Your search keyword '"Glass ionomer cement"' showing total 6,597 results

1. Evaluation of dental cements derived from mixtures of highly reactive ionomer glasses and bottle glass: Cement manipulation, mechanical, fluoride ion releasing, radiopaque and setting properties.

Author

Osiro, Olivia Awino, Tiskaya, Melissa, Shahid, Saroash, and Hill, Robert Graham

Subjects

*FLUORIDE glasses, *GLASS bottles, *DENTAL cements, *ACRYLIC acid, *DEIONIZATION of water

Abstract

To evaluate the mechanical properties, fluoride release, radiopacity, and setting characteristics of dental cements derived from highly reactive ionomer glasses and bottle glass mixtures. Two highly reactive glass series, LG99 and LG117, were synthesized, milled, sieved, and characterized using XRD and laser particle size analysis. These glasses were mixed with predetermined ratios of ground bottle glass, poly(acrylic acid), and aqueous tartaric acid to form glass ionomer cements. The cements' working time (WT), setting time (ST), fluoride release, radiopacity, compressive strength (CS), and elastic modulus (EM) were evaluated. Mean differences in CS were analyzed using multivariate ANOVA with Tukey's post hoc test at p = 0.05. The WT and ST for both groups ranged from 1.5 to 2.5 min. LG99 series cements showed significantly higher CS (∼65 MPa) and EM (∼2 GPa) than LG117 series (p < 0.05). Both series showed similar fluoride release profiles, peaking at 1.2 mmol/L at 28 days. Radiopacity for LG99 ranged from 0.97 to 1.34, while LG117 ranged from 0.60 to 0.95. Solid state 27Al magic-angle spinning-nuclear magnetic resonance (MAS NMR) confirmed the presence of Al(IV) and Al(VI), indicating setting completion by one day for both series. Bottle glass showed a chemical shift at 55.8 ppm, overlapping with LG99′s Al(IV) signal. The 19F MAS NMR spectra revealed Al-F and F-Sr(n) species in all glasses, with LG117 forming CaF 2 after one day in deionized water. Mixtures of highly reactive ionomer glass and bottle glass produced cements with satisfactory properties for dental applications. Further research is needed to optimize their formulation and properties. [ABSTRACT FROM AUTHOR]

Published

2024

2. Comparative evaluation of surface roughness and bacterial adhesion on two bioactive cements: an in-vitro study.

Author

Dey, Pallabi, Suprabha, Baranya Shrikrishna, Suman, Ethel, Natarajan, Srikant, Shenoy, Ramya, and Rao, Arathi

Subjects

DENTAL resins, IN vitro studies, COLONY-forming units assay, BIOFILMS, SURFACE properties, BACTERIAL physiology, STREPTOCOCCUS mutans, DENTAL cements, DESCRIPTIVE statistics, TISSUE culture, RESEARCH methodology, CYTOMETRY, SCANNING electron microscopy, ORGANIC compounds, COMPARATIVE studies, TIME, DENTAL glass ionomer cements

Abstract

Background: Dental restorative materials are recognized as artificial niches that facilitate the adherence and accumulation of oral microorganisms. To mitigate oral diseases and extend the lifespan of restorations, it is advantageous to use dental materials that exhibit low susceptibility to bacterial adhesion. Objective: To evaluate and compare bacterial adhesion on two bioactive restorative materials, a glass hybrid restorative, and an alkasite with a nanohybrid resin composite as a positive control. The secondary objectives were to compare the surface roughness (SR) of the materials and determine the correlation between the bacterial adhesion and the SR. Materials and methods: The samples consisted of 33 polished discs of each material: Group A: Tetric® N-Ceram (nanohybrid resin composite), Group B: Equia Forte™ HT Fil (glass hybrid restorative) and Group C: Cention N® (alkasite). Streptococcus mutans cultures were inoculated and after 24-hours of incubation, bacterial adhesion was measured by measuring optical density (OD) and number of colony forming units (CFUs). After 96-hours incubation, the bacterial cell count was determined using scanning electron microscopy (SEM). SR was assessed using surface profilometer. Results: Alkasite had significantly lower OD and CFUs (p < 0.001 and p = 0.015 respectively). According to the SEM analysis, the glass hybrid restorative had lower mean bacterial cell count with no significant difference between the groups. The nanohybrid composite had the smoothest surface that was significantly lower than the alkasite and glass hybrid restorative (p = 0.002). None of the groups demonstrated a correlation between bacterial adhesion and SR. Conclusion: Alkasite impedes bacterial adhesion better than the glass hybrid restorative and nanohybrid composite, while smoother surfaces are achieved with the nanohybrid composite. [ABSTRACT FROM AUTHOR]

Published

2024

3. Evaluation of Setting Time, Compressive Strength, Microleakage and Antibacterial Properties of Nano Hydroxyapatite Incorporated GIC: An In-vitro Study.

Author

CHOUGAONKAR, AKSHADA, MASIH, UPDESH, MANKER, ABHILASHA, GAUTAM, NEELESH, and SONI, NIDHI

Subjects

*COMPRESSIVE strength, *ONE-way analysis of variance, *MOLARS, *HYDROXYAPATITE, *PEDIATRIC dentistry, *ORAL hygiene products, *GINGER

Abstract

Introduction: Glass Ionomer Cement (GIC) is widely used as a restorative material, but it still exhibits some limitations that pose significant drawbacks in clinical use. The composition of Hydroxyapatite (HA) mimics the inorganic fraction of mineralised tissues such as bones and teeth. HA possesses osteoconductive and bioactive properties, making it favourable for orthopaedic and dental applications. Aim: The aim of this study was to evaluate and compare the setting time, compressive strength, microleakage and antibacterial properties of nano-HA incorporated GIC (NHa-GIC) at various concentrations with Type-II GIC. Materials and Methods: This in-vitro study was conducted in the Department of Paediatric and Preventive Dentistry at Sri Aurobindo College of Dentistry in Indore, Madhya Pradesh, India, for a duration of nine months, from May 2023 to January 2024. The study comprised five study groups as follows: Group-1-Type-II GIC (control), Group-2-NHA-GIC 4%, Group-3-NHA-GIC 8%, Group-4-NHA-GIC 10% and Group-5-NHA-GIC 15%. A total of 50 acrylic moulds containing the test material and Type-II GIC, with 10 in each group (n=10), were prepared to record the setting time, which was tested using a Gillmore needle. The compressive strength was checked using a Universal Testing Machine. Additionally, 50 primary molars were selected according to inclusion and exclusion criteria and randomly divided into five groups (n=10) to evaluate microleakage. Microleakage was assessed using the dye penetration method under a stereomicroscope. For antibacterial properties, 50 samples (n=10) were taken for each strain, i.e., Strain A: S. mutans and Strain B: L. fermentum and the disk diffusion method was employed. Thus, a total sample size of 250 was used. The preparation of GIC-NHAp was done by adding nano-HA to GIC at selected concentrations by weight/weight percentage (w/w%). The results were analysed using a one-way Analysis of Variance (ANOVA) test. Results: A statistically significant difference was observed (p<0.001) between Group-1 (GIC II) and Group-II (4% GICNHAp), III (8% GIC-NHAp), IV (10% GIC-NHAp) and V (15% GIC-NHAp) regarding setting time, compressive strength, microleakage and antibacterial properties. Conclusion: It can be concluded that adding NHAp crystals to GIC enhances its properties, such as compressive strength and antimicrobial efficiency, as the concentration increases. The microleakage property showed a consistent decrease with increasing concentration. However, the setting time increased with higher concentrations of NHAp in GIC. [ABSTRACT FROM AUTHOR]

Published

2024

4. A Critical Review on the Factors Affecting the Bond Strength of Direct Restorative Material Alternatives to Amalgam.

Author

Batu Eken, Zeynep and Ilie, Nicoleta

Subjects

*BOND strengths, *STRENGTH of materials, *DENTIN, *POLLUTANTS, *CEMENT

Abstract

This article comprehensively reviews the performance of simplified direct restorative materials that have the potential to be an alternative to amalgam. Following an understanding of the material structures and clinical performances, this review provides an analysis of the bonding mechanisms and influential factors on the bond strength. These factors include substrate-related variations, involving primary vs. permanent dentin, sound- vs. caries-affected/demineralized dentin comparisons and surface-related factors and pretreatments. Special attention is given to the factors changing the substrate surface, such as different contaminants, remedy methods after contamination and different conditioning methods related to the materials. Variations in sample preparation and bond strength test parameters are also evaluated for the analysis of the outcomes. This review aims to provide an overview of the factors involved in the application procedure of direct restorations together with in vitro testing variations to guide the selection of suitable materials by understanding strengths and shortcomings. [ABSTRACT FROM AUTHOR]

Published

2024

5. Evaluation and Comparison of the Effect of Three Dental Luting Cements on Mineralized Bone Derived from Dental Pulp Stem Cells: An In Vitro Study.

Author

Bajoria, Sneha, Shetty, Shwetha Rajesh, Bandela, Vinod, Sonune, Shital, Mohamed, Roshan Noor, Nandalur, Kulashekar Reddy, Nagarajappa, Anil Kumar, Aljohani, Amjad Obaid, Alsattam, Aljowharah Ali, Alruwaili, Eatedal Mukhlef, Alnuman, Alreem Abdulaziz, Alahmed, Miad Abdulnasser, Kanaparthi, Saraswathi, and Helal, Doaa Abdelaziz A.

