies showed a reduction in viability and proliferation of endometriotic cell cultures upon COPA nanocomposite treatment, suggesting that the system developed here can be a promising alternative therapy for the oral treatment of endometriosis.

Study of luminescence, color and paramagnetic centers properties of albite.

A sample of natural albite, NaAlSi3O8, from the state of Minas Gerais, Brazil, has been investigated. The mineral is a solid solution of K-feldspar (4600 ppm--K) and Ca-feldspar (1100 ppm--Ca). The TL spectra of natural and the pre-annealed at high temperature albite presented a very intense band around 275 nm and weaker bands around 400 and 560 nm. Other TL properties have been investigated through monochromatic (275 nm and 400 nm) glow curves. The EPR spectrum measured at low temperature (77K) shows the typical 11 lines signal due to Al-O(-)-Al center superposed on Fe(3+) signal around g=2.0. The EPR spectra above 260 K show only g=2.0 signal due to Fe(3+) ions.

Eficiência de escórias de siderurgia na cultura do feijoeiro em sistema de semeadura direta / Efficiency of steel slag in the common bean crop in the no-till system

No sistema de semeadura direta (SSD), a prática da correção da acidez do solo se restringe ao uso do calcário, havendo poucas informações em relação às escórias de siderurgia. O trabalho objetivou avaliar as alterações em propriedades químicas do solo, rendimento e absorção de nutrientes do feijoeiro, em função das formas de aplicação de escórias de siderurgia, comparadas ao calcário, na implantação do sistema de semeadura direta. O experimento foi conduzido na área experimental da Faculdade de Ciências Agronômicas de Botucatu (SP), no período de dezembro de 2010 a maio de 2011. Os tratamentos foram duas formas de aplicação de sete corretivos da acidez do solo: escórias de aciaria, de alto forno, de forno de panela, do aço inox (agrosilício), wollastonita, calcário dolomítico e calcário dolomítico calcinado, além de uma testemunha sem aplicação de corretivo. A dose aplicada de cada corretivo foi calculada para elevar a saturação por bases do solo a 70. A acidez do solo foi neutralizada até a camada de 20cm com os calcários, enquanto a wollastonita e escória de forno de panela atingiram a camada de 10cm; para as escórias de aciaria, alto forno e o agrosilício, o efeito corretivo ficou restrito aos primeiros 5cm. O rendimento do feijoeiro aumentou com a aplicação de corretivos da acidez do solo, sem diferença entre o modo de aplicação.

In the no till system, soil acidity correction practice is restricted to limestone use and there is little information regarding slag. The study aimed to evaluate the amendments in soil chemical properties, yield and bean nutrient uptake according to the application forms of slags, compared to limestone, in the implantation of no till system. The experiment was conducted in the field at College of Agricultural Sciences, Botucatu (SP) from December 2010 to May2011. The treatments consisted of two application ways of seven soil acidity correctives: steel slag, blast furnace slag, ladle furnace slag, stainless steel slag (“agrosilício”), wollastonite, lime and calcined dolomite lime, plus one control without corrective application. Each material dose was calculated to raise the base saturation to 70%. Soil acidity was neutralized down to 20cm with limestones, whereas for wollastonite and ladle furnace slag those effects occurred down to 10cm, for steel slag, blast furnace slag and “agrosilício” the corrective effect was restricted to the first 5cm. The bean yield increased by application of correctives in soil acidity, without differences between the application ways.

Eficiência de escórias de siderurgia na cultura do feijoeiro em sistema de semeadura direta

In the no till system, soil acidity correction practice is restricted to limestone use and there is little information regarding slag. The study aimed to evaluate the amendments in soil chemical properties, yield and bean nutrient uptake according to the application forms of slags, compared to limestone, in the implantation of no till system. The experiment was conducted in the field at College of Agricultural Sciences, Botucatu (SP) from December 2010 to May2011. The treatments consisted of two application ways of seven soil acidity correctives: steel slag, blast furnace slag, ladle furnace slag, stainless steel slag (agrosilício), wollastonite, lime and calcined dolomite lime, plus one control without corrective application. Each material dose was calculated to raise the base saturation to 70%. Soil acidity was neutralized down to 20cm with limestones, whereas for wollastonite and ladle furnace slag those effects occurred down to 10cm, for steel slag, blast furnace slag and agrosilício the corrective effect was restricted to the first 5cm. The bean yield increased by application of correctives in soil acidity, without differences between the application ways.

No sistema de semeadura direta (SSD), a prática da correção da acidez do solo se restringe ao uso do calcário, havendo poucas informações em relação às escórias de siderurgia. O trabalho objetivou avaliar as alterações em propriedades químicas do solo, rendimento e absorção de nutrientes do feijoeiro, em função das formas de aplicação de escórias de siderurgia, comparadas ao calcário, na implantação do sistema de semeadura direta. O experimento foi conduzido na área experimental da Faculdade de Ciências Agronômicas de Botucatu (SP), no período de dezembro de 2010 a maio de 2011. Os tratamentos foram duas formas de aplicação de sete corretivos da acidez do solo: escórias de aciaria, de alto forno, de forno de panela, do aço inox (agrosilício), wollastonita, calcário dolomítico e calcário dolomítico calcinado, além de uma testemunha sem aplicação de corretivo. A dose aplicada de cada corretivo foi calculada para elevar a saturação por bases do solo a 70. A acidez do solo foi neutralizada até a camada de 20cm com os calcários, enquanto a wollastonita e escória de forno de panela atingiram a camada de 10cm; para as escórias de aciaria, alto forno e o agrosilício, o efeito corretivo ficou restrito aos primeiros 5cm. O rendimento do feijoeiro aumentou com a aplicação de corretivos da acidez do solo, sem diferença entre o modo de aplicação.