Your search keyword '"calcium silicate cements"' showing total 125 results

1. The microstructure, composition, physical properties, and bioactivity of calcium silicate cement prototypes for vital pulp therapies.

Author

Vega-González, Marina, Domínguez-Pérez, Rubén Abraham, Higareda-Mendoza, Ana Edith, Domínguez-Pérez, Ricardo, Espinosa-Cristóbal, León Francisco, and Sánchez-Lara y Tajonar, Roberto Gustavo

Subjects

*ZIRCONIUM oxide, *MINERAL aggregates, *SCANNING electron microscopy, *MIDDLE-income countries, *CALCIUM phosphate

Abstract

Hydraulic calcium silicate cements (HCSCs) are valuable for various dental procedures. However, several reports document inherent limitations and complaints about their high costs, hindering accessibility in low—and middle-income countries. This study aimed to characterize four low-cost HCSC prototypes to show their microstructure, composition, and fundamental physical properties. Four HCSC prototypes were formulated: 1- calcium silicate powder with 17.5 wt. % replacement of calcium tungstate, 2- calcium silicate powder with 17.5 wt. % replacement of zirconium oxide, 3- calcium silicate powder with 17.5 wt. % replacement of calcium tungstate and 2.5 wt. % of zirconium oxide and 4- calcium silicate powder with 10 wt. % replacement of calcium tungstate and 10 wt. % replacement of zirconium oxide. Scanning electron microscopy, energy-dispersive X-ray spectroscopy, and X-ray diffraction were used to assess their microstructure and composition. Additionally, radiopacity, setting time, solubility, pH, and in vitro bioactivity were evaluated at different time points and contrasted with controls (Mineral trioxide aggregate –MTA Angelus- and Intermediate restorative material -IRM-). Their production cost was significantly lower than commercially available HCSCs. All prototypes exhibited a microstructure and composition comparable to MTA Angelus. All the prototypes exhibited radiopacity exceeding 3 mm of aluminum and shorter initial and final setting times than MTA Angelus. The solubility of some prototypes closely adhered to the ISO standard recommendation of 3% after 1 day, and all promoted an alkaline pH and the formation of calcium/phosphate precipitates. These promising findings suggest the potential clinical application of these prototypes. However, further research is necessary to evaluate their mechanical and biological properties for definitive clinical use. [ABSTRACT FROM AUTHOR]

Published

2024

2. Histological evaluation of tissue reaction and new bone formation of different calcium silicate‐based cements in rats.

Author

Bilge, K, Ataş, O, Yildiz, Ş, Çalik, İ, Dündar, S, and Gezer Ataş, A

Subjects

BONE growth, MANN Whitney U Test, CALCIUM silicates, RATS, CALCIUM

Abstract

Background: The purpose of this study was to evaluate the local reactions and new bone formation of rat subcutaneous and bone tissue to different calcium silicate cements. Methods: In this study, 80 rats were divided into five groups as control, BIOfactor MTA (BIO), NeoMTA Plus (NEO), MTA Repair Hp (REP), Biodentine (DENT) and then into two subgroups according to sacrification times (7, 30 days; n = 8). Polyethylene tubes filled with appropriate materials (test groups); empty tubes (control group) were implanted into the dorsum of each rat subcutaneously. For intraosseous implantation, materials were placed in the cavities created in tibia of rats. Subcutaneous tissue and tibia samples were stained with haematoxylin‐eosin and subjected to histopathological analysis. A score (0–3) was used to grade inflammatory reaction and new bone formation. Data were analysed by Kruskal–Wallis and Mann–Whitney U tests (P < 0.05). Results: Inflammatory reaction observed in subcutaneous and intraosseous tissues for 7 days decreased significantly in all groups over time (P < 0.05). It was determined that there was significant increase in new bone formation in REP, BIO, DENT groups over time (P < 0.05). Conclusion: Four contemporary bioceramic materials induced local inflammation and tissues changes shortly after subcutaneous implantation, which were reduced over time. In ıntraosseous implantation, all materials induced new bone formation over time. Registration number: ADJ‐03‐23‐0134. © 2023 Australian Dental Association. [ABSTRACT FROM AUTHOR]

Published

2024

3. Radiopacity evaluation of calcium silicate cements

Author

Havva Gozde Sen, Dilek Helvacioglu-Yigit, and Ayca Yilmaz

Subjects

Biodentine, Calcium silicate cements, NeoMTA 2, OrthoMTA, ProRoot MTA, Radiopacity, Dentistry, RK1-715

Abstract

Abstract Background The aim of this study was to compare the radiopacity of calcium silicate cements using a digital imaging method. Methods Four calcium silicate cements, NeoMTA 2, OrthoMTA, ProRoot MTA, and Biodentine, were used in this study. Disk-shaped samples were prepared from each material and placed on a plexiglass plate. An aluminum step-wedge was placed alongside the samples on a digital sensor and exposed to 70 kVp and 8 mA from 30 cm away for 0.32 s. The greyness values ​​of the tested materials were measured digitally with the system software and compared with those of the step-wedge to determine the equivalent aluminum thickness. Results The radiopacity values, expressed in equivalent millimetres of aluminum, of the studied materials ProRoot MTA, OrthoMTA, NeoMTA 2, and Biodentine were 4.32 ± 0.17 mm Al, 3.92 ± 0.09 mm Al, 3.83 ± 0.07 mm Al, and 2.29 ± 0.21 mm Al, respectively. Statistically significant differences were found between the mean radiographic density values of the tested materials (p

Published

2023

4. Examining Carbonation of Calcium Silicate-Based Cements in Real Time Using Neutron Radiography.

Author

Ghantous, Rita Maria, Goodwin, Margaret N., Moradllo, Mehdi Khanzadeh, Quinn, Sean, Aktan, Vahit, Isgor, O. Burkan, Reese, Steven, and Weiss, W. Jason

Subjects

NEUTRON radiography, MORTAR, CARBONATION (Chemistry), PORE size distribution, CARBON dioxide, POROSITY, CEMENT admixtures

Abstract

Carbonatable calcium silicate cement (CSC) is a promising approach to reducing the carbon footprint associated with concrete production. Carbonatable CSC gains strength by reacting with carbon dioxide (CO2). While the concept of carbonation is well known, more information on the curing process is needed. This study focuses on studying the impact of drying time, carbonation duration, and degree of saturation (DOS) on the carbonation reaction of CSC mortar. Samples were exposed to different drying durations at controlled environmental conditions to reach various DOSs ranging from 100 to 0%. The samples were then exposed to carbonation under the same environmental conditions for different durations. Neutron radiography (NR) was performed on the samples during drying to determine the DOS corresponding to various drying durations. NR was also used during the carbonation period to determine the degree of carbonation (DOC) in real time. The impact of carbonation on the diffusivity of water vapor (Dh) and pore size distribution of CSC-based samples was examined using dynamic vapor sorption (DVS). It was concluded that the carbonation reaction increased as the DOS decreased from 100 to 40%. The carbonation reaction ceased for samples with DOS values less than 6% DOS. It was also concluded that as the DOC increased, the pore structure was refined, which led to a decrease in the Dh of the CSC mortar samples. [ABSTRACT FROM AUTHOR]

Published

2023

5. Evaluation of the Shear Bond Strength of Immediate and Delayed Restorations of Various Calcium Silicate-Based Materials with Fiber-Reinforced Composite Resin Materials.

Author

Candan, Merve, Altinay Karaca, Fatıma Kübra, and Öznurhan, Fatih

Subjects

*FIBROUS composites, *SHEAR strength, *BOND strengths, *DENTAL fillings, *DENTAL pulp, *COMPOSITE materials

Abstract

Due to significant tissue loss in teeth requiring pulp treatments, hermetic restoration of the remaining dental tissues is one of the most crucial factors in determining the treatment's success. The adhesion of composite resins to calcium silicate cements (CSCs) is considered challenging. Consequently, it is crucial to identify the optimal method for obtaining optimal adhesion. The aim of the present study is to evaluate the shear bond strength (SBS) values of immediate and delayed restorations with fiber-reinforced composites on powder–liquid, premixed, and resin-containing flowable CSCs. In the present study, the SBS values obtained after immediate (14 min) and delayed (7 days) restorations of three different CSCs (NeoMTA2, NeoPutty, and TheraCal PT) with three different resin composite materials (EverX FlowTM, EverX PosteriorTM, and Filtek Z550) were compared. The fracture types were evaluated using a stereomicroscope and SEM. TheraCal PT had the highest SBS values for both immediate and delayed restorations, and the comparison with other materials showed a statistically significant difference (p = 0.001). In contrast, there was no statistically significant difference between the SBS values of NeoMTA and NeoPutty (p > 0.05). In both immediate and delayed restorations, there was no statistically significant difference between nanohybrid and fiber-reinforced composites (p > 0.05). The simple use and strong bonding ability of TheraCal PT with composite resins may provide support for the idea that it is suitable for pulpal interventions. Nevertheless, due to the in vitro nature of this study, additional in vitro and clinical studies are required to investigate the material's physical, mechanical, and biological properties for use in clinical applications. [ABSTRACT FROM AUTHOR]

Published

2023

6. Physicochemical, mechanical and biological properties of nano-calcium silicate-based cements: a systematic review.

Author

Majeed, Rabia, Elnawawy, Hoda Mohamed, Kutty, Muralithran Govindan, Yahya, Noor Azlin, Azami, Noor Hayati, Abu Kasim, Noor Hayaty, Nabhan, Mohamed Shady, Cooper, Paul Roy, Camilleri, Josette, and Ahmed, Hany Mohamed Aly

Subjects

FOREIGN body reaction, CEMENT, BONE regeneration, BOND strengths, COMPRESSIVE strength

Abstract

This systematic review evaluated the effects of nano-sized cement particles on the properties of calcium silicate-based cements (CSCs). Using defined keywords, a literature search was conducted to identify studies that investigated properties of nano-calcium silicate-based cements (NCSCs). A total of 17 studies fulfilled the inclusion criteria. Results indicated that NCSC formulations have favourable physical (setting time, pH and solubility), mechanical (push out bond strength, compressive strength and indentation hardness) and biological (bone regeneration and foreign body reaction) properties compared with commonly used CSCs. However, the characterization and verification for the nano-particle size of NCSCs were deficient in some studies. Furthermore, the nanosizing was not limited to the cement particles and a number of additives were present. In conclusion, the evidence available for the properties of CSC particles in the nano-range is deficient—such properties could be a result of additives which may have enhanced the properties of the material. [ABSTRACT FROM AUTHOR]

Published

2023

7. Inflammatory response and odontogenic differentiation of inflamed dental pulp treated with different pulp capping materials: An in vivo study.

Author

Chung, M., Lee, S., Kim, S., and Kim, E.