Subjects

DENTAL cements, DENTAL pulp, GINGIVAL fluid, BONE cells, STEM cells

Abstract

Background and Objectives: This study aimed to investigate the effect of zinc phosphate (ZnP) cement, glass ionomer cement (GIC), and nano-integrated bio-ceramic (NIB) cement on mineralization when placed in contact with bone tissue-forming cells. Materials and Methods: ZnP cement, GIC, and NIB cement were divided into direct and indirect groups. A total of 72 cement pellets (24 pellets of each test sample) of 3 × 1 mm (width × height) were prepared using polytetrafluoroethylene molds. A total of 3 sample groups were demarcated using 96- cell well culture plates. In the control group, 24 wells were filled with mineralized osteoblasts and 1 µL of gingival crevicular fluid (GCF). In test group 1, to show a direct effect, 36 samples were plated with mineralized osteoblasts and 1 µL GCF for 24 h; the cells were directly exposed to cement pellets. A total of 36 samples were immersed in GCF for 24 h; later the supernatant was transferred to the mineralized osteoblasts to demonstrate an indirect effect in test group 2. To assess the mineralization, osteoblasts were stained with alizarin red and later observed under an inverted phase-contrast microscope. Data were analyzed using the statistical package for social sciences. An independent t-test compared the direct and indirect effects of the ZnP cement, GIC, NIB cement, and control groups on the mineralization of osteoblasts derived from hDPCs. Results: A statistically significant difference was observed between the ZnP cement, GIC, and NIB cement groups (p < 0.05). ZnP cement exhibited a moderate, NIB cement the least harmful effect, and GIC showed the most harmful effect on the mineralization of osteoblast cells. Conclusions: The biocompatibility of dental luting cements is an important aspect that clinicians should consider during their selection. Nano-integrated bio-ceramic cement showed the least negative effect on the mineralization of osteoblast cells which is beneficial for the cementation of cement-retained implant prostheses. However, further studies are needed to evaluate osteoblast and osteoclast activity in vivo. [ABSTRACT FROM AUTHOR]

Published

2024

6. Effect of Graphene Oxide Nanoparticles Incorporation on the Mechanical Properties of a Resin-Modified Glass Ionomer Cement.

Author

Moreira e Moraes, Rafael Ubaldo, Abreu, Marcos Andre Pinheiro, Frazão, Mayara Cristina Abas, Ferreira, Paulo Vitor Campos, Bauer, José, Carvalho, Ceci Nunes, and Carvalho, Edilausson Moreno

Subjects

*MODULUS of elasticity, *FLEXURAL modulus, *GRAPHENE oxide, *SURFACE roughness, *SCANNING electron microscopy

Abstract

The objective of this study was to evaluate the effect of incorporating different concentrations of graphene oxide (GO) nanoparticles on the mechanical properties of a resin-modified glass ionomer cement (RMGIC). A commercial RMGIC (Resiglass R, Biodinâmica) was modified by incorporating 0.1% and 0.5% (by weight) of GO into the powder's material. An unmodified RMGIC was used as a control group. Powder samples were characterized using Scanning Electron Microscopy (SEM) and Energy Dispersive Spectroscopy (EDS). Specimens were fabricated and subjected to flexural strength (n = 15), modulus of elasticity (n = 15), Vicker's microhardness (n = 10), and surface roughness tests (n = 10). Data were analyzed using one-way ANOVA and Tukey's post hoc test (α = 5%). Experimental groups' powder demonstrated a homogeneous dispersion of GO. No statistically significant difference was observed in flexural strength (p = 0.067) and modulus of elasticity (p = 0.143) tests. The groups containing 0.1% and 0.5% GO showed significantly higher microhardness and lower surface roughness values (p < 0.001) compared to the control group. The incorporation of GO nanoparticles at concentrations of 0.1% and 0.5% improved the microhardness and surface roughness without negatively affecting the flexural strength and modulus of elasticity of an RMGIC. [ABSTRACT FROM AUTHOR]

Published

2024

7. Evaluation of the physical properties of glass ionomer cement modified by ethanolic extract of propolis.

Author

Pratiwi, Deviyanti, Salim, Richentya Feiby, Putri, Tansza Setiana, and Zainal Hasan, Akhmad Endang

Subjects

PROPOLIS, SURFACE analysis, SURFACE roughness, WATER immersion, SCANNING electron microscopes, DENTAL technology

Abstract

Background: Glass ionomer cement (GIC) is a dental material often used in clinical practice. However, its use is limited due to its drawbacks. Natural resources such as propolis have been used to mainly enhance GIC's antibacterial properties, but other properties attributed to this enhancement also require evaluation. Purpose: The study aims to evaluate the surface hardness, the surface roughness, and the water absorption of GIC containing ethanolic extract of propolis (EEP) from Trigona spp. Methods: Samples in this study were divided into four groups: GIC (control group); GIC + 25% EEP; GIC + 30% EEP; and GIC + 35% EEP. Surface roughness was measured using a surface roughness tester. Surface hardness was measured using a micro-Vickers hardness tester. Water absorption was measured by weighing the samples before and after immersion in distilled water. Surface characterization was carried out using a scanning electron microscope (SEM). Data was statistically analyzed using the Shapiro-Wilk normality test and one-way variance analysis along with the post-hoc Tukey's test to determine significant differences between all four samples. Results: The statistical test showed significant differences in surface hardness and surface roughness between the control group and the GIC + EEP group. However, the test demonstrated no significant differences in water absorption between the control group and the GIC + EEP group. Conclusion: The addition of EEP to conventional GIC can affect its physical properties. [ABSTRACT FROM AUTHOR]

Published

2024

8. Improving the Mechanical Properties of Glass Ionomer Cement With Nanocrystalline Cellulose From Rice Husk.

Author

Rini, Aninda Dwi Kartika, Juwita, Fifin Tresna, Bagjana, Riza Widyanti, Octivany, Sherly, Purnama, Ryana Budi, Rijal, Moch Saifur, Anwar, Ahmad Miftahul, Purwasasmita, Bambang Sunendar, and Asri, Lia A. T. W.

Subjects

SHEAR strength, FLEXURAL strength, HARDNESS testing, RICE hulls, BOND strengths

Abstract

This study aimed to evaluate the effect of incorporating nanocrystalline cellulose (NCC) sourced from rice husk on the mechanical properties of a commercial glass ionomer cement (GIC). NCC was isolated through acid hydrolysis, and its crystallinity, chemical structure, and morphology were characterized through x‐ray diffractometry, Fourier‐transform infrared spectroscopy, and transmission electron microscopy, respectively. Various concentrations of NCC (0%, 0.5%, 1%, and 1.5%) were added to reinforce the GIC matrix. Mechanical tests including compressive strength, flexural strength, hardness, and shear bond strength were conducted on the modified GIC samples. The addition of NCC resulted in increased hardness and shear bond strength values, with 1% NCC showing the highest values compared to other concentrations. However, there was no significant improvement observed in the compressive and flexural strength of the modified GIC. Failure mode test revealed a reduction in adhesive failure with the addition of NCC. Incorporating small amounts of NCC (0.5%–1%) suggests a promising and affordable modification of GIC restorative material using biomass residue, resulting in improved mechanical properties. [ABSTRACT FROM AUTHOR]

Published

2024

9. Multifactorial Contributors to the Longevity of Dental Restorations: An Integrated Review of Related Factors.

Author

Santos, Maria Jacinta Moraes Coelho, Zare, Elham, McDermott, Peter, and Santos Junior, Gildo Coelho

Subjects

DENTAL resins, DENTAL fillings, MOTOR ability, PRACTICE of dentistry, DENTAL materials

Abstract

Purpose: This integrated review aims to identify and analyze the multifactorial contributors to the longevity of direct restorations, focusing on tooth-, patient-, and dentist-related factors. Materials and Methods: A search of the literature was performed using an electronic database, PubMed/Medline, Web of Science, and Scopus, on papers published between 1980 and 2024. The titles and abstracts of papers that evaluated aspects categorized into tooth-related, patient-related, and dentist-related factors influencing restoration failure were selected and screened. Full-text assessments were conducted, and the extracted data were compiled, summarized, and synthesized. The reference lists of the collected papers were also screened, and relevant citations were included in this review. Data were gathered from clinical and laboratorial studies, systematic reviews, and meta-analyses to provide a comprehensive understanding of restoration longevity. Results: Among the tooth-related factors, multiple-surface restorations, deep margins, tooth location, and tooth vitality significantly impact restoration survival. Patient-related factors such as medical conditions, risk predictors of caries, age, sex, parafunctional habits, smoking, periodontal health, number of restorations, and socioeconomic status all play crucial roles. Regarding dentist-related factors, the decision-making process, age, experience, and dentist manual dexterity are vital aspects. Furthermore, the technique used, including isolation methods for moisture control, as well as the type of dental practice (large group vs. small practice), notably influenced the restoration survival. Conclusions: The longevity of dental restorations is influenced by a complex interplay of tooth-related, patient-related, and dentist-related factors. Strategies to improve restoration outcomes should consider all these multifactorial contributors. Continuing professional education, diligent patient guidance on the factors that influence restoration survival, careful material selection and restorative technique, and tailored individual treatment are crucial factors to reduce failure rates and improve the lifespan of restorations. [ABSTRACT FROM AUTHOR]

Published

2024

10. Ein ungewöhnlicher Fall: Fraktur des Hammergriffs durch Fingermanipulation.

Author

Mair, Peter M., Mayr, Thomas, Sprinzl, Georg, and Magele, Astrid

Abstract

Copyright of HNO is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

11. Comparative evaluation of surface roughness and bacterial adhesion on two bioactive cements: an in-vitro study

Author

Pallabi Dey, Baranya Shrikrishna Suprabha, Ethel Suman, Srikant Natarajan, Ramya Shenoy, and Arathi Rao

Subjects

Biofilm, Bacterial adhesion, Streptococcus mutans, Composite resins, Glass Ionomer cement, Dentistry, RK1-715

Abstract

Abstract Background Dental restorative materials are recognized as artificial niches that facilitate the adherence and accumulation of oral microorganisms. To mitigate oral diseases and extend the lifespan of restorations, it is advantageous to use dental materials that exhibit low susceptibility to bacterial adhesion. Objective To evaluate and compare bacterial adhesion on two bioactive restorative materials, a glass hybrid restorative, and an alkasite with a nanohybrid resin composite as a positive control. The secondary objectives were to compare the surface roughness (SR) of the materials and determine the correlation between the bacterial adhesion and the SR. Materials and methods The samples consisted of 33 polished discs of each material: Group A: Tetric® N-Ceram (nanohybrid resin composite), Group B: Equia Forte™ HT Fil (glass hybrid restorative) and Group C: Cention N® (alkasite). Streptococcus mutans cultures were inoculated and after 24-hours of incubation, bacterial adhesion was measured by measuring optical density (OD) and number of colony forming units (CFUs). After 96-hours incubation, the bacterial cell count was determined using scanning electron microscopy (SEM). SR was assessed using surface profilometer. Results Alkasite had significantly lower OD and CFUs (p