Subjects

*DENTAL pulp, *ODONTOGENIC cysts, *DENTAL pulp capping, *RUNX proteins, *INFLAMMATION, *LABORATORY rats

Abstract

Aim: Previous studies have evaluated the pulpal responses to calcium silicate cements (CSCs) on normal dental pulp, but investigations on the effects of CSCs on inflamed pulp are limited. This study aimed to test the inflammatory response and odontogenic differentiation of inflamed rat dental pulp after direct pulp capping with CSCs. Methodology: Wistar rat molars pulps were exposed for 48 h to induce inflammation and then capped with ProRoot MTA (Dentsply), Biodentine (Septodont), RetroMTA (Bio MTA) and Dycal (Dentsply Caulk). The degree of pulpal inflammation and hard tissue formation was evaluated by histological analysis. Immunofluorescence staining for interleukin (IL)‐6, osteocalcin (OCN) and runt‐related transcription factor 2 (RUNX2) was also performed. Results: After 4 weeks, complete recovery from inflammation was evident in 22%, 37.5%, 10% and none of the ProRoot MTA, Biodentine, RetroMTA and Dycal samples, respectively. Heavy hard tissue deposition as a continuous hard tissue bridge was observed in 77.8%, 75%, 70% and 60% of the ProRoot MTA, Biodentine, RetroMTA and Dycal samples, respectively. IL‐6, OCN and RUNX2 were detected in all materials, mainly adjacent to areas of inflammation and reparative dentine formation. At one, two and 4 weeks, significant differences were not observed between the inflammation and hard tissue formation scores of the four material groups (p >.05). Conclusions: In this study, pulpal inflammation was still present in most specimens at 4 weeks after pulp capping and a significant number of samples showed incomplete and discontinuous dentine bridge formation. The results of this study suggest that initial inflammatory conditions of the pulp may risk the prognosis of teeth treated with CSCs. [ABSTRACT FROM AUTHOR]

Published

2023

8. Radiopacity evaluation of calcium silicate cements.

Author

Sen, Havva Gozde, Helvacioglu-Yigit, Dilek, and Yilmaz, Ayca

Subjects

ALUMINUM analysis, DENTURES, CALCIUM compounds, DENTAL radiography, MATERIALS testing, DESCRIPTIVE statistics, MEDICAL digital radiography, DENTAL cements, ANALYTICAL chemistry

Abstract

Background: The aim of this study was to compare the radiopacity of calcium silicate cements using a digital imaging method. Methods: Four calcium silicate cements, NeoMTA 2, OrthoMTA, ProRoot MTA, and Biodentine, were used in this study. Disk-shaped samples were prepared from each material and placed on a plexiglass plate. An aluminum step-wedge was placed alongside the samples on a digital sensor and exposed to 70 kVp and 8 mA from 30 cm away for 0.32 s. The greyness values ​​of the tested materials were measured digitally with the system software and compared with those of the step-wedge to determine the equivalent aluminum thickness. Results: The radiopacity values, expressed in equivalent millimetres of aluminum, of the studied materials ProRoot MTA, OrthoMTA, NeoMTA 2, and Biodentine were 4.32 ± 0.17 mm Al, 3.92 ± 0.09 mm Al, 3.83 ± 0.07 mm Al, and 2.29 ± 0.21 mm Al, respectively. Statistically significant differences were found between the mean radiographic density values of the tested materials (p < 0.05). Conclusion: ProRoot MTA was the most radiopaque root canal filling material among the tested materials. All materials, except Biodentine, were found to be compliant with the minimum radiopacity requirements of ISO 6876 and ADA 57 standards. [ABSTRACT FROM AUTHOR]

Published

2023

9. MAJOR CHANGES IN THE DEVELOPMENT OF CALCIUM SILICATE-BASED CEMENTS IN DENTISTRY

Author

Desislava Tsanova-Tosheva and Ivanka Dimitrova

Subjects

calcium silicate cements, mineral trioxide aggregate, new dental materials, Dentistry, RK1-715, Medicine (General), R5-920

Abstract

Calcium silicate cements are widely used in contemporary dentistry. Their properties, such as biocompatibility, osteoinductive potential, and stimulation of pulp regeneration, are valuable for the treatment of perforations, pulp capping procedures, retrograde fillings, etc. This article aims to present the new calcium silicate cements available on the market, review the recent modifications in their composition, describe the evolution of each generation of these materials, and reveal how these changes impact their different properties and improve their characteristics.At the same time, this paper makes a brief retrospection of the first calcium silicate-based cements, which started the era of contemporary mineral trioxide aggregate materials. This article also points out some future tendencies in the development of calcium silicate cements and attempts to differentiate their generations mentioned in the literature.

Published

2022

10. Inflammatory and differentiation cellular response to calcium silicate cements: An in vitro study.

Author

Alqassab, Fadela, Atmeh, Amre R., Aldossary, Nada, Alzahrani, Nada, Madi, Marwa, and Omar, Omar

Subjects

*CALCIUM silicates, *INTRACELLULAR calcium, *LACTATE dehydrogenase, *CD14 antigen, *MINERAL aggregates, *IN vitro studies

Abstract

Aim: Inflammatory‐regenerative cell interaction is believed to mediate hard tissue formation. This study aimed to investigate the interaction between human inflammatory monocytes with human regenerative fibroblasts after exposure to different calcium silicate materials. Methodology: Human monocytes were cultured on three materials, polystyrene (PS), mineral trioxide aggregates (MTA) and biodentine (BD), in the presence or absence of lipopolysaccharide (LPS). Half of the monocyte‐conditioned media (MoCM) of each group was used to analyse inflammatory cytokine secretion, namely TNF‐α, IL‐1β, IL‐1RA and IL‐6. The remaining MoCM was used to culture recipient fibroblasts, measuring the cell number (proliferation) and levels of alkaline phosphatase (differentiation) and lactic acid dehydrogenase (cytotoxicity). Results: In absence of LPS, MTA was associated with higher secretion of TNF‐α and lower secretion of IL‐1β, while BD triggered higher secretions of both cytokines when both materials were compared to control (PS). When LPS was added, higher levels of all analysed cytokines were observed in the PS and BD groups, whereas for the MTA group, only TNF‐α and IL‐6 were increased. Fibroblasts responded differently to the MoCM from the different groups, revealing significant increases in proliferation and differentiation capacities, particularly when cultured in CM from monocytes exposed to MTA. The morphological evaluation revealed different patterns of fibroblast shape and spread in the different MoCM groups. Conclusion: Calcium silicate materials modulate the monocyte inflammatory response, which subsequently induce differential effects on the recipient fibroblasts. MTA appears to promote the secretion of prodifferentiation signals from the monocytes, which are received by fibroblasts, promoting their proliferation and differentiation. The model represents a promising tool to evaluate the interaction of different cells in response to different materials. [ABSTRACT FROM AUTHOR]

Published

2023

11. Selective removal to soft dentine or selective removal to firm dentine for deep caries lesions ın permanent posterior teeth: a randomized controlled clinical trial up to 2 years.

Author

Gözetici-Çil, Burcu, Erdem-Hepşenoğlu, Yelda, Tekin, Alperen, and Özcan, Mutlu

Subjects

*CLINICAL trials, *RANDOMIZED controlled trials, *TOOTH sensitivity, *DENTIN, *DENTAL caries, *DENTAL pulp, *TEETH, *DENTAL pulp capping, *DENTAL extraction

Abstract

Objectives: The aim of this randomized clinical trial was to compare selective removal to soft dentin (SRSD) and selective removal to firm dentin (SRFD) in permanent teeth. The primary outcome of the study was to compare the success rates of the two caries removal techniques. The secondary outcome of the study was to investigate whether or not calcium silicate-based material (CS) had an effect on the success rate of the treatment. Materials and methods: Between November 2018 and March 2020, patients with deep caries lesions were invited to participate in the study. Posterior teeth (N = 165) with primary caries lesion radiographically extending ¾ of dentin and positive response to cold test were randomly selected. A total of 134 participants meeting the inclusion criteria were randomized to SRSD and SRFD (control) groups. After the caries removal procedure, teeth with exposed pulps were assigned to the pulp exposure (PE) group, and the SRSD group was further divided into test 1 (with CS) and test 2 groups (without CS). Success was defined as a positive response to the cold test, a negative response to percussion, the absence of pain, an abscess, a fistula, and periapical alterations. Fisher–Freeman–Halton exact tests, Kaplan–Meier survival analysis, and the log-rank tests were performed for comparisons between groups. Results: No statistically significant difference was found between the success rates of test 1 (100%) and test 2 (93.5%) groups, whereas the proportion of success in control (82.4%) and PE (84%) groups were significantly lower when compared with test groups (p = 0.024; p < 0.05) at the end of 2-year follow-up. Conclusions: SRSD had a higher success rate when compared to SRFD to treat deep carious lesions after 2 years of follow-up. The use of CS material after SRSD as a liner had no effect on the treatment outcome. Clinical relevance: SRSD with good coronal sealing might be recommended without CS application for the treatment of deep caries lesions in permanent teeth. Trial registration: Clinical trial registration number NCT04052685 (08/09/2019). [ABSTRACT FROM AUTHOR]

Published

2023

12. Microstructure and color stability of calcium silicate-based dental materials exposed to blood or platelet-rich fibrin.

Author

Shokouhinejad, Noushin, Tahun, Ibrahim Abu, Tahan, Shima Saber, Mohandes, Fatemeh, Nekoofar, Mohammad H., and Dummer, Paul M. H.

Subjects

*PLATELET-rich fibrin, *DENTAL materials, *THROMBOSIS, *MICROSTRUCTURE, *ZIRCONIUM oxide

Abstract

Objectives: To investigate the effects of blood and platelet-rich fibrin (PRF), commonly used scaffolds in regenerative endodontic treatment (RET), on the hydration, microstructure, and color stability of three hydraulic calcium silicate cements (HCSCs), OrthoMTA, RetroMTA, and TotalFill-BC-RRM. Materials and methods: The HCSCs were prepared and placed into polyethylene molds and transferred to Eppendorf tubes containing PRF, blood, or PBS and then incubated for 1 week or 1 month. The microstructure and hydration of the cements were studied by scanning electron microscopy (SEM), energy-dispersive X-ray spectroscopy (EDS), and X-ray diffraction (XRD). The chromatic alteration of materials was also measured using a spectrophotometer. The data for color stability were analyzed using 2-way analysis of variance and Tukey post hoc tests. Results: There was no significant difference between the color stability of cements exposed to PBS (p > 0.05). The chromatic alteration of cements exposed to blood was significantly greater than those exposed to PRF and PBS (p < 0.001). In the presence of blood and PRF, the color change of OrthoMTA was significantly greater than that of RetroMTA and TotalFill (p < 0.05), with no significant difference between RetroMTA and TotalFill (p > 0.05). XRD analysis of all cements revealed a calcium hydroxide peak after 1-week and 1-month exposure to the media; however, OrthoMTA and TotalFill exposed to blood and PRF for 1 month showed weaker calcium hydroxide peaks. SEM images revealed cements exposed to PBS had a different surface microstructure compared to those exposed to blood and PRF. Furthermore, the surface microstructure of HCSCs was influenced by the type of cement radiopacifier (bismuth oxide or zirconium oxide). EDS analysis of the elemental composition in all groups displayed peaks of Ca, O, C, Si, P, and Al. Conclusions: Color stability, hydration behavior, and microstructure of HCSCs were affected by exposure to PRF and blood and the type of cement radiopacifier. Clinical relevance: As some important physicochemical properties of HCSCs could be influenced by the environmental conditions and the type of radiopacifier, alternatives to blood clot and HCSCs containing substitutes for bismuth oxide might be more suitable in RETs. [ABSTRACT FROM AUTHOR]

Published

2023

13. The Use of Premixed Calcium Silicate Bioceramic Sealer with Warm Carrier-Based Technique: A 2-Year Study for Patients Treated in a Master Program.

Author

Zamparini, Fausto, Spinelli, Andrea, Cardinali, Filippo, Ausiello, Pietro, Gandolfi, Maria Giovanna, and Prati, Carlo

Subjects

CALCIUM silicates, PIT & fissure sealants (Dentistry), DENTAL pulp cavities, GUTTA-percha, SURVIVAL rate

Abstract

Background: Recently several calcium silicate flowable sealers have been introduced as endodontic materials for the root canal. This clinical study tested the use of a new premixed calcium silicate bioceramic sealer in association with the Thermafil warm carrier-based technique (TF). Epoxy-resin-based sealer with the warm carrier-based technique was the control group. Methodology: Healthy consecutive patients (n = 85) requiring 94 root canal treatments were enrolled in this study and assigned to one filling group (Ceraseal-TF n = 47, AH Plus-TF n = 47) in accordance with operator training and best clinical practice. Periapical X-rays were taken preoperatively, after root canal filling and after 6, 12 and 24 months. Two evaluators blindly assessed the periapical index (PAI) and sealer extrusion in the groups (k = 0.90). Healing rate and survival rate were also evaluated. Chi-square tests was used to analyze significant differences between the groups. Multilevel analysis was performed to evaluate the factors associated with healing status. Results: A total of 89 root canal treatments in 82 patients were analyzed at the end-line (24 months). The total drop-out was 3.6% (3 patients; 5 teeth). A total of 91.1% of healed teeth (PAI 1-2) was observed in Ceraseal-TF, with 88.6% in AH Plus-TF. No significant difference was observed on healing outcome and survival among the two filling groups (p > 0.05). Apical extrusion of the sealers occurred in 17 cases (19.0%). Of these, 6 occurred in Ceraseal-TF (13.3%) and 11 in AH Plus-TF (25.0%). Three Ceraseal extrusions were radiographically undetectable after 24 months. All the AH Plus extrusions did not change during the evaluation time. Conclusions: The combined use of the carrier-based technique and premixed CaSi-based bioceramic sealer showed clinical results comparable with carrier-based technique and epoxy-resin-based sealer. The radiographical disappearance of apically extruded Ceraseal is a possible event in the first 24 months. [ABSTRACT FROM AUTHOR]

Published

2023

14. Comparative cytocompatibility of the new calcium silicate-based cement NeoPutty versus NeoMTA Plus and MTA on human dental pulp cells: an in vitro study.

Author

Lozano-Guillén, Ana, López-García, Sergio, Rodríguez-Lozano, Francisco Javier, Sanz, José Luis, Lozano, Adrián, Llena, Carmen, and Forner, Leopoldo

Subjects

*SILICATE cements (Dentistry), *DENTAL pulp, *CYTOCOMPATIBILITY, *IN vitro studies, *CALCIUM ions, *CEMENT

Abstract

Objectives : The aim of the present in vitro study is to determine the cytocompatibility of the recently introduced NeoPutty in contact with human dental pulp cells compared with its precursor NeoMTA Plus and the classic gold standard MTA Angelus. Materials and methods: Sample disks were obtained for each of the tested materials (5 mm diameter; 2 mm thickness; n = 30), along with 1:1, 1:2, and 1:4 material eluents. HDPCs were extracted and cultured with the tested materials (test groups) or in unconditioned medium (control group), and the following biocompatibility assays were performed: MTT assay, scratch wound assay, cell cytoskeleton staining assays, and cell attachment assessment via SEM. Additionally, material ion release and surface element composition were evaluated via ICP-MS and SEM–EDX, respectively. Each experimental condition was carried out three times and assessed in three independent experiments. Statistical significance was established at p < 0.05. Results: 1:2 dilutions of all the tested materials exhibited a comparable cell viability to that of the control group at 48 and 72 h of culture (p < 0.05). The same was observed for 1:4 dilutions of the tested materials at 24, 48, and 72 h of culture (p > 0.05). All the tested materials exhibited adequate cytocompatibility in the remaining biocompatibility assays. MTA exhibited a significantly higher calcium ion release compared to NeoPutty and NeoMTA Plus (p < 0.05). Conclusion: The results from the present work elucidate the adequate cytocompatibility of NeoPutty, NeoMTA Plus, and MTA Angelus towards human dental pulp cells. Clinical relevance: Within the limitations of the present in vitro study, our results may act as preliminary evidence for its use in vital pulp therapy as a pulp capper. However, results need to be interpreted with caution until further clinical supporting evidence is reported. [ABSTRACT FROM AUTHOR]

Published

2022

15. Effect of exposure to etidronic acid on the bond strength of calcium silicate-based cements after 1 and 21 days: an in vitro study

Author

Elena Rebolloso de Barrio, Juan José Pérez-Higueras, Ernesto García-Barbero, and Lucía Gancedo-Caravia

Subjects

Bond strength, Calcium silicate cements, Etidronic acid, Setting time, Root canal irrigants, Dentistry, RK1-715

Abstract

Abstract Background After reparation of root perforations with calcium silicate-based cements (CSBC), the surface of the material is expected to be exposed to root canal irrigants (RCI) while resuming the root canal treatment. Methods The aim of this study was to compare the effect of exposure to a mixture of sodium hypochlorite (NaOCl) and etidronic acid (HEBP) or other irrigants on the Push Out Bond Strength (POBS) of CSBC after two different setting times. 240 root slices 1 mm thick were obtained from single-rooted human teeth. A 1.4 mm diameter perforation was performed on each slice and filled with Biodentine (BD) or ProRoot MTA (PMTA). After 1 or 21 days they were exposed to 17% ethylenediaminetetraacetic acid, 5.25% NaOCl, a mixture of 5.25% NaOCl and 9% HEBP (NaOCl + HEBP) or saline (n = 15) and submitted to a push-out test. POBS results were analysed with ANOVA and Tukey tests. Results BD showed higher POBS than PMTA after 1 day (p

Published

2021

16. Quantifying Drying and Carbonation in Calcium Silicate-Cement Systems Using Neutron Radiography.

Author

Moradllo, M. Khanzadeh, Ghantous, R. M., Quinn, S., Aktan, V., Reese, S., and Weiss, W. J.

Subjects

NEUTRON radiography, CARBONATION (Chemistry), CALCIUM silicates, CARBON dioxide, CALCIUM, DRYING, MECHANICAL properties of condensed matter

Abstract

Calcium silicate cements react with carbon dioxide (CO2) to form a concrete-like product. While several papers have focused on the properties of the solid material that forms, this study investigates the processing of carbonated calcium silicate systems. Specifically, this paper examines the drying of fresh calcium silicate cement/ water systems and the subsequent carbonation process. A new methodology is presented, based on neutron radiography, to quantify the drying and extent of carbonation that has occurred (degree of carbonation) and the spatial distribution of carbonated products within the sample. Mortar mixtures with high-purity calcium silicate-based cement significantly extend the initial drying period, enabling greater penetration of CO2, allowing it to react with the calcium silicate at greater depths in the sample. While the carbonation reaction is rapid immediately after the CO2 is introduced into the system, the carbonation reaction slows over time. The findings indicate that the degree of saturation and the potential formation of reaction products may limit the penetration of CO2 through the sample depth. [ABSTRACT FROM AUTHOR]

Published

2022

17. The Use of Premixed Calcium Silicate Bioceramic Sealer with Warm Carrier-Based Technique: A 2-Year Study for Patients Treated in a Master Program

Author

Fausto Zamparini, Andrea Spinelli, Filippo Cardinali, Pietro Ausiello, Maria Giovanna Gandolfi, and Carlo Prati

Subjects

carrier-based obturation, bioceramic sealers, calcium-silicate-based root canal sealer, calcium silicates, calcium silicate cements, bioceramics, Biotechnology, TP248.13-248.65, Medicine (General), R5-920

Abstract

Background: Recently several calcium silicate flowable sealers have been introduced as endodontic materials for the root canal. This clinical study tested the use of a new premixed calcium silicate bioceramic sealer in association with the Thermafil warm carrier-based technique (TF). Epoxy-resin-based sealer with the warm carrier-based technique was the control group. Methodology: Healthy consecutive patients (n = 85) requiring 94 root canal treatments were enrolled in this study and assigned to one filling group (Ceraseal-TF n = 47, AH Plus-TF n = 47) in accordance with operator training and best clinical practice. Periapical X-rays were taken preoperatively, after root canal filling and after 6, 12 and 24 months. Two evaluators blindly assessed the periapical index (PAI) and sealer extrusion in the groups (k = 0.90). Healing rate and survival rate were also evaluated. Chi-square tests was used to analyze significant differences between the groups. Multilevel analysis was performed to evaluate the factors associated with healing status. Results: A total of 89 root canal treatments in 82 patients were analyzed at the end-line (24 months). The total drop-out was 3.6% (3 patients; 5 teeth). A total of 91.1% of healed teeth (PAI 1-2) was observed in Ceraseal-TF, with 88.6% in AH Plus-TF. No significant difference was observed on healing outcome and survival among the two filling groups (p > 0.05). Apical extrusion of the sealers occurred in 17 cases (19.0%). Of these, 6 occurred in Ceraseal-TF (13.3%) and 11 in AH Plus-TF (25.0%). Three Ceraseal extrusions were radiographically undetectable after 24 months. All the AH Plus extrusions did not change during the evaluation time. Conclusions: The combined use of the carrier-based technique and premixed CaSi-based bioceramic sealer showed clinical results comparable with carrier-based technique and epoxy-resin-based sealer. The radiographical disappearance of apically extruded Ceraseal is a possible event in the first 24 months.

Published

2023

18. Calcium silicate cements endowing bioactivity and sustaining mechanical strength of low-heat-releasing and fast-curing magnesium phosphate cements.

Author

Xie L, Zhang Y, Cao B, Jiao X, Yue X, Xu Y, Yang X, Yang G, Wang Y, Shen J, Wang C, Weng X, and Gou Z

Abstract

It is known that magnesium phosphate cements (MPCs) show appreciable mechanical strength and biocompatibility, but the hydration reaction processes often lead to intense heat release while the hydration products present weak resistance to mechanical decay and low bioactivity. Herein we developed an MPC-based system, which was low-heat-releasing and fast-curing in this study, by compounding with self-curing calcium silicate cements (CSCs). The MPC composed of magnesium oxide (MgO), potassium dihydrogen phosphate (KH 2 PO 4 ), disodium hydrogen phosphate (Na 2 HPO 4 ), magnesium hydrogen phosphate trihydrate (MgHPO 4 ·3H 2 O) and chitosan were weakly basic, which would be more stable in vivo . The physicochemical properties indicated that the addition of CSCs could increase the final setting time while decrease the heat release. Meanwhile, the CSCs could endow MPC substrate with apatite re-mineralization reactivity, especially, which add 25 wt.% CSCs showed the most significant apatite deposition. What's more, the mechanical evolution in buffer demonstrated CSCs could enhance and sustain the mechanical strength during degradation, and the internal constructs of cement implants could still be reconstructed by μCT analysis in rabbit femoral bone defect model in vivo . Particularly, appropriate CSCs adjusted the biodegradation and promoted new bone tissue regeneration in vivo . Totally, the MPC/CSCs composite system endows bioactivity and sustains mechanical strength of the MPC, which may be promising for expending the clinical applications of MPC-based bone cements., (© The Author(s) 2024. Published by Oxford University Press.)

Published

2024

19. Effect of exposure to etidronic acid on the bond strength of calcium silicate-based cements after 1 and 21 days: an in vitro study.

Author

Rebolloso de Barrio, Elena, Pérez-Higueras, Juan José, García-Barbero, Ernesto, and Gancedo-Caravia, Lucía

Subjects

SODIUM hypochlorite, DENTAL bonding, SILICATES, STATISTICS, ANALYSIS of variance, DENTAL materials, ETIDRONATE, CALCIUM compounds, TOOTH roots, ETHYLENEDIAMINETETRAACETIC acid, DATA analysis, DENTAL cements

Abstract

Background: After reparation of root perforations with calcium silicate-based cements (CSBC), the surface of the material is expected to be exposed to root canal irrigants (RCI) while resuming the root canal treatment. Methods: The aim of this study was to compare the effect of exposure to a mixture of sodium hypochlorite (NaOCl) and etidronic acid (HEBP) or other irrigants on the Push Out Bond Strength (POBS) of CSBC after two different setting times. 240 root slices 1 mm thick were obtained from single-rooted human teeth. A 1.4 mm diameter perforation was performed on each slice and filled with Biodentine (BD) or ProRoot MTA (PMTA). After 1 or 21 days they were exposed to 17% ethylenediaminetetraacetic acid, 5.25% NaOCl, a mixture of 5.25% NaOCl and 9% HEBP (NaOCl + HEBP) or saline (n = 15) and submitted to a push-out test. POBS results were analysed with ANOVA and Tukey tests. Results: BD showed higher POBS than PMTA after 1 day (p <.05). After 21 days no differences were found between materials. After 1 day exposure to NaOCl + HEBP resulted in higher POBS, compared to the other irrigants (p <.05). Conclusion: POBS results are influenced by the cement, the setting time and the exposure to irrigants. [ABSTRACT FROM AUTHOR]

Published

2021

20. Biomaterial and Biofilm Interactions with the Pulp-Dentin Complex-on-a-Chip.

Author

Rodrigues, N.S., França, C.M., Tahayeri, A., Ren, Z., Saboia, V.P.A., Smith, A.J., Ferracane, J.L., Koo, H., and Bertassoni, L.E.