Published

2024

12. Evaluation of Setting Time, Compressive Strength, Microleakage and Antibacterial Properties of Nano Hydroxyapatite Incorporated GIC: An In-vitro Study

Author

Akshada Chougaonkar, Updesh Masih, Abhilasha Manker, Neelesh Gautam, and Nidhi Soni

Subjects

disk diffusion, dye penetration, glass ionomer cement, gillmore needle, universal testing machine, Medicine

Abstract

Introduction: Glass Ionomer Cement (GIC) is widely used as a restorative material, but it still exhibits some limitations that pose significant drawbacks in clinical use. The composition of Hydroxyapatite (HA) mimics the inorganic fraction of mineralised tissues such as bones and teeth. HA possesses osteoconductive and bioactive properties, making it favourable for orthopaedic and dental applications. Aim: The aim of this study was to evaluate and compare the setting time, compressive strength, microleakage and antibacterial properties of nano-HA incorporated GIC (NHa-GIC) at various concentrations with Type-II GIC. Materials and Methods: This in-vitro study was conducted in the Department of Paediatric and Preventive Dentistry at Sri Aurobindo College of Dentistry in Indore, Madhya Pradesh, India, for a duration of nine months, from May 2023 to January 2024. The study comprised five study groups as follows: Group-1-Type-II GIC (control), Group-2-NHA-GIC 4%, Group-3-NHA-GIC 8%, Group-4-NHA-GIC 10% and Group-5-NHA-GIC 15%. A total of 50 acrylic moulds containing the test material and Type-II GIC, with 10 in each group (n=10), were prepared to record the setting time, which was tested using a Gillmore needle. The compressive strength was checked using a Universal Testing Machine. Additionally, 50 primary molars were selected according to inclusion and exclusion criteria and randomly divided into five groups (n=10) to evaluate microleakage. Microleakage was assessed using the dye penetration method under a stereomicroscope. For antibacterial properties, 50 samples (n=10) were taken for each strain, i.e., Strain A: S. mutans and Strain B: L. fermentum and the disk diffusion method was employed. Thus, a total sample size of 250 was used. The preparation of GIC-NHAp was done by adding nano- HA to GIC at selected concentrations by weight/weight percentage (w/w%). The results were analysed using a one-way Analysis of Variance (ANOVA) test. Results: A statistically significant difference was observed (p

Published

2024

13. An Audit of Indication, Distribution, and Failure of Direct Composite Restoration in a Tertiary Hospital

Author

Shakeerah O. Gbadebo, Gbenga Emmanuel Adebayo, Asidat Olayonu Oyediran, and Zakka Gundiri Baraya

Subjects

audit, composite, composite failure, glass ionomer cement, Medicine

Abstract

Background: Currently, the move to phase down/phase out Amalgam as a direct restorative material has made composite restoration presently the most used direct tooth-coloured restoration in all teeth. AIM: The aim is to assess the indication, distribution, and failure of direct composite restorations placed in a tertiary teaching hospital over a period. Methodology: A three-year retrospective audit of composite restorations placed in a Nigeria tertiary facility. Data concerning composite cases were extracted from the case files using a pro forma. Sociodemographics, type of procedure, type of teeth, shade of composite, and failure of restoration were among the data collected. Descriptive analysis was performed using frequency and percentage, and Chi-square test was used to test associations between categorical variables (P < 0.05). Results: A total of 898 cases were retrieved and analysed. A higher number: 333 (37.1%) of the participants were in the age group 21–40 years and the majority were (507, 56.5%). Cervical abrasion (289; 32.2%), followed by class 1 carious cavity (105; 11.7%), were the major procedures specified. Upper centrals had the highest restoration (135; 15%). Only 24.5% of the restorations reported the use of glass ionomer cement (GIC) lining. Shade A3 was the most used (73; 57%). The failure rate recorded was 13.8% and the use of GIC reduced it to 5.1% (P < 0.001). Conclusion: A 13.8% failure of composite restoration within the three-year study period was observed, which fell within the reported range from other studies. Furthermore, it was observed that the use of GIC lining, where necessary, contributed to the survival of composite restoration.

Published

2024

14. Evaluation of physical properties of glass ionomer cement modified by ethanolic extract of propolis

Author

Deviyanti Pratiwi, Richentya Feiby Salim, Tansza Permata Setiana Putri, and Akhmad Endang Zainal Hasan

Subjects

glass ionomer cement, hardness test, propolis, surface roughness, water absorption, Dentistry, RK1-715

Abstract

Background: Glass ionomer cement (GIC) is a dental material often used in clinical practice. However, its use is limited due to its drawbacks. Natural resources such as propolis have been used to mainly enhance GIC’s antibacterial properties, but other properties attributed to this enhancement also require evaluation. Purpose: The study aims to evaluate the surface hardness, the surface roughness, and the water absorption of GIC containing ethanolic extract of propolis (EEP) from Trigona spp. Methods: Samples in this study were divided into four groups: GIC (control group); GIC + 25% EEP; GIC + 30% EEP; and GIC + 35% EEP. Surface roughness was measured using a surface roughness tester. Surface hardness was measured using a micro-Vickers hardness tester. Water absorption was measured by weighing the samples before and after immersion in distilled water. Surface characterization was carried out using a scanning electron microscope (SEM). Data was statistically analyzed using the Shapiro–Wilk normality test and one-way variance analysis along with the post-hoc Tukey’s test to determine significant differences between all four samples. Results: The statistical test showed significant differences in surface hardness and surface roughness between the control group and the GIC + EEP group. However, the test demonstrated no significant differences in water absorption between the control group and the GIC + EEP group. Conclusion: The addition of EEP to conventional GIC can affect its physical properties.

Published

2024

15. Comparison of remineralization ability of tricalcium silicate and of glass ionomer cement on residual dentin: an in vitro study

Author

Elif Kuru, Nesrin Eronat, Murat Türkün, and Dilşah Çoğulu

Subjects

Bioactive dental materials, Calcium silicate cement, Dentin remineralization, Glass ionomer cement, Dentistry, RK1-715

Abstract

Abstract Objective This study aimed to compare the remineralization effects of a calcium silicate-based cement (Biodentine) and of a glass ionomer cement (GIC: Fuji IX) on artificially demineralized dentin. Methods Four standard cavities were prepared in dentin discs prepared from 34 extracted sound human third molars. In each disc, one cavity was covered with an acid-resistant varnish before demineralization (Group 1). The specimens were soaked in a chemical demineralization solution for 96 h to induce artificial carious lesions. Thereafter, one cavity each was filled with Biodentine (Group 2) and GIC (Group 3), respectively, and one carious lesion was left unrestored as a negative control (Group 4). Next, specimens were immersed in simulated body fluid (SBF) for 21 days. After cross-sectioning the specimens, the Ca/P ratio was calculated in each specimen by using scanning electron microscopy–energy-dispersive X-ray spectroscopy (SEM-EDX). Finally, data were analyzed using repeated-measures ANOVA with post-hoc Bonferroni correction. Results Both cement types induced dentin remineralization as compared to Group 4. The Ca/P ratio was significantly higher in Group 2 than in Group 3 (p

Published

2024

16. 2-year survival and cost analysis of occlusoproximal ART restorations using encapsulated glass ionomer cement in primary molars: a randomized controlled trial

Author

Jonathan Rafael Garbim, Cintia Saori Saihara, Isabel Cristina Olegário, Daniela Hesse, Mariana Pinheiro Araujo, Clarissa Calil Bonifácio, Mariana Minatel Braga, and Daniela Prócida Raggio

Subjects

Pediatric dentistry, Dental atraumatic restorative treatment, Primary teeth, Clinical efficacy, Cost analysis, Glass ionomer cement, Dentistry, RK1-715

Abstract

Abstract Background The survival of ART restorations can be influenced by the choice of the restorative material. The aim of this randomized non-inferiority controlled trial was to compare the 2-year survival rate and cost analysis of two encapsulated glass ionomer cements (GIC) as occlusoproximal restorative materials in primary molars. Methods Children from public schools in Tietê (Brazil), aged 4–8 years with occlusoproximal dentine carious lesions in primary molars were selected and randomly assigned to receive either Equia Forte (EF) or Riva Self Cure (RSC) as restorative materials. Treatment was carried out by two trained final-year dental students in schools following ART premises. Restorations were assessed by a trained and calibrated examiner after 2, 6, 12, 18, and 24 months. The primary outcome was restoration survival after 2 years, analyzed using Kaplan-Meier survival and Cox regression analysis (α = 5%). Professional and materials costs for each group were collected in Brazilian Reais (R$) and converted into US dollars (US$) and analyzed using Monte-Carlo simulation. Results A total of 152 children (76 per group) were included in the study, and 121 (79%) were evaluated after 2 years. The overall 2-year restoration survival rate was 39% (EF = 45%; RSC = 32%) with no difference between the groups. The baseline and 2-year total cost of restorations using RSC was lower when compared to EF (incremental cost: US$ 6.18). Conclusion After two years of follow-up, Riva Self Cure shows comparable restoration survival rates to Equia Forte, being more cost-effective in the Brazilian perspective. Trial Registration This randomized clinical trial was registered on ClinicalTrials.Gov - NCT02730000.

Published

2024

17. Comparative Evaluation of Mechanical Properties and Bond Strength of Glass Ionomer Cement reinforced with three different concentrations of Silver Nanoparticles as against Conventional Glass Ionomer Cement in Primary Teeth. [version 2; peer review: 1 approved, 1 approved with reservations, 1 not approved]

Author

Harikishan Kanani and Monika Khubchandani

Subjects

Study Protocol, Articles, Restorative material, Glass ionomer cement, silver nano particles.