Subjects

BIOFILMS, DENTAL pulp, DENTIN, GROWTH factors, MICROFLUIDICS, DENTAL cements, CALCIUM silicates

Abstract

Calcium silicate cements (CSCs) are the choice materials for vital pulp therapy because of their bioactive properties, promotion of pulp repair, and dentin bridge formation. Despite the significant progress made in understanding CSCs' mechanisms of action, the key events that characterize the early interplay between CSC-dentin-pulp are still poorly understood. To address this gap, a microfluidic device, the "tooth-on-a-chip," which was developed to emulate the biomaterial-dentin-pulp interface, was used to test 1) the effect of CSCs (ProRoot, Biodentine, and TheraCal) on the viability and proliferation of human dental pulp stem cells, 2) variations of pH, and 3) release within the pulp chamber of transforming growth factor–β (TGFβ) as a surrogate of the bioactive dentin matrix molecules. ProRoot significantly increased the extraction of TGFβ (P < 0.05) within 24 to 72 h and, along with Biodentine, induced higher cell proliferation (P > 0.05), while TheraCal decreased cell viability and provoked atypical changes in cell morphology. No correlation between TGFβ levels and pH was observed. Further, we established a biofilm of Streptococcus mutans on-chip to model the biomaterial-biofilm-dentin interface and conducted a live and dead assay to test the antimicrobial capability of ProRoot in real time. In conclusion, the device allows for direct characterization of the interaction of bioactive dental materials with the dentin-pulp complex on a model of restored tooth while enabling assessment of antibiofilm properties at the interface in real time that was previously unattainable. [ABSTRACT FROM AUTHOR]

Published

2021

21. Determining the setting of root canal sealers using an in vivo animal experimental model.

Author

Silva, Emmanuel João Nogueira Leal, Ehrhardt, Iracema C., Sampaio, Gerhilde Callou, Cardoso, Milla Lessa, Oliveira, Diogo da Silva, Uzeda, Marcelo J., Calasans-Maia, Monica Diuana, Cavalcante, Daniele Moreira, Zuolo, Mario Luis, and De-Deus, Gustavo

Subjects

*DENTAL pulp cavities, *LABORATORY animals, *GUTTA-percha, *TOOTH replantation, *LABORATORY rats, *TOOTH roots, *DENTAL metallurgy

Abstract

Objectives: To present and explore the potential of an animal-based experimental model developed to determine the set of root canal sealers in vivo. The setting of AH Plus, BioC Sealer, TotalFill BC Sealer, and Sealapex was determined using either ISO 6876 or the novel in vivo method proposed in this study. Material and methods: The in vitro setting time of the sealers tested was determined in accordance with ISO 6876:2012. In determining the in vivo set, 24 adult Wistar rats were followed up for two evaluation periods: 1 and 4 weeks. Their upper-right incisor was extracted, and its pulp tissue was removed. The root canal was then filled from retrograde with one of the 4 sealers, and the tooth was re-implanted and fixed with a layer of a flowable composite resin. After 1 or 4 weeks of the surgical procedures, the animals were euthanized, and their incisors were extracted. Two-mm-thick slices of the middle third of the tooth root were obtained and assessed with a Gillmore device, to determine whether or not the sealer had set. Results: The following in vitro results were obtained by using ISO 6876 methodology: AH Plus set after a mean time of 423 ± 20 min and 476 ± 35 min, in metal and plaster molds, respectively. BioC Sealer set after 7 days (in dental plaster molds), whereas TotalFill BC Sealer and Sealapex did not set even after 25 days in both tested conditions (metal or dental plaster molds). Using the novel in vivo methodology, AH Plus, BioC Sealer, and TotalFill BC Sealer set after both 7 and 30 days. In contrast, Sealapex did not set at either time point. Conclusions: AH Plus and BioC Sealer set under both in vitro and in vivo test conditions. TotalFill BC Sealer did not set under in vitro conditions but did after 1 week under in vivo conditions. Sealapex did not set under either in vitro or in vivo conditions. Clinical relevance: The influence of the testing conditions on the setting results is a clear indication that new in vivo experimental models should be useful in future studies on Bioceramics root canal sealers. [ABSTRACT FROM AUTHOR]

Published

2021

22. Effect of pH on solubility of white Mineral Trioxide Aggregate and Biodentine: An in vitro study

Author

S Pushpa, Chakit Maheshwari, Garima Maheshwari, N Sridevi, Puneeta Duggal, and Puneet Ahuja

Subjects

Biodentine, calcium silicate cements, endodontic inflammation, mineral trioxide aggregate, solubility, Dentistry, RK1-715

Abstract

Background. The aim of this study was to evaluate the effect of acidic, neutral and alkaline environments on the solubility of white mineral trioxide aggregate (WMTA) and Biodentine (BD). Methods. Thirty-nine ring molds were randomly divided into three groups of A, B, and C (n = 12) with pH values of 7.4, 4.4 and 10.4, respectively, and an empty mold was used as a control. Each group was further divided into two subgroups (1 and 2) according to the material studied. The samples in groups A, B and C were transferred into synthetic tissue fluid buffered at pH values of 7.4, 4.4 and 10.4, respectively, and kept in an incubator at 37°C with 100% humidity. Daily solubility at 1-, 2-, 5-, 14-, 21-, and 30-day intervals and cumulative solubility up to 5-, 14-, and 30-day intervals were calculated. Statistical analysis was carried out with independent-samples t-test, two-way ANOVA and post hoc Tukey tests using SPSS 18. Statistical significance was set at P

Published

2018

23. Hydration products and bioactivity of an experimental MTA-like cement modified with wollastonite and bioactive glass.

Author

Flores-Ledesma, Abigailt, Tejeda-Cruz, Adriana, Bucio, Lauro, Wintergerst, Ana María, Rodríguez-Chávez, Jacqueline Adelina, Moreno-Vargas, Yoshamin Abnoba, and Arenas-Alatorre, Jesús Angel

Subjects

*BIOACTIVE glasses, *CALCIUM silicates, *DENTAL glass ionomer cements, *CEMENT, *HYDRATION, *FILLER materials

Published

2020

24. Calcium Silicate Based Cements in Endodontics.

Author

Kunjan, Anju Pattath and Ballal, Nidambur Vasudev

Subjects

CALCIUM silicates, PORTLAND cement, CEMENT, ENDODONTICS, FILLER materials, DENTAL pulp capping

Abstract

The introduction of Calcium Silicate Based Cements has been a great privilege in the field of Endodontics. From first introduced Portland Cement to currently available cements like Biodentine, NeoMTA Plus, the Calcium Silicate Based Cements have undergone various modification and improvisation in order to achieve better clinical outcomes. Improvement in the physical as well as biological properties has been noticed in the currently used Calcium Silicate Based Cements. They have wide applications - pulp capping procedures, apexification, perforation repair, retrograde filling material. Various cements available gives the clinician a wide range of option the get the desired outcomes. This paper gives a review of various Calcium Silicate Based Cements used in the field of endodontics. [ABSTRACT FROM AUTHOR]

Published

2020

25. Examination of surface porosity of current pulp capping materials by micro-computed tomography (micro-CT) method.

Author

Dayı B and Yalçın M

Subjects

Humans, X-Ray Microtomography, Porosity, Oxides chemistry, Silicates chemistry, Calcium Compounds chemistry, Drug Combinations, Aluminum Compounds chemistry, Dental Pulp Capping methods, Pulp Capping and Pulpectomy Agents therapeutic use, Calcium Hydroxide, Hydroxyapatites, Minerals

Abstract

When dental pulp is exposed, it must be covered with a biocompatible material to form reparative dentine. The material used, besides being biocompatible, should have an ideal surface structure for the attachment, proliferation and differentiation of dental pulp stem cells. This study aimed to evaluate the porosity of the microstructures of four pulp capping materials using micro-computed tomography (micro-CT). Biodentine, Bioaggregate, TheraCal and Dycal materials were prepared according to the manufacturer's instructions using 2 × 9 mm Teflon molds. A total of 60 samples, 15 in each group, were scanned using micro-CT. Open and closed pores and the total porosity of the microstructures of the materials were assessed. The findings obtained from the study were analyzed via the Kruskal-Wallis test followed by the Mann-Whitney U test. The porosity of Bioaggregate was significantly higher than that of Biodentine, Dycal and TheraCal in all porosity values. While Biodentine did not show a statistically significant difference in open and total porosity values from either TheraCal or Dycal, closed porosity values of Dycal were significantly higher than those of Biodentine and TheraCal. Because of the affinity of cells to porous surfaces, the pulp capping materials' microstructure may affect the pulp capping treatment's success. From this perspective, the use of Bioaggregate in direct pulp capping may increase the success of treatment., Competing Interests: The authors declare no conflict of interest., (©2024 The Author(s). Published by MRE Press.)

Published

2024

26. Vital Pulp Therapy in Permanent Mature Posterior Teeth with Symptomatic Irreversible Pulpitis: A Systematic Review of Treatment Outcomes

Author

João Miguel Santos, Joana F. Pereira, Andréa Marques, Diana B. Sequeira, and Shimon Friedman

Subjects

irreversible pulpitis, pulpotomy, calcium silicate cements, vital pulp therapy, systematic review, mineral trioxide aggregate, Medicine (General), R5-920

Abstract

Background and Objectives: Symptomatic irreversible pulpitis in permanent mature teeth is a common indication for nonsurgical root canal treatment (NSRCT), but contemporary studies have reported on vital pulp therapy (VPT) applied in such teeth as a less invasive treatment. This systematic review assessed the outcomes of VPT, including partial and full pulpotomy performed with hydraulic calcium silicate cements (HCSCs) in permanent mature posterior teeth diagnosed with symptomatic irreversible pulpitis. Materials and Methods: The PRISMA guidelines were followed. The search strategy included PubMed®, EMBASE, Cochrane library and grey literature electronic databases. The quality assessment of the identified studies followed the Cochrane Collaboration Risk of Bias, ROBINS-I and Newcastle–Ottawa Scale tools. Results: The search of primary databases identified 142 articles, of which 9 randomized controlled trials and 3 prospective cohort studies were selected for review. The risk-of-bias was assessed as ‘high’ or ‘serious’, ‘fair’, and ‘low’ for three, seven and two articles, respectively. One to five years after VPT using HCSCs, the success rates mostly ranged from 78 to 90%. Based on two articles, the outcomes of the VPT and NSRCT were comparable at one and five years. Despite the necessity for the intra-operative pulp assessment in VPT procedures, the majority of the studies did not fully report on this step or on the time needed to achieve hemostasis. Small sample sizes, of under 23 teeth, were reported in three studies. Conclusions: The reviewed 12 articles reported favorable outcomes of the VPT performed with HCSCs in permanent mature posterior teeth with symptomatic irreversible pulpitis, with radiographic success in the range of 81 to 90%. Two articles suggested comparable outcomes of the VPT and root canal treatment. Universal case selection and outcome criteria needs to be established for VPT when considered as an alternative to NSRCT. This evidence supports the need for further research comparing longer-term outcomes of both of the treatment modalities.

Published

2021

27. Evaluation of the efficacy of calcium silicate vs. glass ionomer cement indirect pulp capping and restoration assessment criteria: a randomised controlled clinical trial—2-year results.

Author

Hashem, Danya, Mannocci, Francesco, Patel, Shanon, Manoharan, Andiappan, Watson, Timothy F., and Banerjee, Avijit

Subjects

*CLINICAL trials, *CALCIUM silicates, *PULPITIS, *PERIAPICAL diseases, *DENTAL cements

Abstract

Objectives: Assess calcium silicate cement (Biodentine™) vs. glass ionomer cement (Fuji IX™, control) as indirect pulp capping (IPC) materials in patients with reversible pulpitis after a 2-year follow-up. Evaluate the integrity of the overlying resin composite restorations using modified USPHS criteria and FDI criteria. Investigate the sensitivity of the modified USPHS criteria compared to the FDI criteria in the assessment of the restorations.Materials and methods: Seventy-two restorations (36 Biodentine™, 36 Fuji IX™) were placed randomly in 53 patients. Periapical radiographs were taken at pre-treatment (T0), 12-month (T12), and 24-month (T24) review. Restorations were assessed using the modified USPHS and FDI criteria at T12 and T24.Results: At 24 months, 15 teeth had failed to maintain vitality (6 Biodentine™, 9 Fuji IX™). Clinical success rate of IPC for both materials was 72% and is related to the intensity of reversible pulpitis symptoms. No difference was found between T12 and T24 in the periapical (PA) radiographs and in the integrity of the resin composite restorations overlying Biodentine™ compared to Fuji IX™. There was no difference in the efficacy of the USPHS criteria compared to the FDI criteria in the assessment of the resin composite restorations.Conclusions: Biodentine™ and Fuji IX™ were clinically effective when used as IPC materials in teeth with reversible pulpitis at T24. Resin composite restorations overlying both materials performed well at T24. Using the USPHS or FDI criteria is equally efficient at T24; however, longer term follow-up is needed to establish whether there are sensitivity differences between these assessment criteria.Clinical significance: Teeth with deep carious lesions approaching the pulp and with signs of reversible pulpitis can be treated successfully by indirect pulp capping using either Biodentine™ or Fuji IX™. Using the USPHS or FDI criteria to assess restorations is equally effective at 2 years.Trial registration: NCT02201641 [ABSTRACT FROM AUTHOR]

Published

2019

28. Marginal microleakage of newly synthesized nanostructured biomaterials based on active calcium silicate systems and hydroxyapatite

Author

Petrović Violeta, Opačić-Galić Vanja, Dželetović Bojan, Jokanović Vukoman, and Živković Slavoljub

Subjects

marginal microleakage, calcium silicate cements, hydroxyapatite, Dentistry, RK1-715

Abstract

Introduction Calcium silicate cements can be successfully used for the treatment of root perforations due to their exceptional biological and sealing properties. The aim of this study was to test, using dye penetration method, marginal microleakage of newly synthesized nanostructured biomaterials based on calcium silicate system and hydroxyapatite after their application in interradicular perforation of extracted teeth. Material and Methods The study included 34 extracted human molars. Newly synthesized nanostructured materials: one based on calcium silicate system (CS), and the other one based on hydroxyapatite and active calcium silicate system (HA-CS) were tested. Mineral trioxide agreaggate (MTA; Angelus, Londrina, Brazil) was used as control. Marginal microleakage was evaluated using dye penetration test 6 months after the application of materials in experimentally prepared inter-radicular perforations in extracted human molars. Dye penetration was analyzed using light microscope at 30X magnification, a method of quantifying visual information in computer software for image processing (Adobe Photoshop CS5 Extended, version 12.0 x 32). The values were expressed in millimeters, and the results statistically analyzed using one-way ANOVA and Tukey post-hoc test (α=0.05). Results The shortest dye penetration was measured for calcium silicate system (0.44 mm), while slightly higher values were found for MTA (0.54 mm). Dye penetration for hydroxyapatite and active calcium silicate system (2.00 mm) was longer than for the other two materials (p

Published

2015

29. Outcome of Endodontic Micro-resurgery: A Retrospective Study Based on Propensity Score–matched Survival Analysis.

Author

Kim, Dohyun, Kim, Sunil, Song, Minju, Kang, Dae Ryong, Kohli, Meetu R., and Kim, Euiseong

Subjects

ENDODONTICS, MICROSURGERY, RADIOGRAPHY, KAPLAN-Meier estimator, INCISORS

Abstract

Abstract Introduction The purpose of this retrospective study was to evaluate and compare the outcome of endodontic micro-resurgery with that of primary endodontic microsurgery and determine prognostic factors affecting the outcome of micro-resurgery. Methods A clinical database was searched for endodontic microsurgery cases between 2001 and 2016. Nearest neighbor 2:1 propensity score matching for the following 5 variables was performed for cases of primary microsurgery and those of micro-resurgery: age, sex, tooth type, lesion type, and postoperative restoration. For the matched cases, the outcome was categorized as success or failure according to clinical and radiographic evaluations performed at least 1 year after surgery. Kaplan-Meier survival analysis and log-rank tests were performed to compare the outcome of primary microsurgery with that of micro-resurgery over time. For the micro-resurgery group, multivariate Cox proportional hazard regression analysis was performed to identify prognostic factors and estimate their effects. Results In total, 571 cases of endodontic microsurgery (498 primary microsurgery and 73 micro-resurgery cases) were identified, and 146 cases of primary microsurgery were matched to 73 cases of micro-resurgery through 2:1 propensity score matching. After matching, all covariates demonstrated an absolute standardized difference of <0.1. The estimated 5-year success rates were 91.6% and 87.6% for primary microsurgery and micro-resurgery, respectively (P =.594). The tooth type was found to be the only contributing factor for the outcome of micro-resurgery, with molars showing a higher probability of failure than anterior teeth (hazard ratio, 8.53; P =.002). Conclusions Within the limitations, the findings of this study suggest that the outcome of endodontic micro-resurgery is comparable with that of primary endodontic microsurgery. [ABSTRACT FROM AUTHOR]

Published

2018

30. Effect of pH on solubility of white Mineral Trioxide Aggregate and Biodentine: An in vitro study.

Author

Pushpa, S, Maheshwari, Chakit, Maheshwari, Garima, Sridevi, N, Duggal, Puneeta, and Ahuja, Puneet

Subjects

SILICATE cements (Dentistry), DENTAL materials

Abstract

Background. The aim of this study was to evaluate the effect of acidic, neutral and alkaline environments on the solubility of white mineral trioxide aggregate (WMTA) and Biodentine (BD). Methods. Thirty-nine ring molds were randomly divided into three groups of A, B, and C (n = 12) with pH values of 7.4, 4.4 and 10.4, respectively, and an empty mold was used as a control. Each group was further divided into two subgroups (1 and 2) according to the material studied. The samples in groups A, B and C were transferred into synthetic tissue fluid buffered at pH values of 7.4, 4.4 and 10.4, respectively, and kept in an incubator at 37°C with 100% humidity. Daily solubility at 1-, 2-, 5-, 14-, 21-, and 30-day intervals and cumulative solubility up to 5-, 14-, and 30-day intervals were calculated. Statistical analysis was carried out with independent-samples t-test, two-way ANOVA and post hoc Tukey tests using SPSS 18. Statistical significance was set at P<0.05. Results. Both WMTA and BD exhibited the highest solubility in acidic pH with 5.4235±0.1834 and 10.7516±0.0639 mean cumulative solubility values at 30-day interval, respectively. At all exposure times, BD was significantly more soluble than WMTA (P<0.001). Conclusion. Acidic periapical environment jeopardized the solubility of both WMTA and BD, affecting their sealing characteristics in clinical applications like perforation repair procedures and blunderbuss canals. [ABSTRACT FROM AUTHOR]

Published

2018

31. Outcome of Endodontic Surgery: A Meta-analysis of the Literature—Part 3: Comparison of Endodontic Microsurgical Techniques with 2 Different Root-end Filling Materials.

Author

Kohli, Meetu R., Berenji, Homayon, Setzer, Frank C., Lee, Su-Min, and Karabucak, Bekir

Subjects

ENDODONTICS, META-analysis, DENTAL fillings, SILICATE cements (Dentistry), CLINICAL trials

Abstract

Introduction The aim of the present study was to investigate the influence of root-end preparation and filling material on endodontic surgery outcome. A systematic review and meta-analysis was conducted to determine the outcome of resin-based endodontic surgery (RES, the use of high-magnification preparation of a shallow and concave root-end cavity and bonded resin-based root-end filling material) versus endodontic microsurgery (EMS, the use of high-magnification ultrasonic root-end preparation and root-end filling with SuperEBA [Keystone Industries, Gibbstown, NJ], IRM [Dentsply Sirona, York, PA], mineral trioxide aggregate [MTA], or other calcium silicate cements). Methods An exhaustive literature search was conducted to identify prognostic studies on the outcome of root-end surgery. Human studies conducted from 1966 to the end of December 2016 in 5 different languages (ie, English, French, German, Italian, and Spanish) were searched in 4 electronic databases (ie, Medline, Embase, PubMed, and Cochrane Library). Relevant review articles on the subject were scrutinized for cross-references. In addition, 5 dental and medical journals ( Journal of Endodontics ; International Endodontic Journal ; Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, and Endodontics ; Journal of Oral and Maxillofacial Surgery ; and International Journal of Oral and Maxillofacial Surgery ) were hand checked dating back to 1975. All abstracts were screened by 3 independent reviewers (H.B., M.K., and F.S.). Strict inclusion-exclusion criteria were defined to identify relevant articles. Raw data were extracted from the full-text review of these selected articles independently by each of the 3 reviewers. In case of disagreement, an agreement was reached by discussion, and qualifying articles were assigned to group RES. For EMS, the same search strategy was performed for the time frame October 2009 to December 2016, whereas up to October 2009 the data were obtained from a previous systematic review with identical criteria and search strategy. Weighted pooled success rates and a relative risk assessment between RES and EMS were calculated. To make a comparison between groups, a random effects model was used. Results Sixty-eight articles were eligible for full-text review. Of these, per strict inclusion exclusion criteria, 14 studies qualified, 3 for RES ( n = 862) and 11 for EMS ( n = 915). Weighted pooled success rates for RES were 82.20% (95% confidence interval [CI], 0.7965–0.8476) and 94.42% for EMS (95% CI, 0.9295–0.9590). This difference was statistically significant ( P < .0005). Conclusions The probability for success for EMS proved to be significantly greater than the probability for success for RES, providing best available evidence on the influence of cavity preparation with ultrasonic tips and/or SuperEBA (Keystone Industries, Gibbstown, NJ), IRM (Dentsply Sirona, York, PA), MTA, or silicate cements as root-end filling material instead of a shallow cavity preparation and placement of a resin-based material. Additional large-scale randomized clinical trials are needed to assess other predictors of outcome. [ABSTRACT FROM AUTHOR]

Published

2018

32. Mineral trioxide aggregate and other bioactive endodontic cements: an updated overview - part I: vital pulp therapy.

Author

Parirokh, M., Torabinejad, M., and Dummer, P. M. H.

Subjects

*SILICATE cements (Dentistry), *PULPOTOMY, *BIOACTIVE compounds, *CALCIUM silicates, *DENTAL pulp capping, *DENTAL radiography, *DENTIN, *CHARTS, diagrams, etc.

Abstract

Mineral trioxide aggregate ( MTA) is a bioactive endodontic cement ( BEC) mainly comprised of calcium and silicate elements. The cement was introduced by Torabinejad in the 1990s and has been approved by the Food and Drug Administration to be used in the United States in 1997. A number of new BECs have also been introduced to the market, including BioAggregate, Biodentine, BioRoot RCS, calcium-enriched mixture cement, Endo- CPM, Endocem, EndoSequence, EndoBinder, EndoSeal MTA, iRoot, MicroMega MTA, MTA Bio, MTA Fillapex, MTA Plus, Neo MTA Plus, Ortho MTA, Quick-Set, Retro MTA, Tech Biosealer and TheraCal LC. It has been claimed that these materials have properties similar to those of MTA without its drawbacks. In this article, the chemical composition and the application of MTA and other BECs for vital pulp therapy ( VPT), including indirect pulp cap, direct pulp cap, partial pulpotomy, pulpotomy and partial pulpectomy, have been reviewed and compared. Based on selected keywords, all papers regarding chemical composition and VPT applications of BECs had been reviewed. Most of the materials had calcium and silicate in their composition. Instead of referring to the cements based on their chemical compositions, we suggest the term 'bioactive endodontic cements ( BECs)', which seems more appropriate for these materials because, in spite of differences in their chemical compositions, bioactivity is a common property for all of them. Numerous articles were found regarding use of BECs as VPT agents for indirect and direct pulp capping, partial pulpotomy and cervical pulpotomy. Most of these investigations used MTA for VPT. In most studies, newly introduced materials have been compared to MTA. Some of the BECs have shown promising results; however, the number of their studies compared to investigations on MTA is limited. Most studies had several methodological shortcomings. Future investigations with rigorous methods and materials are needed. [ABSTRACT FROM AUTHOR]

Published

2018

33. In vitro evaluation of different dental materials used for the treatment of extensive cervical root defects using human periodontal cells.