Abstract

Introduction: Restorative dental materials are defined as substances that are used to repair, replace, or enhance a patient’s teeth. Various materials used in paediatric dentistry are zinc oxide eugenol, glass ionomer cement, resin composite, calcium hydroxide, silver amalgam, giomers etc. GIC is a biocompatible material having a low thermal expansion coefficient and fluoride release property. There are still a few drawbacks of GICdue of their poor mechanical properties therefore addition of Silver Nanoparticles demonstrated improved mechanical and bactericidal capabilities. There hasn’t been much study on the quality of the bond contact between silver nanoparticles and dentin, as well as the color’s durability. Aim: To evaluate and compare the mechanical properties and bond strength of Glass ionomer cement reinforced with three different concentrations of silver nanoparticle as against conventional glass ionomer cement in primary Teeth. Materials and Method: Silver nanoparticles will be prepared using three chemicals namely, silver nitrate, sodium citrate and tannic acid. Traditional GIC (GC Fuji II, GC Corporation, Tokyo, Japan) will be purchased. Three different concentrations of silver nanoparticles will be prepared i.e., 0.2, 0.4, and 0.6%. The GIC specimens will then be divided into 4 groups: GIC without silver nanoparticles (AgNPs),0.2%,0.4% and 0.6% AgNPs. Mechanical properties will be checked such as compressive, tensile, and bond strength using Universal Testing Machine. Expected Results: GIC reinforced with silver nano particles is expected to have better mechanical strength, less microleakage and wear resistance, greater fracture resistance and adhesive bond strength. Conclusion: GIC reinforced with silver nano particles will be expected to have better mechanical and physical properties than conventional Type II GICs and is expected to be a promising material for restoration in primary teeth.

Published

2024

18. Addition of nisin to high-viscosity glass-ionomer cement: a comparative in vitro study on antibacterial and physical properties.

Author

Hegde, D., Suprabha, B. S., Ginjupalli, K., Suman, E., Natarajan, S., Shenoy, R., and Rao, A.

Subjects

STREPTOCOCCUS mutans, COMPRESSIVE strength, SCANNING electron microscopy, SURFACE area, ONE-way analysis of variance

Abstract

Purpose: Nisin is a lantibiotic effective against Gram-positive microorganisms such as Streptococcus mutans. The study aimed to determine the effect of the addition of nisin to high-viscosity glass-ionomer cement (HVGIC) on its antibacterial activity, setting time, surface microhardness, and compressive strength. Methods: 1 and 3% w/w nisin were added to HVGIC before mixing. Unmodified HVGIC was the control. Agar disc diffusion, direct contact test, and scanning electron microscopy (SEM) analysis were used to evaluate antibacterial activity against S. mutans. Setting time, surface microhardness, and compressive strength were measured using Gilmore needle apparatus, digital microhardness tester, and universal testing machine, respectively. Statistical analysis included Student's t test, one-way ANOVA with Tamhane's post hoc test, and repeated-measures ANOVA. Results: As evidenced by the agar disc diffusion (p < 0.001), direct contact tests (p = 0.025), and SEM analysis of the S. mutans cell count and cell surface area (p = 0.049 and 0.003), 3% nisin had the strongest antibacterial activity. There was a dose-dependent increase in setting time (p = 0.005) and surface microhardness (p = 0.006), with no significant difference in compressive strength compared to control. Conclusion: The addition of 3% nisin to HVGIC enhances the antibacterial action against S. mutans and surface microhardness without adversely affecting setting time and compressive strength. [ABSTRACT FROM AUTHOR]

Published

2024

19. Enhancing mechanical strength of Sr-based oxyfluoride glasses in glass ionomer cement through phase separation.

Author

Teimoory, Farzaneh Sadat, Rezaie, Hamid Reza, Yekta, Bijan Eftekhari, Nicholson, John William, and Javadpour, Jafa

Subjects

*PHASE separation, *DENTAL glass ionomer cements, *POWDERED glass, *GLASS transition temperature, *GLASS-ceramics, *ANNEALING of glass, *CEMENT

Abstract

Glass-ionomer cements (GICs) are used in various applications in clinical restorative dentistry. In this study the effect of CaF 2 content of the glasses on microstructure, thermal and mechanical behaviors of the synthesized glass ionomer cements was investigated. The results showed that by adding CaF 2 at expense of SrF 2 the first exothermic temperature (T E) of the glass was reduced from 735 to 704 °C and the compressive strength was increased from 42.0 ± 1.29 MPa to 60.3 ± 1.5 MPa as well. These substitutions led to extending of liquid-liquid phase separation in the glass. The enhancement of mechanical properties demonstrated through the process of annealing glass powder at temperatures below half of the glass transition temperature. This technique contributes to the improvement of mechanical properties by decreasing the residual stress and fostering the separation of amorphous phases. The formation of phase separation appears to be a significant factor in improving the mechanical properties of the oxyfluoride cements. [ABSTRACT FROM AUTHOR]

Published

2024

20. Developing a novel glass ionomer cement with enhanced mechanical and chemical properties.

Author

Yu, Ollie Yiru, Ge, Kelsey Xingyun, Lung, Christie Ying-Kei, and Chu, Chun-Hung

Subjects

*CHEMICAL properties, *SILVER ions, *SURFACE topography, *SILVER phosphates, *BIOACTIVE glasses, *CEMENT

Abstract

To develop a novel glass ionomer cement (NGIC) with enhanced mechanical and chemical properties and assess its biocompatibility, mechanical strength, and ion release. Nanosilver doped bioactive glass (NanoAg BAG) was synthesized by sol-gel method and characterized by scanning electron microscopy with energy-dispersive X-ray spectroscopy and transmission electron microscopy. The NanoAg BAG, together with poly(vinylphosphonic acid) (PVPA), alumino-fluorosilicate glass and poly-acrylic acid were used to synthesize NGIC. The optimal PVPA concentration for NGIC was determined by PVPA modified GIC's biocompatibility and mechanical properties and used to prepare NGIC specimens. NGIC specimens with NanoAg BAG at 0%, 1%, 2%, and 5% were allocated into Groups NGIC0, NGIC1, NGIC2, and NGIC5, respectively. The biocompatibility, surface morphology, elemental composition, surface topography, chemical properties, compressive strength, diametral tensile strength, and ion release of the NGIC were assessed. A conventional glass ionomer cement (GIC) was used as a control. A granular BAG with nano silver particles attached on its surface were found, indicating the successful synthesis of NanoAg BAG. PVPA at 10% presented the best effect in enhancing the biocompatibility and mechanical properties of PVPA modified GIC and was used to prepare NGIC specimens. NGIC1 showed similar biocompatibility, surface morphology and topography to GIC. Chemical properties results showed that NGICs showed the same adsorption peaks to GIC. The compressive strength (mean±SD in MPa) was 168.1 ± 29.7, 205.5 ± 29.5, 221.8 ± 46.8, 216.6 ± 59.3 and 167.7 ± 36.4, and the diametral tensile strength (mean±SD in MPa) was 14.1 ± 1.7, 18.3 ± 4.9, 21.2 ± 2.2, 17.2 ± 3.8 and 13.3 ± 3.3 for GIC, NGIC0, NGIC1, NGIC2 and NGIC5 respectively. NIGC0, NGIC1 and NGIC2 showed higher compressive and diametral tensile strength than GIC (p < 0.01). NGIC2 and NGIC5 showed higher release of fluoride, calcium, phosphate and silver ion than GIC and NGIC0 (p < 0.05). A biocompatible NGIC with enhanced mechanical properties were developed. It presented enhanced fluoride, calcium, phosphate and silver ion release compared to conventional GIC. [ABSTRACT FROM AUTHOR]

Published

2024

21. Evaluation and Characterization of some Properties of Glass Ionomer Cement Reinforced by Novel Boron Nitride Nanoplatelets.

Author

AlNamel, Hasanein A., AlBadr, Rafid M., and Razzaq, Farah Abdul

Subjects

DENTAL glass ionomer cements, BORON nitride, TENSILE strength, SORPTION, DENTAL cements

Published

2024

22. Chemical Bonding of Nanorod Hydroxyapatite to the Surface of Calciumfluoroaluminosilicate Particles for Improving the Histocompatibility of Glass Ionomer Cement.

Author

Kang, Sohee, Park, So Jung, Kim, Sukyoung, and Kang, Inn-Kyu

Subjects

FOURIER transform infrared spectroscopy, FILLER materials, POLYACRYLIC acid, HISTOCOMPATIBILITY, SCANNING electron microscopy, IONOMERS

Abstract

Glass ionomer cement (GIC) is composed of anionic polyacrylic acid and a silica-based inorganic powder. GIC is used as a filling material in the decayed cavity of the tooth; therefore, compatibility with the tooth tissue is essential. In the present study, we aimed to improve the histocompatibility of GIC by introducing nano-hydroxyapatite (nHA), a component of teeth, into a silica-based inorganic powder. CFAS-nHA was prepared by chemically bonding nanorod hydroxyapatite (nHA) to the surface of calciumfluoroaluminosilicate (CFAS). The synthesis of CFAS-nHA was confirmed using Fourier transform infrared spectroscopy (FTIR) and scanning electron microscopy (SEM). The prepared CFAS-nHA was mixed with polyacrylic acid and cured to prepare GIC containing nHA (GIC-nHA). Cytocompatibility tests of GIC-nHA and GIC were performed using osteoblasts. Osteoblast activity and bone formation ability were superior after GIC-nHA treatment than after control GIC treatment. This enhanced histocompatibility is believed to be due to the improvement of the biological activity of osteoblasts induced by the HA introduced into the GIC. Therefore, to enhance its compatibility with dental tissues, GIC could be manufactured by chemically bonding nHA to the surface of GI inorganic powder. [ABSTRACT FROM AUTHOR]

Published

2024

23. Comparison of remineralization ability of tricalcium silicate and of glass ionomer cement on residual dentin: an in vitro study.