Author

Michel, Annemarie, Erber, Ralf, Frese, Cornelia, Gehrig, Holger, Saure, Daniel, and Mente, Johannes

Subjects

*IN vitro studies, *DENTAL materials, *PERIODONTAL disease, *MEDICAL statistics, *ADHESION

Abstract

Introduction: Repair materials for extensive cervical root defects may come in direct contact with periodontal tissues. This in vitro study compared the effects of four calcium silicate cements (CSC), one resin-modified glass ionomer cement, and one glass carbomer cement on primary human gingival fibroblasts (HGF), alveolar osteoblasts (HAO), and a human osteoblast cell line (hFOB 1.19). Methods: HGF, HAO, and hFOB were seeded on discoid test specimens. Relative numbers of viable cells were quantitatively assessed after 1 and 24 h for cytotoxicity/adhesion assays and after 4, 24, 48, and 72 h for proliferation assays. Data were statistically analyzed using non-parametric tests (α = 0.05). Results: Relative to the control (100 %), CSC allowed for mean numbers of 71-81 % viable HGF and 80-82 % viable HAO. Then, 64 % of HGF and 56 % of HAO were assessed on GC Fuji II LC. Mean numbers of viable cells were 59-64 % HGF and 67-68 % HAO for GCP Glass Fill specimens. Cells exposed to CSC over 24 h remained viable and even increased in number. Both cell types adhered almost equally well to CSC and GC Fuji II LC. GCP Glass Fill continued to decrease cell viability and adhesion. CSC-based materials and GC Fuji II LC allowed for HGF and hFOB proliferation; however, none of the tested materials specifically stimulated cell proliferation. Conclusions: CSC characterized by low cytotoxicity. GC Fuji II LC shows moderate cytotoxic effects. ProRoot MTA, Harvard MTA, Biodentine, EndoSequence putty, and GC Fuji II LC allow HGF and HAO to adhere and HGF and hFOB to proliferate. GCP Glass Fill decreases cell viability, adhesion, and proliferation. Clinical relevance: CSC remain the paramount biologic choice for the repair of extensive cervical root defects. GC Fuji II LC might be considered in addition to CSC when the defect comprises supracrestal areas and the restoration requires superior aesthetic and mechanical characteristics. [ABSTRACT FROM AUTHOR]

Published

2017

34. In Vitro Screening of the Apatite-Forming Ability, Biointeractivity and Physical Properties of a Tricalcium Silicate Material for Endodontics and Restorative Dentistry

Author

Maria Giovanna Gandolfi, Francesco Siboni, Antonella Polimeni, Maurizio Bossù, Francesco Riccitiello, Sandro Rengo, and Carlo Prati

Subjects

calcium silicate cements, tricalcium silicate, Biodentine, ProRoot MTA, calcium release, calcium hydroxide, calcium phosphate deposits, porosity, solubility, water sorption, microanalysis, Dentistry, RK1-715

Abstract

Aim: Calcium silicate-based materials are hydraulic self-setting materials with physico-chemical properties suitable for endodontic surgery and good biological/clinical outcomes. The study aim was to evaluate the bio-properties (biointeractivity and apatite-forming ability) and selected physical properties (porosity, water sorption, solubility, and setting time) of Biodentine, a tricalcium silicate material for endodontics and restorative dentistry, compared to that of ProRoot MTA (Mineral Trioxide Aggregate) as gold standard material. Methods: Biodentine and ProRoot MTA pastes were prepared and analyzed for calcium release and alkalinizing activity (3 h–28 days), setting time, water sorption, porosity, solubility, surface microstructure and composition, and apatite-forming ability in simulated body fluid. Results: Biodentine showed higher calcium release, alkalinizing activity, and solubility but higher open and apparent porosity, water sorption, and a markedly shorter setting time. Calcium phosphate (CaP) deposits were noted on material surfaces after short ageing times. A CaP coating composed of spherulites was detected after 28 days. The thickness, continuity, and Ca/P ratio of the coating differed markedly between the materials. Biodentine showed a coating composed by denser but smaller spherulites, while ProRoot MTA showed large but less dense aggregates of spherulitic deposits. Conclusions: Biodentine showed a pronounced ability to release calcium and extended alkalinizing activity interlinked with its noticeable porosity, water sorption, and solubility: open porosities provide a broad wet biointeractive surface for the release of the calcium and hydroxyl ions involved in the formation of a CaP mineral. Biodentine is a biointeractive tricalcium silicate material with interesting chemical-physical properties and represents a fast-setting alternative to the conventional calcium silicate MTA-like cements.

Published

2013

35. Biocompatibility of a new nanomaterial based on calcium silicate implanted in subcutaneous connective tissue of rats

Author

Petrović Violeta, Opačić-Galić Vanja, Jokanović V., Jovanović M., Basta-Jovanović Gordana, and Živković S.

Subjects

biocompatibility, calcium silicate cements, MTA, subcutaneous tissue, Veterinary medicine, SF600-1100

Abstract

The aim of the study was to investigate rat connective tissue response to a new calcium silicate system 7, 15, 30 and 60 days after implantation. Twenty Wistar albino male rats received two tubes half-filled with a new calcium silicate system (NCSS) or MTA in subcutaneous tissue. The empty half of the tubes served as controls. Five animals were sacrificed after 7, 15, 30 and 60 days and samples of the subcutaneous tissue around implanted material were submitted to histological analysis. The intensity of inflammation was evaluated based on the number of inflammatory cells present. Statistical analysis was performed using one way ANOVA and Holm Sidak's multiple comparison tests. Mild to moderate inflammatory reaction was observed after 7, 15 and 30 days around a NCSS while mild inflammatory reaction was detected after 60 days of implantation. In the MTA group, mild to moderate inflammatory reaction was found after 7 and 15 days while mild inflammatory reaction was present after 30 and 60 days. There was no statistically significant difference in the intensity of inflammatory reactions between the tested materials and control groups in any experimental period (ANOVA p>0.05). Regarding the intensity of inflammatory reactions at different experimental periods, a statistically significant difference was observed between 7 and 30 days, 7 and 60 days and 15 to 60 days for both materials. For the controls, a statistically significant difference was found between 7 and 60 days and 15 and 60 days of the experiment (Holm Sidak < p 0.001). Subcutaneous tissue of rats showed good tolerance to a new calcium silicate system. Inflammatory reaction was similar to that caused by MTA. [Projekat Ministarstva nauke Republike Srbije, br. 172026]

Published

2012

36. Effects of a New Bioceramic Material on Human Apical Papilla Cells

Author

Diana B. Sequeira, Catarina M. Seabra, Paulo J. Palma, Ana Luísa Cardoso, João Peça, and João Miguel Santos

Subjects

biocompatibility, regenerative endodontics, cytotoxicity, calcium silicate cements, PulpGuard, SCAPS, Biotechnology, TP248.13-248.65, Medicine (General), R5-920

Abstract

Background: The development of materials with bioregenerative properties is critically important for vital pulp therapies and regenerative endodontic procedures. The aim of this study was to evaluate the cytocompatibility and cytotoxicity of a new endodontic biomaterial, PulpGuard, in comparison with two other biomaterials widely used in endodontic procedures, ProRoot Mineral Trioxide Aggregate (MTA) and Biodentine. Methods: Apical papilla cells (APCs) were isolated from third molars with incomplete rhizogenesis from patients with orthodontic indication for dental extraction. Cultured APCs were incubated for 24, 48, or 72 h with different dilutions of eluates prepared from the three materials. Cellular viability, mobility, and proliferation were assessed in vitro using the Alamar Blue assay and a wound-healing test. The cells were also cultured in direct contact with the surface of each material. These were then analyzed via Scanning Electron Microscopy (SEM), and the surface chemical composition was determined by Energy-Dispersive Spectroscopy (EDS). Results: Cells incubated in the presence of eluates extracted from ProRoot MTA and PulpGuard presented rates of viability comparable to those of control cells; in contrast, undiluted Biodentine eluates induced a significant reduction of cellular viability. The wound-healing assay revealed that eluates from ProRoot MTA and PulpGuard allowed for unhindered cellular migration and proliferation. Cellular adhesion was observed on the surface of all materials tested. Consistent with their disclosed composition, EDS analysis found high relative abundance of calcium in Biodentine and ProRoot MTA and high abundance of silicon in PulpGuard. Significant amounts of zinc and calcium were also present in PulpGuard discs. Concerning solubility, Biodentine and ProRoot MTA presented mild weight loss after eluate extraction, while PulpGuard discs showed significant water uptake. Conclusions: PulpGuard displayed a good in vitro cytocompatibility profile and did not significantly affect the proliferation and migration rates of APCs. Cells cultured in the presence of PulpGuard eluates displayed a similar profile to those cultured with eluates from the widely used endodontic cement ProRoot MTA.

Published

2018

37. Efficacy of Chitosan Scaffolded Calcium Silicate-based Cements for Treating Internal Resorption Defects with Perforation: In Vitro Study.

Author

Venkatesh G, Arumugam C, Ramesh SR, Balaji D, Rajendran MR, and Balaji L

Subjects

Humans, Oxides chemistry, Calcium Compounds therapeutic use, Calcium Compounds chemistry, Silicates therapeutic use, Silicates chemistry, Biocompatible Materials, Drug Combinations, Calcium analysis, Chitosan therapeutic use

Abstract

Aim: The present study aimed to evaluate the efficacy of chitosan scaffold combined with calcium silicate cements in the management of internal resorption with perforation., Materials and Methods: Internal resorption cavities were simulated in 20 human permanent maxillary incisors that were then divided into two groups: group I - biodentine and group II - chitosan scaffold combined with biodentine. The samples were evaluated for the mineralization activity at the end of the 7th day and 14th day using scanning electron microscopy-energy dispersive X-ray (SEM-EDX) analysis. The data were recorded, tabulated, and then statistically analyzed., Results: From the SEM-EDX analysis, the mean score of calcium and phosphorus ion uptake by the material was obtained. Statistical analysis by nonparametric Mann-Whitney test showed that there was statistically significant difference in calcium ion uptake at the end of the 7th day ( p = 0.016) and at the end of 14th day ( p = 0.043) between the group biodentine and group chitosan scaffold combined with biodentine ( p < 0.05)., Conclusion: In this present study, the use of chitosan scaffolds combined with biodentine showed a statistically significant difference in the mineralization activity when compared with pure biodentine. These scaffolded biomaterials exhibited greater potential for mineralization in vitro which can be efficiently used for the management of teeth with internal resorption with perforation. Further clinical trials are required for the understanding of their behavior in real-world scenarios., Clinical Significance: Calcium silicate cements have often exhibited defective hard tissue barrier formation and hence there is a pressing need to search for newer biomaterials that can overcome these shortcomings. Scaffolded biomaterials provide a controlled microcellular environment for bioactivity, and they were found to be efficient in the remineralization of tooth structure. The present study findings indicate that these chitosan scaffolds can be efficiently used in combination with calcium silicate cements for the management of internal resorption with perforation to enhance the treatment outcome.

Published

2023

38. The effect of human blood on the setting and surface micro-hardness of calcium silicate cements.

Author

Song, Minju, Yue, Wonyoung, Kim, Soyeon, Kim, Wooksung, Kim, Yaelim, Kim, Jeong-Woong, and Kim, Euiseong

Subjects

*BLOOD, *CALCIUM silicates, *MICROHARDNESS, *POLYETHYLENE, *X-ray diffraction, *SCANNING electron microscopes

Abstract

Objectives: The purpose of the present study was to evaluate the effects of human blood on the setting and microhardness of calcium silicate cements. Materials and methods: Three types of silicate-based cements were used: ProRoot MTA (PMTA), OrthoMTA (OMTA), and RetroMTA (RMTA). Mixed cement was placed into polyethylene molds with lengths of 2 and 4 mm. After storage for 4 days under three different storage conditions, i.e., saline, saline after 5 min of human blood, and human blood, the polyethylene molds were removed. With the specimens set, the surface microhardness was measured using a Vickers microhardness tester, crystalline structure was analyzed with X-ray diffraction (XRD), and the surface characteristics were examined with scanning electron microscopy (SEM). Results: All specimens of 4 mm in length were set with all materials, and the blood groups exhibited lower microhardnesses than did the saline groups ( p < 0.05). Among the 2-mm specimens that were stored in blood, the numbers of specimens that set were significantly different across the materials ( p < 0.001). Regarding the microhardnesses of the RMTA and OMTA groups, there were no significant differences between storage conditions. For the PMTA group, only one specimen that was set in the blood group exhibited reduced microhardness. XRD showed changes of crystalline structure in the PMTA and OMTA blood group, whereas RMTA did not. SEM analysis revealed more rounded and homogeneous structures and demonstrated a clear lack of acicular or needle-like crystals in the PMTA and OMTA blood groups, while RMTA did not reveal substantial differences between the saline- and blood-stored groups. Conclusion: Blood contamination detrimentally affected the surface microhardnesses of all materials; furthermore, among the 2-mm specimens, blood contamination interfered with normal setting. Therefore, RMTA might be a more suitable choice when blood contamination is unavoidable due to limited depth. Clinical relevance RetroMTA might be a more suitable choice in situations in which blood contamination is unavoidable. [ABSTRACT FROM AUTHOR]

Published

2016

39. Effects of mixing techniques and dentin moisture conditions on push-out bond strength of ProRoot MTA and Biodentine.

Author

Uzunoglu, Emel, Aktemur Turker, Sevinc, Uyanik, M. Ozgur, and Nagas, Emre

Subjects

*DENTIN, *MOISTURE, *BOND strengths, *CALCIUM silicates, *DENTAL cements, *ANALYSIS of variance

Abstract

Objective:To evaluate the influence of manual and mechanical mixing techniques as well as the effects of moisture on the push-out bond strength of ProRoot MTA (Dentsply Tulsa Dental, Tulsa, OK, USA) and Biodentine (Septodont, Saint Maur des Fosses, France) to radicular dentin. Material and methods:Two hundred and forty dentin discs were assigned into three groups with respect to the moisture condition tested: (1) dry, (2) paper points, (3) wet. The discs were further divided into four subgroups according to the calcium silicate cements (CSCs) and mixing techniques used: (1) ProRoot MTA mixed manually, (2) ProRoot MTA mixed mechanically, (3) Biodentine mixed manually, and (4) Biodentine mixed mechanically. Bond strengths of the cements to root canal dentin were measured using a push-out test setup. The data were statistically analyzed using three-way ANOVA and Bonferronipost hoctestp = 0.05. Results:The data indicated that the push-out bond strength values were significantly affected by CSCs, mixing techniques, and moisture conditions (p < 0.001). Dry conditions caused a significant decrease in bond strength values for both CSCs (p < 0.001). The mean bond strength of Biodentine was significantly higher than that of ProRoot MTA, regardless of the mixing techniques and moisture conditions (p < 0.001). Mechanical mixing favored bond strength values statistically compared to manual mixing (p < .001). Conclusion:The mixing techniques and moisture conditions have an effect on the push-out bond strengths of ProRoot MTA and Biodentine. Dry samples and manual mixing of cements deteriorate the push-out bond strengths values. [ABSTRACT FROM AUTHOR]

Published

2016

40. Diametral tensile strength of novel fast-setting calcium silicate cement.

Author

RANJKESH, Bahram, ISIDOR, Flemming, DALSTRA, Michel, and LØVSCHALL, Henrik

Subjects

CALCIUM silicates, TENSILE strength, FLUORIDES, DENTAL crowns, DENTAL cements

Abstract

Novel fast-setting calcium silicate cement with fluoride (CSC) has been developed for potential applications in tooth crown. The aim of this study was to test the diametral tensile strength (DTS) of different CSC compositions in humid condition on day1, 28, and 180. We tested 'bond CSC' with 3.5% fluoride and no radiocontrast, 'CSC' with 3.5% fluoride and 10% radiocontrast, 'ultrafast CSC' with 3.5% fluoride and 20% radiocontrast, 'high fluoride CSC' with 15% fluoride and 25% radiocontrast, Biodentine, and MTA. We filled the cements after mixing to cylindrical molds. Specimens were stored in >95% humidity. DTS was measured at each time point. CSC compositions had statistically higher DTS compared to MTA and Biodentine on day1. Bond CSC showed higher DTS versus all cements, except CSC, at all time points. DTS of all cements, except Biodentine, significantly increased in humid condition on day28 and day180 compared to day1. [ABSTRACT FROM AUTHOR]

Published

2016

41. Cytotoxicity and osteogenic potential of silicate calcium cements as potential protective materials for pulpal revascularization.

Author

Bortoluzzi, Eduardo A., Niu, Li-na, Palani, Chithra D., El-Awady, Ahmed R., Hammond, Barry D., Pei, Dan-dan, Tian, Fu-cong, Cutler, Christopher W., Pashley, David H., and Tay, Franklin R.

Subjects

*CELL-mediated cytotoxicity, *BONE growth, *DENTAL cements, *DENTAL pulp, *REVASCULARIZATION (Surgery), *MESENCHYMAL stem cells, *CELL differentiation

Abstract

Objectives In pulpal revascularization, a protective material is placed coronal to the blood clot to prevent recontamination and to facilitate osteogenic differentiation of mesenchymal stem cells to produce new dental tissues. Although mineral trioxide aggregate (MTA) has been the material of choice for clot protection, it is easily displaced into the clot during condensation. The present study evaluated the effects of recently introduced calcium silicate cements (Biodentine and TheraCal LC) on the viability and osteogenic differentiation of human dental pulp stem cells (hDPSCs) by comparing with MTA Angelus. Methods Cell viability was assessed using XTT assay and flow cytometry. The osteogenic potential of hDPSCs exposed to calcium silicate cements was examined using qRT-PCR for osteogenic gene expressions, alkaline phosphatase enzyme activity, Alizarin red S staining and transmission electron microscopy of extracellular calcium deposits. Parametric statistical methods were employed for analyses of significant difference among groups, with α = 0.05. Results The cytotoxic effects of Biodentine and TheraCal LC on hDPSCs were time- and concentration-dependent. Osteogenic differentiation of hDPSCs was enhanced after exposure to Biodentine that was depleted of its cytotoxic components. This effect was less readily observed in hDPSCs exposed to TheraCal LC, although both cements supported extracellular mineralization better than the positive control (zinc oxide–eugenol-based cement). Significance A favorable tissue response is anticipated to occur with the use of Biodentine as a blood clot-protecting material for pulpal revascularization. Further investigations with the use of in vivo animal models are required to validate the potential adverse biological effects of TheraCal LC on hDPSCs. [ABSTRACT FROM AUTHOR]

Published

2015

42. Calcium silicate/calcium phosphate biphasic cements for vital pulp therapy: chemical-physical properties and human pulp cells response.

Author

Gandolfi, M., Spagnuolo, G., Siboni, F., Procino, A., Rivieccio, V., Pelliccioni, G., Prati, C., and Rengo, S.

Subjects

*CALCIUM silicates, *CALCIUM phosphate, *DENTAL cements, *PULPOTOMY, *ODONTOBLASTS, *CELL differentiation

Abstract

Objectives: The aim was to test the properties of experimental calcium silicate/calcium phosphate biphasic cements with hydraulic properties designed for vital pulp therapy as direct pulp cap and pulpotomy. Methods: CaSi-αTCP and CaSi-DCDP were tested for ion-releasing ability, solubility, water sorption, porosity, ability to nucleate calcium phosphates, and odontoblastic differentiation-alkaline phosphatase (ALP) and osteocalcin (OCN) upregulation-of primary human dental pulp cells (HDPCs). Results: The materials showed high Ca and OH release, high open pore volume and apparent porosity, and a pronounced ability to nucleate calcium phosphates on their surface. HDPCs treated with CaSi-αTCP showed a strong upregulation of ALP and OCN genes, namely a tenfold increase for OCN and a threefold increase for ALP compared to the control cells. Conversely, CaSi-DCDP induced a pronounced OCN gene upregulation but had no effect on ALP gene regulation. Conclusions: Both cements showed high biointeractivity (release of Ca and OH ions) correlated with their marked ability to nucleate calcium phosphates. CaSi-αTCP cement proved to be a potent inducer of ALP and OCN genes as characteristic markers of mineralization processes normally poorly expressed by HDPCs. Clinical relevance: Calcium silicate/calcium phosphate cements appear to be attractive new materials for vital pulp therapy as they may provide odontogenic/dentinogenic chemical signals for pulp regeneration and healing, and dentin formation in regenerative endodontics. [ABSTRACT FROM AUTHOR]

Published

2015

43. Calcium silicate and calcium hydroxide materials for pulp capping: biointeractivity, porosity, solubility and bioactivity of current formulations.

Author

Gandolfi, Maria Giovanna, Siboni, Francesco, Botero, Tatiana, Bossù, Maurizio, Riccitiello, Francesco, and Prati, Carlo

Subjects

*CALCIUM hydroxide, *SILICATE cements (Dentistry), *SILICATE minerals, *DENTAL pulp capping, *HIGH-calcium diet

Abstract

Aim: The chemical-physical properties of novel and long-standing calcium silicate cements versus conventional pulp capping calcium hydroxide biomaterials were compared. Methods: Calcium hydroxide-based (Calxyl, Dycal, Life, Lime-Lite) and calcium silicate-based (ProRoot MTA, MTA Angelus, MTA Plus, Biodentine, Tech Biosealer capping, TheraCal) biomaterials were examined. Calcium and hydroxyl ion release, water sorption, interconnected open pores, apparent porosity, solubility and apatite-forming ability in simulated body fluid were evaluated. Results: All calcium silicate materials released more calcium. Tech Biosealer capping, MTA Plus gel and Biodentine showed the highest values of calcium release, while Lime-Lite the lowest. All the materials showed alkalizing activity except for Life and Lime-Lite. Calcium silicate materials showed high porosity values: Tech Biosealer capping, MTA Plus gel and MTA Angelus showed the highest values of porosity, water sorption and solubility, while TheraCal the lowest. The solubility of water-containing materials was higher and correlated with the liquid-to-powder ratio. Calcium phosphate (CaP) deposits were noted on materials surfaces after short aging times. Scant deposits were detected on Lime-Lite. A CaP coating composed of spherulites was detected on all calcium silicate materials and Dycal after 28 days. The thickness, continuity and Ca/P ratio differed markedly among the materials. MTA Plus showed the thickest coating, ProRoot MTA showed large spherulitic deposits, while TheraCal presented very small dense spherulites. Conclusions: calcium silicate-based cements are biointeractive (ion-releasing) bioactive (apatite-forming) functional biomaterials. The high rate of calcium release and the fast formation of apatite may well explain the role of calcium silicate biomaterials as scaffold to induce new dentin bridge formation and clinical healing. [ABSTRACT FROM AUTHOR]

Published

2015

44. AN UPDATED REVIEW OF MINERAL TRIOXIDE AGGREGATE PART-2: BIOLOGICAL PROPERTIES, CLINICAL APPLICATIONS AND ALTERNATE MATERIALS.

Author

Khan, Shahbaz, Fareed, Muhammad Amber, Kaleem, Muhammad, Ud Din, Shahab, and Iqbal, Kefi

Subjects

SILICATE cements (Dentistry), DENTAL pulp capping, BIOACTIVE compounds

Abstract

The aims of Part-2 updated review are to present biological properties, clinical applications and comparisons of Mineral Trioxide Aggregate (MTA) with other alternate materials. MTA is a bioactive material that does not possess any cytotoxicity, neurotoxicity and mutagenicity. Clinically MTA performs better compared to other endodontic materials therefore, advocated as material of choice for various endodontic applications such as, pulp capping, pulpotomy, apexification, perforation repair, repair of root resorption and root end filling. MTA holds excellent sealing ability, biocompatibility, alkalinity and good interaction with mineral tissue forming cells to induce mineralization.The ability of MTA to induce mineral tissue formation is similar to calcium hydroxide however is more fast, thick and with uniform structural integrity. Difficult handling characteristics extended setting time, discoloration and higher cost are main shortcomings of MTA therefore, number of modified MTA products have been introduced (MTA Angelus, MTA Bio, Biodentine, DiaRoot Bioaggregate and MTA Plus). These alternate materials do possess some improvements over MTA however; considerable evaluation in laboratory and in clinical trials is required to improve clinical practices. [ABSTRACT FROM AUTHOR]

Published

2015

45. In vitro comparison of induction capacity and biomineralization ability of mineral trioxide aggregate and a bioceramic root canal sealer.