Author

Kuru, Elif, Eronat, Nesrin, Türkün, Murat, and Çoğulu, Dilşah

Subjects

TREATMENT of dental caries, MOLARS, IN vitro studies, MATERIALS testing, DATA analysis, RESEARCH funding, DENTIN, ELECTRON microscopy, X-ray spectroscopy, SILICATES, DESCRIPTIVE statistics, CALCIUM compounds, REMINERALIZATION (Teeth), ANALYSIS of variance, STATISTICS, ORGANIC compounds, DENTAL glass ionomer cements

Abstract

Objective: This study aimed to compare the remineralization effects of a calcium silicate-based cement (Biodentine) and of a glass ionomer cement (GIC: Fuji IX) on artificially demineralized dentin. Methods: Four standard cavities were prepared in dentin discs prepared from 34 extracted sound human third molars. In each disc, one cavity was covered with an acid-resistant varnish before demineralization (Group 1). The specimens were soaked in a chemical demineralization solution for 96 h to induce artificial carious lesions. Thereafter, one cavity each was filled with Biodentine (Group 2) and GIC (Group 3), respectively, and one carious lesion was left unrestored as a negative control (Group 4). Next, specimens were immersed in simulated body fluid (SBF) for 21 days. After cross-sectioning the specimens, the Ca/P ratio was calculated in each specimen by using scanning electron microscopy–energy-dispersive X-ray spectroscopy (SEM-EDX). Finally, data were analyzed using repeated-measures ANOVA with post-hoc Bonferroni correction. Results: Both cement types induced dentin remineralization as compared to Group 4. The Ca/P ratio was significantly higher in Group 2 than in Group 3 (p < 0.05). Conclusion: The dentin lesion remineralization capability of Biodentine is higher than that of GIC, suggesting the usefulness of the former as a bioactive dentin replacement material. Clinical relevance: Biodentine has a higher remineralization ability than that of GIC for carious dentin, and its interfacial properties make it a promising bioactive dentin restorative material. [ABSTRACT FROM AUTHOR]

Published

2024

24. Effect of Zeolite Incorporation on the Ion Release Properties of Silver-Reinforced Glass Ionomer Cement.

Author

Tan, Jessica, Hao, Jessica, Vann, David, Pavelić, Krešimir, and Ozer, Fusun

Subjects

*IONOMERS, *ATOMIC emission spectroscopy, *ZEOLITES, *SILVER ions, *DENTAL materials, *CEMENT

Abstract

Background: Zeolite can release antimicrobial silver ions in a targeted and controlled manner for an extended time, selectively inhibiting the growth of pathogenic oral bacteria when added to dental materials. The objective of this study was to investigate the effect of the addition of zeolite to silver-reinforced glass ionomer cement on the release of silver ions over time. Methods: Five concentrations of silver–zeolite (0%, 0.5%, 1%, 2%, 4% wt) were incorporated into silver-reinforced GIC in the form of 10 mm × 2 mm circular disks (n = 5). The disks were incubated in deionized water at 37 °C and ion release from the samples was measured at 1, 2, 7, and 30 days after immersion by inductively coupled atomic emission spectroscopy. Results: Incorporating silver–zeolite increased silver ion release from silver-reinforced GIC disks compared to the control disks (p < 0.05), while incorporating zeolite alone had no effect. Higher concentrations of added silver–zeolite resulted in increased silver ion release. Sustained silver ion release was observed for up to 30 days. Conclusion: Adding silver–zeolite to silver-reinforced GIC may enhance its extended antibacterial effect in the oral cavity. [ABSTRACT FROM AUTHOR]

Published

2024

25. Comparing modified USPHS and FDI criteria for the assessment of glass ionomer restorations in primary molars utilising clinical and photographic evaluation.

Author

Larasati, N., Rizal, M. F., and Fauziah, E.

Subjects

MOLARS, PEDIATRIC clinics, DIGITAL images, DIGITAL photography, DECIDUOUS teeth

Abstract

Purpose: To compare the applicability of modified US Public Health Service (USPHS) and FDI criteria for evaluating glass ionomer cement (GIC) restorations in primary posterior teeth through digital image analysis. Methods: This comparative analytic study was conducted at the Children's Dental Clinic RSKGM FKG UI, involving 40 GIC restorations on lower first primary molars in children aged 4–9 years. After cleaning, the restorations were assessed clinically using modified USPHS and FDI criteria before taking digital images, then the collected images were re-evaluated using both sets of criteria, and the clinical assessment results were compared to the digital image assessment results. Results: Statistical analysis revealed significant differences between the clinical evaluation of GIC restorations in primary teeth and their corresponding digital photographs when using the modified USPHS criteria, and although the use of FDI criteria yielded different results, these differences were not statistically significant. Conclusion: The assessment of GIC restorations through digital images aligns more closely with clinical assessments using the FDI criteria compared to the modified USPHS criteria. [ABSTRACT FROM AUTHOR]

Published

2024

26. The Use of Potassium Iodide in Pediatric Dentistry Does Not Change the Retention of Glass Ionomer Cement on a Dentin Treated with Silver Fluoride: In Vitro Results.

Author

Gotas, Louise, Canceill, Thibault, and Joniot, Sabine

Subjects

PEDIATRIC dentistry, POTASSIUM iodide, MOLARS, DENTIN, DECIDUOUS teeth, TOOTH erosion, DENTAL caries

Abstract

In pediatric and operative dentistry, caries treatment benefits from a therapeutic option based on the use of silver fluoride (AgF) associated with potassium iodide (KI) to avoid dark colorations on dental tissues. The objective of this in vitro study is to evaluate the retention of glass ionomer cement (GIC) on a dentin when treated with AgF and KI. Twenty-two healthy human permanent molars and eight human primary teeth, all free of any decay, were cut to obtain occlusal flat dentinal surfaces and were then treated with AgF for a duration of 60 s. For half of the teeth, a drop of KI was applied for a duration of 30 s. All samples were covered with a plot of GIC and their resistance to shear bond strength was measured. The fracture resistance in both permanent and primary teeth does not show any statistically significant differences whether KI was applied or not. For permanent teeth, the resistance is slightly higher in the group treated with KI than in the group treated with AgF alone. To our knowledge, these data are the first to describe the possible application of KI both on primary and permanent teeth. In any case, further studies are needed to investigate the bond strength between dentin and GIC on a wider range of samples. [ABSTRACT FROM AUTHOR]

Published

2024

27. Clinical Effectiveness of Ion-Releasing Restorations versus Composite Restorations in Dental Restorations: Systematic Review and Meta-Analysis.

Author

Arbildo-Vega, Heber Isac, Cruzado-Oliva, Fredy Hugo, Coronel-Zubiate, Franz Tito, Luján-Valencia, Sara Antonieta, Meza-Málaga, Joan Manuel, Aguirre-Ipenza, Rubén, Echevarria-Goche, Adriana, Luján-Urviola, Eduardo, Castillo-Cornock, Tania Belú, Serquen-Olano, Katherine, and Farje-Gallardo, Carlos Alberto

Subjects

DENTAL fillings, DENTAL materials, CLINICAL trials

Abstract

Background: To compare the clinical effectiveness of ion-releasing restorations (IRR) vs. composite resin (CR) in dental restorations. Methods: A systematic search was carried out from articles published until January 2024, in the biomedical databases: PubMed, Cochrane Library, Scielo, Scopus, Web of Science and Google Scholar. Randomized clinical trials were included, with a follow-up time greater than or equal to 1 year, without time and language limits and which reported the clinical effect of IRR compared to CR in dental restorations. The RoB 2.0 tool was used to assess the risk of bias of the included studies and the GRADEPro GDT tool was used to assess the quality of evidence and the strength of recommendation of the results. Results: The search yielded a total of 1109 articles. After excluding those that did not meet the selection criteria, 29 articles remained for the quantitative synthesis. The analysis found no statistically significant difference when comparing the dental restorations with IRRs or CRs. Conclusion: The literature reviewed suggests that there are no differences between the IRRs and CRs in dental restorations. [ABSTRACT FROM AUTHOR]

Published

2024

28. Silver modified atraumatic restorative treatment: a paradigm shift in dental caries management.

Author

Hegde, Damodar, Suprabha, Baranya Shrikrishna, and Rao, Arathi

Subjects

DENTAL caries, CAVITY prevention, SILVER, PRACTICE of dentistry

Abstract

Silver diamine fluoride (SDF) and atraumatic restorative treatment (ART) are treatment modalities that are minimally invasive and used for the prevention and control of dental caries. The amalgamation of these two techniques has led to the development of silver modified atraumatic restorative treatment (SMART). In this approach the carious lesion is restored with glass-ionomer cement (GIC) after SDF application. SMART effectively arrests caries without removing additional tooth structure, making it a promising option for caries management in children who lack cooperative ability. This article reviews the literature on SMART, the evidence regarding its applications in dental practice, its advantages, drawbacks, the scope for research, and clinical use. [ABSTRACT FROM AUTHOR]

Published

2024

29. Histological and ultrastructural evaluation of remaining dentin after selective caries removal in primary molars: Ex-vivo study

Author

Edite Novais Borges Pinchemel, Kelly Maria Silva Moreira, Ana Flávia Bissoto Calvo, Thaís Gimenez Cóvos, Tamara Kerber Tedesco, Victor Cavallaro Bottesini, Danilo Antônio Duarte, and José Carlos Petorossi Imparato

Subjects

carious, dental caries removal, glass ionomer cement, scanning electron microscopy, Dentistry, RK1-715

Abstract

Aim: In this study, ultrastructural, chemical, and histological analyses of extracted deciduous teeth were performed to analyze the effect of two different types of glass ionomer cements used in association with selective caries removal in deep lesions of deciduous teeth. Methods: A clinical, ex vivo, longitudinal study was conducted. A total of 19 deciduous molars from 9 volunteer patients were used. The teeth were randomly restored with one of two types of glass ionomer cement following the selective caries removal technique. The groups were divided into a control group, which used Fuji IX (GC- Europe, Leuven, Belgium), and a test group, which used Maxxion R (FGM- Joinville, Santa Catarina, Brazil). After exfoliation, the teeth were stored at 4°C and subjected to scanning electron microscopy (SEM), optical microscopy (OM), and energy dispersive spectrometry (EDS). Results: EDS analysis revealed that calcium (Ca) and phosphorus (P) were present in 100% of the specimens in both the control and test groups. Fluoride was found in 60% of the control group specimens and 63% of the test group specimens. OM images showed areas of mineralized dentin in both treatment groups. Conclusions: Selective caries removal for deep lesions in deciduous teeth was shown to be a safe therapeutic protocol, demonstrating signs of dentin mineralization and control of disease progression.

Published

2024

30. Effect of various surface coating methods on surface roughness, micromorphological analysis and fluoride release from contemporary glass ionomer restorations

Author

Mohanad H. Alebady, Hamdi H. Hamama, and Salah H. Mahmoud

Subjects

Glass Ionomer cement, Resin modified glass ionomer cement, Surface roughness, Atomic force microscopy, Micromorphological analysis, Dentistry, RK1-715

Abstract

Abstract Objective To evaluate the effect of various surface coating methods on surface roughness, micromorphological analysis and fluoride release from contemporary resin-modified and conventional glass ionomer restorations. Materials & methods A total of 72 permanent human molars were used in this study. The teeth were randomly assigned into 2 groups according to type of restorative materials used; resin modified glass ionomer cement and conventional glass ionomer (SDI Limited. Bayswater Victoria, Australia). Each group was subdivided into 3 subgroups according to the application of coat material; Sub-group1: without application of coat; Sub-group2: manufacturer recommended coat was applied and sub-group3: customized (vaseline) coat was applied. Each group was then subdivided into two divisions according to the time of testing; immediate (after 24 h) and delayed (after 6 months of storage). Three specimens from each sub-group were selected for surface roughness test (AFM) and another 3 specimens for the micromorphological analysis using scanning electron microscope (SEM). For the fluoride release test, a total of 60 cylindrical discs were used (n = 60). The discs were randomly split into 2 groups according to type of restorative materials used (n = 30); resin modified glass ionomer cement and conventional glass ionomer. Each group was subdivided into 3 subgroups (n = 10) according to the application of the coat material; Sub-group1: without application of coat; Sub-group2: with the manufacturer recommended coat and sub-group3: with application of customized (vaseline) coat. Data for each test was then collected, tabulated, were collected, tabulated, and tested for the normality with Shapiro-Wilk test. Based on the outcome of normality test, the significant effects of variables were assessed using appropriate statistical analysis testing methods. Results Regarding the data obtained from surface roughness test, Shapiro-Wilk test showed normal distribution pattern of all values (p > 0.05). Accordingly, Two-way ANOVA outcome showed that the ‘type of restoration’ or ‘test time’ had statistically significant effect on the AFM test (p

Published

2024

31. Komposit plast og glasionomercement som fyldningsmateriale i permanente molarer.

Author

BENETTI, ANA RAQUEL and PALLESEN, ULLA

Abstract

Copyright of Tandlaegebladet is the property of Tandlaegeforeningen and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

32. Yüzey Örtücü ile Kaplanmış Kompomer ve Cam İyonomer Simanın Klinik Performansının Değerlendirilmesi - 2 Yıllık Randomize Kontrollü Çalışma.

Author

UZEL, İlhan and ERTUĞRUL, Fahinur

Abstract

Copyright of Journal of Ege University School of Dentistry / Ege Üniversitesi Dis Hekimligi Fakültesi Dergisi is the property of Ege University Faculty of Dentistry and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

33. Effect of various surface coating methods on surface roughness, micromorphological analysis and fluoride release from contemporary glass ionomer restorations.

Author

Alebady, Mohanad H., Hamama, Hamdi H., and Mahmoud, Salah H.

Subjects

TOOTH anatomy, DENTAL fillings, DENTAL resins, MATERIALS testing, MOLARS, FLUORIDES, DATA analysis, SURFACE properties, STATISTICAL sampling, TREATMENT effectiveness, RANDOMIZED controlled trials, BIOMEDICAL materials, MINERAL oils, ANALYSIS of variance, STATISTICS, DENTAL glass ionomer cements, EVALUATION

Abstract

Objective: To evaluate the effect of various surface coating methods on surface roughness, micromorphological analysis and fluoride release from contemporary resin-modified and conventional glass ionomer restorations. Materials & methods: A total of 72 permanent human molars were used in this study. The teeth were randomly assigned into 2 groups according to type of restorative materials used; resin modified glass ionomer cement and conventional glass ionomer (SDI Limited. Bayswater Victoria, Australia). Each group was subdivided into 3 subgroups according to the application of coat material; Sub-group1: without application of coat; Sub-group2: manufacturer recommended coat was applied and sub-group3: customized (vaseline) coat was applied. Each group was then subdivided into two divisions according to the time of testing; immediate (after 24 h) and delayed (after 6 months of storage). Three specimens from each sub-group were selected for surface roughness test (AFM) and another 3 specimens for the micromorphological analysis using scanning electron microscope (SEM). For the fluoride release test, a total of 60 cylindrical discs were used (n = 60). The discs were randomly split into 2 groups according to type of restorative materials used (n = 30); resin modified glass ionomer cement and conventional glass ionomer. Each group was subdivided into 3 subgroups (n = 10) according to the application of the coat material; Sub-group1: without application of coat; Sub-group2: with the manufacturer recommended coat and sub-group3: with application of customized (vaseline) coat. Data for each test was then collected, tabulated, were collected, tabulated, and tested for the normality with Shapiro-Wilk test. Based on the outcome of normality test, the significant effects of variables were assessed using appropriate statistical analysis testing methods. Results: Regarding the data obtained from surface roughness test, Shapiro-Wilk test showed normal distribution pattern of all values (p > 0.05). Accordingly, Two-way ANOVA outcome showed that the 'type of restoration' or 'test time' had statistically significant effect on the AFM test (p < 0.05). Regarding Fluoride specific ion electrode test 2-way ANOVA followed by Least Significant Difference (LSD) Post-hoc test revealed significant difference among the groups (p < 0.05). It showed that SDI GIC group after 14 days of measurement had the highest mean of fluoride release (36.38 ± 3.16 PPM) and SDI RMGIC after 30 days of measurement had the second highest mean of fluoride release (43.28 ± 1.89 PPM). Finally, regarding the micromorphological analysis using SEM, a slight difference was observed between the studied groups. Conclusions: Based on the results of this study, various coatings enhance surface roughness in the initial 24 h of restoration insertion. Different coat types seems that have no influence on fluoride release and the micromorphological features of the restoration/dentin interface. [ABSTRACT FROM AUTHOR]

Published

2024

34. Effect of pediatric drugs on the color stability of dental restorative materials currently used in pediatric dentistry.

Author

Çapan, Belen Şirinoğlu and Birant, Sinem

Subjects

*DRUG stability, *PEDIATRIC dentistry, *DENTAL materials, *PHARMACODYNAMICS, *COUGH, *COMPOSITE materials

Abstract

The purpose of this in vitro study was to assess the color stability of esthetic restorative materials after immersion in different pediatric drugs. Three different restorative materials namely composite resin, alkasite and high-viscosity glass ionomer cement(HVGIC) were used to prepare total 96 (32 from each) disc-shaped specimens(2mmx5mm). A spectrophotometer was used to record the color of each sample after sample preparation and 7 days following the staining technique. After 1-week period, ΔE ∗ values were calculated. The average color changes(ΔE) for all drugs/restorative materials ranged from 1.81 to 8.08. The most prominent alteration was found in Cough syrup-Alkasite(8.08 ± 2.62) and the least one was found in Cough syrup-HVGIC(1.81 ± 0.74) pairwise. The color change observed in Cough syrup-Alkasite group was statistically significantly higher than in Cough syrup-HVGIC (p < 0.05). Alkasite showed greater color alteration with all drugs compared to other materials and HVGIC showed better color stability with all drug formulations. [ABSTRACT FROM AUTHOR]

Published

2024

35. Enhanced remineralisation ability and antibacterial properties of sol-gel glass ionomer cement modified by fluoride containing strontium-based bioactive glass or strontium-containing fluorapatite.

Author

Thongsri, Oranich, Thaitalay, Paritat, Srisuwan, Sawitri, Khophai, Sasikamon, Suksaweang, Sanong, Rojviriya, Catleya, Panpisutd, Piyaphong, Patntirapong, Somying, Gough, Julie, and Rattanachan, Sirirat Tubsungnoen

Subjects

*BIOACTIVE glasses, *FLUORAPATITE, *TOOTH demineralization, *HUMAN stem cells, *DENTAL caries, *DENTAL pulp, *CEMENT

Abstract

This study aimed to compare two types of bioactive additives which were strontium-containing fluorinated bioactive glass (SrBGF) or strontium-containing fluorapatite (SrFA) added to sol-gel derived glass ionomer cement (SGIC). The objective was to develop antibacterial and mineralisation properties, using bioactive additives, to minimize the occurrence of caries lesions in caries disease. Synthesized SrBGF and SrFA nanoparticles were added to SGIC at 1 wt% concentration to improve antibacterial properties against S. mutans, promote remineralisation, and hASCs and hDPSCs viability. Surface roughness and ion-releasing behavior were also evaluated to clarify the effect on the materials. Antibacterial activity was measured via agar disc diffusion and bacterial adhesion. Remineralisation ability was assessed by applying the material to demineralised teeth and subjecting them to a 14-day pH cycle, followed by microCT and SEM-EDS analysis. The addition of SrFA into SGIC significantly improved its antibacterial property. SGIC modified with either SrBGF or SrFA additives could similarly induce apatite crystal precipitation onto demineralised dentin and increase dentin density, indicating its ability to remineralise dentin. Moreover, this study also showed that SGIC modified with SrBGF or SrFA additives had promising results on the in vitro cytotoxicity of hASC and hDPSC. SrFA has superior antibacterial property as compared to SrBGF while demonstrating equal remineralisation ability. Furthermore, the modified SGIC showed promising results in reducing the cytotoxicity of hASCs and hDPSCs, indicating its potential for managing caries. ● Adding Strontium-containing fluorapatite (SrFA) in sol-gel glass ionomer cement (SGIC) improved the antibacterial property. ● Adding SrFA or strontium-containing fluorapatite (SrBGF) to SGIC similarly enhanced mineralization ability. ● All SGIC express promising results on the viability of human adipose-derived stem cells and human dental pulp stem cells. [ABSTRACT FROM AUTHOR]

Published

2024

36. Evaluation of Cytotoxic Effect on Modified Glass Ionomer Cement with Calcium Carbonate: An in vitro Study.

Author

ÜNAL, Mehmet, TOPAL, Burcu GÜÇYETMEZ, and HAZMAN, Ömer

Subjects

CALCIUM carbonate, DENTAL cements, ONE-way analysis of variance, CYTOTOXINS, POWDERED glass

Abstract

Copyright of Turkiye Klinikleri Journal of Dental Sciences is the property of Turkiye Klinikleri and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

37. Histological and ultrastructural evaluation of remaining dentin after selective caries removal in primary molars: Ex-vivo study.