Author

Güven, E. P., Taşlı, P. N., Yalvac, M. E., Sofiev, N., Kayahan, M. B., and Sahin, F.

Subjects

*PIT & fissure sealants (Dentistry), *DENTAL ceramics, *DENTAL materials, *DENTAL adhesives, *BIOMINERALIZATION

Abstract

Aim To compare the effect of mineral trioxide aggregate (MTA) and iRoot SP, a bioceramic root canal sealer, on the cell viability, hard tissue deposition capacity and odontogenic differentiation of human tooth germ stem cells ( hTGSCs). Methodology The dental materials MTA, iRoot SP and Dycal were packed into Teflon rings and placed on transwell inserts for toxicity evaluations by the MTS assay on days 3 and 7. Dycal was used as a positive control for the cell viability assay. Teflon rings were cocultured with hTGSCs, followed by the induction of odontogenic differentiation. The odontogenic differentiation of hTGSCs and biomineralization ability of the materials were evaluated by analysing the mRNA expression levels of dentine sialophosphoprotein (DSPP) and collagen type 1A (COL1A) by real-time polymerase chain reaction expression analysis, measurement of alkaline phosphatase (ALP) activity and visualization of calcium deposits by von Kossa staining. Results MTA and iRoot SP exhibited no cytotoxicity, but Dycal caused cytotoxicity ( P < 0.05) of almost all of the cells after 7 days. MTA significantly stimulated ( P < 0.05) the odontogenic differentiation of hTGSCs compared with iRoot SP. MTA and iRoot SP increased ( P < 0.05) the mRNA levels of COL1A and DSPP mRNA compared with noninduced hTGSCs, which served as a negative control (NC). iRoot SP, however, significantly decreased ( P < 0.05) COL1A and DSPP mRNA expression levels compared with the PC. Conclusion MTA and iRoot SP induced hTGSC differentiation into odontoblast-like cells, but MTA might provide more inductive potential and hard tissue deposition compared with iRoot SP. [ABSTRACT FROM AUTHOR]

Published

2013

46. The effect of smear layer on the push-out bond strength of root canal calcium silicate cements.

Author

EL-Ma’aita, Ahmad M., Qualtrough, Alison J.E., and Watts, David C.

Subjects

*DENTAL cements, *ROOT canal treatment, *CALCIUM silicates, *DENTAL bonding, *DENTAL extraction, *MECHANICAL behavior of materials

Abstract

Introduction: The aim of this study was to evaluate the effect of smear layer removal on the push-out bond strength between radicular dentin and three calcium silicate cements (CSC) in comparison with gutta percha and sealer. Methods: Eighty human anterior extracted teeth were decoronated, cleaned and shaped to size 50/0.05 apically and randomly divided into 2 major groups: (A) smear layer preserved, and (B) smear layer removed using irrigation with 17% EDTA. Roots within each major group were further divided into 4 subgroups according to the obturation material used: (1) ProRoot MTA, (2) Biodentine, (3) Harvard MTA, (4) Gutta percha and AH-plus sealer. Obturated roots were stored in synthetic tissue fluid for 7 days to allow maximum setting of the root filling materials. Three 2-mm-thick slices were obtained from each root at different section levels (coronal, middle, apical). The canal diameters and slice thickness were measured, and the adhesion surface area for each slice was calculated. Push-out bond strength test was carried out using a universal testing machine. The bond failure mode was assessed under an optical microscope at 40×. Results: The mean push-out bond strength in groups 1A, 2A and 3A were 7.54 (±1.11), 7.64 (±1.08) and 8.79 (±1.55)MPa respectively, while those for groups 1B, 2B and 3B were 6.58 (±1.13), 6.47 (±1.08), 7.71 (±1.81)MPa, respectively. In the gutta percha and sealer groups the push-out bond strength means were: 1.98 (±0.48) and 2.09 (±0.51)MPa in the preserved and removed smear layer groups respectively. The push-out strength values were significantly reduced when the smear layer was removed in the CSC groups (P <0.05) while no significant difference was detected in the gutta percha and sealer groups. Conclusions: Based on the conditions of this ex vivo study, it can be concluded that smear layer removal is detrimental to the bond strength between calcium silicate cements and dentin. [ABSTRACT FROM AUTHOR]

Published

2013

47. Physical Properties of MTA Fillapex Sealer.

Author

Vitti, Rafael Pino, Prati, Carlo, Silva, Emmanuel João Nogueira Leal, Sinhoreti, Mário Alexandre Coelho, Zanchi, Cesar Henrique, de Souza e Silva, Manuela Gonçalves, Ogliari, Fabrício Aulo, Piva, Evandro, and Gandolfi, Maria Giovanna

Subjects

SURFACE sealers, ABSORPTION, EPOXY resins, POLYSTYRENE, ANALYSIS of variance, POLYVINYL chloride, ENDODONTICS, ROOT canal treatment

Abstract

Abstract: Introduction: The aim of this study was to evaluate and compare several physicochemical properties including working and setting times, flow, solubility, and water absorption of a recent calcium silicate–based sealer (MTA Fillapex; Angelus, Londrina, Brazil) and an epoxy resin–based sealer (AH Plus; Dentsply, Konstanz, Germany). Methods: The materials were handled following the manufacturer's instructions. The working time and flow were tested according to ISO 6876:2001 and the setting time according to American Society for Testing and Materials C266. For solubility and water absorption tests, the materials were placed into polyvinyl chloride molds (8 × 1.6 mm). The samples (n = 10 for each material and test) were placed in a cylindrical polystyrene-sealed container with 20 mL deionized water at 37°C. At 1, 7, 14, and 28 days, the samples were removed from the solutions and blotted dry for solubility and water absorption tests. The data were analyzed using 1-way analysis of variance with the Tukey test (P < .05). Results: MTA Fillapex showed the lowest values of flow, working and setting times, solubility, and water absorption (P < .05). The solubility and water absorption increased significantly over time for both materials in a 1- to 28-day period (P < .05). Conclusions: MTA Fillapex showed suitable physical properties to be used as an endodontic sealer. [Copyright &y& Elsevier]

Published

2013

48. Setting properties and biocompatibility of dicalcium silicate with varying additions of tricalcium aluminate.

Author

Liu, Weining and Chang, Jiang

Subjects

*BIOCOMPATIBILITY, *CALCIUM aluminate, *CALCIUM silicates, *APATITE, *BIOACTIVE compounds, *MATERIALS compression testing

Abstract

This study sought to prepare biphasic mixtures by adding tricalcium aluminate (Ca3Al2O6) into dicalcium silicate (Ca2SiO4) and to evaluate the effect of Ca3Al2O6 on setting properties and biocompatibility of the Ca2SiO4/Ca3Al2O6 mixtures as compared to pure Ca2SiO4. The results indicated that the addition of Ca3Al2O6 into Ca2SiO4 reduced the setting time and improved the compressive strength. Furthermore, Ca2SiO4/Ca3Al2O6 mixtures were bioactive and biocompatible, and had a stimulatory effect on the L929 cell growth when the content of Ca3Al2O6 was below 10%. Therefore, the mixtures with 10% Ca3Al2O6 produced the best compromise between setting and in vitro biological properties. [ABSTRACT FROM AUTHOR]

Published

2012

49. The use of calcium-silicate cements to reduce dentine permeability

Author

Gandolfi, M.G., Iacono, F., Pirani, C., and Prati, C.

Subjects

*CALCIUM silicates, *ETHYLENEDIAMINETETRAACETIC acid, *DENTIN, *ARTIFICIAL saliva, *PERMEABILITY, *CEMENT, *MOLARS

Abstract

Abstract: Objective: To evaluate in vitro the effectiveness of different calcium-silicate (CS) cements specifically designed for dentine permeability reduction. Design: Fifty dentine discs were prepared from caries free human molars extracted for surgical reasons. The treatment consisted in applying two different experimental CS cements on dentine surface. Dentine discs treated only with EDTA served as negative control group. Treatment with D-Sense Crystal and Clearfil S3-Bond served as positive control groups. After treatment samples were immersed in artificial saliva. The quantitative changes in the hydraulic conductance (i.e. permeability) through dentinal tubules were quantified using a hydrostatic device working at 6.9kPa. Dentine permeability was measured immediately after EDTA treatment, 10min and 1 week after treatment application and immersion of dentine samples in artificial saliva. SEM/EDX analyses were performed to obtain qualitative information on dentine morphology and surface deposits. Results: The experimental CS cements reduced dentine permeability immediately after application and also 10min and 1 week after the immersion of the specimens in artificial saliva. D-Sense Crystal and Clearfil S3-Bond showed higher levels of dentine permeability after 1 week of immersion in artificial saliva. Conclusions: CS cements reduced dentine permeability in vitro even after immersion in artificial saliva, which makes them new valuable candidates for treatment of dentine hypersensitivity in vivo. [Copyright &y& Elsevier]

Published

2012

50. MTA and F-doped MTA cements used as sealers with warm gutta-percha. Long-term study of sealing ability.

Author

Gandolfi, M. G. and Prati, C.

Subjects

*TEETH, *CALCIUM silicates, *SODIUM fluoride, *FLUORIDES, *ELECTRON microscopy, *DENTAL pulp cavities, *ROOT canal treatment, *THERAPEUTICS

Abstract

Gandolfi MG, Prati C. MTA and F-doped MTA cements used as sealers with warm gutta-percha. Long-term study of sealing ability. International Endodontic Journal, 43, 889–901, 2010. Aim To evaluate the long-term sealing ability (up to 6 months) of two experimental calcium silicate MTA cements used as root canal sealers in association with warm gutta-percha. Methodology Calcium silicate (MTA) and calcium-fluoro-silicate powders were prepared. Sodium fluoride was included in FMTA (Fluoride-doped Mineral Trioxide Aggregate) as an expansive and retardant agent. Single-rooted teeth were instrumented with NiTi rotary instruments, filled with warm gutta-percha in association with one of the experimental sealers or with AH Plus as a control ( n = 20 for each sealer) and stored at 37 °C. Sealing was assessed at 24, 48 h, 1, 2 weeks and 1, 3, 6 months by a fluid filtration method. Scanning electron microscopy with energy dispersive analysis (SEM/EDX) was used to study the dentine/sealer interface of roots stored for 6 months and the surface of cement disks stored for 24 h. Results All sealers revealed a statistically significant reduction ( P < 0.05) in fluid filtration after the first 2 weeks. No statistically significant differences were observed between FMTA and AH Plus at all analysis times. At short times (24, 48-h), no statistically significant differences were found between the experimental cements and AH Plus. At long-term evaluations (1, 3, 6 months), FMTA and AH Plus sealed significantly better ( P < 0.05) than MTA. FMTA was associated with lower fluid filtration rates, and the seal was stable from 48 h to 6 months, thus proving the most effective material. Scanning electron microscopy with energy dispersive analysis of root sections filled with calcium silicate sealers revealed the formation of a blend layer of gutta-percha and cement consequent to the warm gutta-percha condensation technique. Scanning electron microscopy with energy dispersive analysis of 24-h-stored disks identified a Ca-rich coating on the outer surface consisting of globular particles (calcium hydroxide and calcium carbonate), and a deeper internal Ca- and Si-rich region consisting of needle-like ettringite crystals and round formations of calcium silicate hydrate gel. Conclusion Fluoride-doped MTA demonstrated stable sealing during a period of up to 6 months and significantly better than conventional calcium silicate MTA cements and comparable to AH Plus. The study supports the suitability of calcium silicate MTA cements as sealers in association with warm gutta-percha for root filling. [ABSTRACT FROM AUTHOR]

Published

2010