Author

Borges Pinchemel, Edite Novais, Silva Moreira, Kelly Maria, Bissoto Calvo, Ana Flávia, Gimenez Cóvos, Thaís, Kerber Tedesco, Tamara, Cavallaro Bottesini, Victor, Antônio Duarte, Danilo, and Petorossi Imparato, José Carlos

Subjects

DENTIN, DENTAL caries, DENTAL extraction, DECIDUOUS teeth, MOLARS

Abstract

Aim: In this study, ultrastructural, chemical, and histological analyses of extracted deciduous teeth were performed to analyze the effect of two different types of glass ionomer cements used in association with selective caries removal in deep lesions of deciduous teeth. Methods: A clinical, ex vivo, longitudinal study was conducted. A total of 19 deciduous molars from 9 volunteer patients were used. The teeth were randomly restored with one of two types of glass ionomer cement following the selective caries removal technique. The groups were divided into a control group, which used Fuji IX (GC- Europe, Leuven, Belgium), and a test group, which used Maxxion R (FGM- Joinville, Santa Catarina, Brazil). After exfoliation, the teeth were stored at 4°C and subjected to scanning electron microscopy (SEM), optical microscopy (OM), and energy dispersive spectrometry (EDS). Results: EDS analysis revealed that calcium (Ca) and phosphorus (P) were present in 100% of the specimens in both the control and test groups. Fluoride was found in 60% of the control group specimens and 63% of the test group specimens. OM images showed areas of mineralized dentin in both treatment groups. Conclusions: Selective caries removal for deep lesions in deciduous teeth was shown to be a safe therapeutic protocol, demonstrating signs of dentin mineralization and control of disease progression. [ABSTRACT FROM AUTHOR]

Published

2024

38. Evaluation of mechanical, optical, and fluoride‐releasing properties of a translucent bulk fill glass hybrid restorative dental material.

Author

Moshaverinia, Maryam, de Almeida Queiroz Ferreira, Luiza, Smidt, Greta, Shah, Kumar C., Ansari, Sahar, and Moshaverinia, Alireza

Subjects

*COMPRESSIVE strength, *SPECTROPHOTOMETERS, *ANALYSIS of variance, *FLUORIDES, *WATER, *BIOMEDICAL materials, *RESEARCH funding, *CARIOSTATIC agents, *DENTAL translucency, *DENTAL fillings, *DENTAL glass ionomer cements, *DENTAL cements

Abstract

Objective: Measure and compare the mechanical properties, translucency, and fluoride‐releasing capabilities of EQUIA Forte HT against Fuji IX GP and ChemFil Rock. Materials and Methods: Ten specimens of each material were fabricated for compressive strength (CS), flexural strength (FS), and surface hardness analysis at 24 h and 7 days. The L*a*b* values were measured against a black‐and‐white background using a spectrophotometer to analyze the translucency parameter (TP). Fluoride release was recorded after 2 months of immersion in distilled water. The mean data was analyzed by 1‐ and 2‐way ANOVA (α = 0.5). Results: EQUIA Forte HT showed higher CS, surface hardness, and FS values (p < 0.05) compared with Fuji IX GIC, while no significant difference was found in FS values between EQUIA Forte HT and Chemfil Rock (p > 0.05). The EQUIA Forte HT exhibited significantly higher translucency in comparison to both ChemFil Rock (p < 0.001) and Fuji IX GICs (p < 0.05). An increase (p > 0.05) of fluoride release was observed for EQUIA Forte HT. Conclusion: The EQUIA Forte HT Glass‐ionomer cements (GIC) offers enhanced translucency, improved strength, and enhanced fluoride‐releasing properties compared to the traditionally used Fuji IX GIC and ChemFil Rock GICs. This material might have a wide range of clinical applications due to its improved strength and optical properties. Clinical Significance: Glass‐ionomer dental restorative materials possess unique advantageous characteristics. However, its poor mechanical and optical properties have typically limited its clinical applications. Efforts to improve these properties have resulted in enhanced GICs. EQUIA Forte HT GIC offers enhanced mechanical and optical properties with potential applications in posterior and anterior restorative procedures. [ABSTRACT FROM AUTHOR]

Published

2024

39. Changes in enamel hardness, wear resistance, surface texture, and surface crystal structure with glass ionomer cement containing BioUnion fillers.

Author

Misuzu SAGAWA, Yasuhiro NAMURA, Yasuki UCHIDA, Wakako MIYAMA, Shirabe NISHIMURA, Toshihiro YONEYAMA, Toshiki TAKAMIZAWA, and Mitsuru MOTOYOSHI

Subjects

CRYSTAL glass, SURFACE texture, CRYSTAL surfaces, SURFACE structure, WEAR resistance

Abstract

This study investigated the potential of BioUnion filler containing glass ionomer cement (GIC) to enhance the properties of enamel surrounding restorations, with a specific focus on the effect on hardness. The hardness of the bovine enamel immersed in the cement was measured using Vickers hardness numbers. Following sliding and impact wear simulations, the enamel facets were examined using confocal-laser-scanning microscopy and scanning-electron microscopy. Surface properties were further analyzed using energydispersive X-ray spectroscopy and X-ray diffraction (XRD). A significant increase in Vickers hardness numbers was observed in the BioUnion filler GIC after 2 days. Furthermore, the mean depth of enamel facets treated with BioUnion filler GIC was significantly less than that of untreated facets. Characteristic XRD peaks indicating the presence of hydroxyapatite were also observed. Our findings imply that GIC with BioUnion fillers enhances the mechanical properties of the tooth surface adjacent to the cement. [ABSTRACT FROM AUTHOR]

Published

2024

40. Evaluation and Characterization of some Properties of Glass Ionomer Cement Reinforced by Novel Boron Nitride Nanoplatelets

Author

hasanein alnamel, Rafid M. AlBadr, and Farah Abdul Razzaq

Subjects

Boron Nitride Nanoplatelets, Glass Ionomer Cement, Flexural Strength, Diametral Tensile Strength, Physical Properties, Water Sorption, Medical technology, R855-855.5

Abstract

Purpose: This study characterized and incorporated a novel Boron Nitride Nanoplatelet (BNNP) into conventional cement known as Glass Ionomer Cement (GIC) with changed ratios (range from 1%, 3%, 5%, and 7%wt) Subsequently. Materials and Methods: The study examined the impact of adding BNNP on the mechanical characteristics of GIC, including its Flexural Strength (FS), Diametral Tensile Strength (DTS), water sorption/solubility, and setting times. The BNNP was characterized using Physio-Chemical Characterization, and Brunauer-Emmett-Teller (BET) testing, and density was also measured. In addition to showing considerably greater DTS (16.34± 1.26MPa) and FS (24.037 ± 0.816 MPa), the results showed that 3% wt. BNNP-modified GIC specimens decreased in water sorption/solubility 19.358±2.40 and 2.979±0.65 µg/mm3, respectively, compared with traditional GIC. Results: In this work, a novel BNNP containing GIC was created, resulting in a 15% reduction in water sorption. When compared to commercial GIC, the demonstrated GIC can quadruple the DTS and FS. Conclusion: For water-based cement types, the glass-ionomer formulations including BNNP exhibit equivalent and acceptable working qualities.

Published

2024

41. The stress distribution of a primary molar tooth restored with stainless steel crown using different luting cements

Author

Mehmet Sami Guler, Cigdem Guler, Nihal Belduz Kara, Didem Odabasi, and Muhammed Latif Bekci

Subjects

Finite element analysis, Stainless steel crown, Resin cement, Glass ionomer cement, Primary teeth, Dentistry, RK1-715

Abstract

Abstract Background The aim of this study is to evaluate the stress distributions of a primary molar tooth restored with a stainless steel crown (SSC) using resin and glass ionomer luting cements by Finite Element Analysis (FEA). Methods Original DICOM data of a primary molar was used to create a 3D model. One model was prepared as a tooth model with SSC. A 30 μm cement layer was used in model. Two different luting cements were tested in the study: self-cure adhesive resin cement, and glass ionomer cement. Vertical and oblique loads of 330 N were applied to simulate maximum bite force and lateral forces in the occlusal contact areas of the models. Maximum von Mises stress values in the models were evaluated as MPa. Results The maximum von Mises stress value was observed in the force application and general occlusal contact areas for all models. The maximum von Mises stress values were higher in the tooth model with SSC using self-cure adhesive resin cement (478.09 MPa and 214.62 MPa) than in the tooth model with SSC using glass ionomer cement (220.06 MPa and 198.72 MPa) in both vertical and oblique loading, respectively. Conclusions Depending on the magnitude of the bite force on the SSC, fracture of the luting cement materials could occur if the stress exceeds the endurance limit of the luting cement. Cementation with glass ionomer cement may help to reduce stress levels in SSC restorations of primary molars in children.

Published

2024

42. Effect of silver diamine fluoride on the microleakage of flowable resin composite and glass ionomer cement restorations to carious primary dentin: an-in vitro study

Author

Sarah Osama, Amira Saad Badran, and Basma Gamal Awad

Subjects

Glass ionomer cement, Silver diamine fluoride, Flowable composite, Microleakage, Dentistry, RK1-715

Abstract

Abstract Background This study aimed to evaluate the effect of Silver Diamine Fluoride (SDF) on the microleakage of flowable resin composite (FRC) and resin-modified glass ionomer cement (GIC) restorations bound to carious primary dentin. Methods Forty-four extracted carious primary molars were allocated into four groups as follows (n = 11 teeth/group): Group I, Flowable resin composite (FRCa): SDF38% treatment + FRC, Group II, Flowable resin composite (FRCb): FRC without SDF treatment, Group III, Resin-modified glass ionomer cement (GICa): SDF38% treatment + GIC, Group IV, Resin-modified glass ionomer cement (GICb): GIC without SDF treatment. Specimens were subjected to thermo cycling at 500 cycles between 5 to 55 °C (dwell time of 60 seconds) in baths before being immersed for 24 h in a 1% toluidine blue solution. Microleakage testing was conducted for each specimen in two areas; occlusal and gingival. Specimens were evaluated under stereomicroscope at 4x magnification. Results were analyzed using Kruskal-Wallis test followed by pairwise comparisons utilizing Dunn’s post hoc test at p ≤ 0.05. Results Insignificant differences between different groups (p = 0.49) were observed at the gingival walls area readings. The highest value was found in GICb (2.33 ± 0.52), while the lowest value was found in FRCa (1.71 ± 0.76). Insignificant differences between different groups (p = 0.982) were observed at the occlusal walls area readings. The highest value was found in FRCa (1.43 ± 0.98), while the lowest value was found in GICb (1.17 ± 1.33). Conclusion SDF does not adversely affect the microleakage of FRC and GIC restorations bound to carious primary dentin.

Published

2024

43. The effect of the static magnetic field on some of the mechanical properties of glass ionomer cements

Author

Zainab I. Alkhayat, Sarmad S. Salih Al Qassar, and Ammar Abdulghani Qasim

Subjects

glass ionomer cement, static magnetic field, polymerization, mechanical properties, Medicine, Dentistry, RK1-715

Abstract

Objective. The objective of this study was to investigate the impact of storing two distinct types of glass ionomer cement (GIC) in a static magnetic field (SMF) on their mechanical characteristics, namely compressive strength, microhardness and degree of conversion. Methods. In the current investigation, 10 samples of each GIC type were utilized for each test. The entire tube of the resin modified type was preserved in a (SMF) for a duration of 48 hours, whereas just the powder of the conventional type was retained in SMF for the same time period. The SMF was calibrated to a value of 225 Gauss. Special identical molds were prepared for each test. All the tests were performed after 24 incubation period at 37 degrees in deionized water. The final data were analyzed using Wilcoxon Rank test (p ≤0.05). Results. The compressive strength of the conventional type and resin modified type that used in this study were significantly increased after exposed to the SMF from 195.33 (29.6) to 209.286 (11.78) 317.29 (55.4) to 523.38 (13.07) MPa respectively. The degree of conversion was also improved significantly after exposed to SMF, as the conventional type increased from 37.03 to 45.00, while the resin modified type from 42.2 to 59.3, the conventional type improved significantly for microhardness test but the resin modified type improved non-significantly. Conclusion. Storing the GIC in a 225 gauss SMF enhances the mechanical characteristics and the degree of conversion of resin modified and conventional GIC.

Published

2023

44. Evaluation and Comparison of the Effect of Three Dental Luting Cements on Mineralized Bone Derived from Dental Pulp Stem Cells: An In Vitro Study

Author

Sneha Bajoria, Shwetha Rajesh Shetty, Vinod Bandela, Shital Sonune, Roshan Noor Mohamed, Kulashekar Reddy Nandalur, Anil Kumar Nagarajappa, Amjad Obaid Aljohani, Aljowharah Ali Alsattam, Eatedal Mukhlef Alruwaili, Alreem Abdulaziz Alnuman, Miad Abdulnasser Alahmed, Saraswathi Kanaparthi, and Doaa Abdelaziz A. Helal

Subjects

dental pulp cells, glass ionomer cement, nano-integrated bioceramic cement, peri-implantitis, zinc phosphate cement, Medicine (General), R5-920

Abstract

Background and Objectives: This study aimed to investigate the effect of zinc phosphate (ZnP) cement, glass ionomer cement (GIC), and nano-integrated bio-ceramic (NIB) cement on mineralization when placed in contact with bone tissue-forming cells. Materials and Methods: ZnP cement, GIC, and NIB cement were divided into direct and indirect groups. A total of 72 cement pellets (24 pellets of each test sample) of 3 × 1 mm (width × height) were prepared using polytetrafluoroethylene molds. A total of 3 sample groups were demarcated using 96- cell well culture plates. In the control group, 24 wells were filled with mineralized osteoblasts and 1 µL of gingival crevicular fluid (GCF). In test group 1, to show a direct effect, 36 samples were plated with mineralized osteoblasts and 1 µL GCF for 24 h; the cells were directly exposed to cement pellets. A total of 36 samples were immersed in GCF for 24 h; later the supernatant was transferred to the mineralized osteoblasts to demonstrate an indirect effect in test group 2. To assess the mineralization, osteoblasts were stained with alizarin red and later observed under an inverted phase-contrast microscope. Data were analyzed using the statistical package for social sciences. An independent t-test compared the direct and indirect effects of the ZnP cement, GIC, NIB cement, and control groups on the mineralization of osteoblasts derived from hDPCs. Results: A statistically significant difference was observed between the ZnP cement, GIC, and NIB cement groups (p < 0.05). ZnP cement exhibited a moderate, NIB cement the least harmful effect, and GIC showed the most harmful effect on the mineralization of osteoblast cells. Conclusions: The biocompatibility of dental luting cements is an important aspect that clinicians should consider during their selection. Nano-integrated bio-ceramic cement showed the least negative effect on the mineralization of osteoblast cells which is beneficial for the cementation of cement-retained implant prostheses. However, further studies are needed to evaluate osteoblast and osteoclast activity in vivo.

Published

2024

45. A Critical Review on the Factors Affecting the Bond Strength of Direct Restorative Material Alternatives to Amalgam

Author

Zeynep Batu Eken and Nicoleta Ilie

Subjects

bond strength, glass ionomer cement, resin-modified glass ionomer cement, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

This article comprehensively reviews the performance of simplified direct restorative materials that have the potential to be an alternative to amalgam. Following an understanding of the material structures and clinical performances, this review provides an analysis of the bonding mechanisms and influential factors on the bond strength. These factors include substrate-related variations, involving primary vs. permanent dentin, sound- vs. caries-affected/demineralized dentin comparisons and surface-related factors and pretreatments. Special attention is given to the factors changing the substrate surface, such as different contaminants, remedy methods after contamination and different conditioning methods related to the materials. Variations in sample preparation and bond strength test parameters are also evaluated for the analysis of the outcomes. This review aims to provide an overview of the factors involved in the application procedure of direct restorations together with in vitro testing variations to guide the selection of suitable materials by understanding strengths and shortcomings.

Published

2024

46. The stress distribution of a primary molar tooth restored with stainless steel crown using different luting cements.

Author

Guler, Mehmet Sami, Guler, Cigdem, Belduz Kara, Nihal, Odabasi, Didem, and Bekci, Muhammed Latif

Subjects

DENTAL crowns, FINITE element method, DENTAL implants, MOLARS, STRUCTURAL models, MASTICATORY muscles, DENTAL materials, PHYSIOLOGIC strain, DENTAL occlusion, DECIDUOUS dentition (Tooth development), STAINLESS steel, MATERIALS testing, DENTAL fillings, DENTAL glass ionomer cements, DENTAL cements

Abstract

Background: The aim of this study is to evaluate the stress distributions of a primary molar tooth restored with a stainless steel crown (SSC) using resin and glass ionomer luting cements by Finite Element Analysis (FEA). Methods: Original DICOM data of a primary molar was used to create a 3D model. One model was prepared as a tooth model with SSC. A 30 μm cement layer was used in model. Two different luting cements were tested in the study: self-cure adhesive resin cement, and glass ionomer cement. Vertical and oblique loads of 330 N were applied to simulate maximum bite force and lateral forces in the occlusal contact areas of the models. Maximum von Mises stress values in the models were evaluated as MPa. Results: The maximum von Mises stress value was observed in the force application and general occlusal contact areas for all models. The maximum von Mises stress values were higher in the tooth model with SSC using self-cure adhesive resin cement (478.09 MPa and 214.62 MPa) than in the tooth model with SSC using glass ionomer cement (220.06 MPa and 198.72 MPa) in both vertical and oblique loading, respectively. Conclusions: Depending on the magnitude of the bite force on the SSC, fracture of the luting cement materials could occur if the stress exceeds the endurance limit of the luting cement. Cementation with glass ionomer cement may help to reduce stress levels in SSC restorations of primary molars in children. [ABSTRACT FROM AUTHOR]

Published

2024

47. Bacterial Flora in Screw-Fixed Superstructures with Different Sealing Materials: A Comparative Clinical Trial.

Author

Yamaguchi, Kikue, Munakata, Motohiro, Ishii, Kota, and Uesugi, Takashi

Subjects

*DENTAL cements, *NUCLEIC acid hybridization, *CLINICAL trials, *DNA analysis, *PERI-implantitis, *CEMENT

Abstract

A screw-fixed superstructure is predominantly selected for implant prostheses because of the concern regarding developing peri-implantitis, although its infection route remains unclear. Focusing on microleakage from access holes, the present study clinically investigated the bacterial flora in access holes with different sealing materials. We examined 38 sites in 19 patients with two adjacent screw-fixed superstructures. Composite resin was used in the control group, and zinc-containing glass ionomer cement was used in the test group. Bacteria were collected from the access holes 28 days after superstructure placement and were subjected to DNA hybridization analysis. The same patient comparisons of the bacterial counts showed a significant decrease in 14 bacterial species for the red, yellow, and purple complexes in the test group (p < 0.05). In addition, the same patient comparisons of the bacterial ratios showed a significant decrease in six bacterial species for the orange, green, yellow, and purple complexes in the test group (p < 0.05). Furthermore, the same patient comparisons of the implant positivity rates showed a significant decrease in the six bacterial species for the orange, yellow, and purple complexes in the test group. The results of this study indicate that zinc-containing glass ionomer cement is effective as a sealing material for access holes. [ABSTRACT FROM AUTHOR]

Published

2024

48. Glass ionomer cement with calcium-releasing particles: Effect on dentin mineral content and mechanical properties.

Author

Vilela, Handially S., Resende, Mariana C.A., Trinca, Rafael B., Scaramucci, Taís, Sakae, Leticia O., and Braga, Roberto R.

Subjects

*DENTIN, *EMISSION spectroscopy, *MINERALS, *CEMENT, *OPTICAL spectroscopy

Abstract

to evaluate the effect a glass ionomer cement (GIC) containing hydroxyapatite (HAp) or calcium silicate (CaSi) particles on mineral content and mechanical properties of demineralized dentin. Ion release and compressive strength (CS) of the cements were also evaluated. GIC (Fuji 9 Gold Label, GC), GIC+ 5%HAp and GIC+ 5%CaSi (by mass) were evaluated. Ion release was determined by induced coupled plasma optical emission spectroscopy (Ca2+/Sr2+) or ion-specific electrode (F-) (n = 3). A composite (Filtek Z250, 3 M ESPE) was used as control in remineralization tests. Demineralized dentin discs were kept in contact with materials in simulated body fluid (SBF) at 37 °C for eight weeks. Mineral:matrix ratio (MMR) was determined by ATR-FTIR spectroscopy (n = 5). Dentin hardness (H) and elastic modulus (E) were determined by nanoindentation (n = 10). CS was tested after 24 h and 7d in deionized water (n = 12). Data were analyzed by ANOVA/Tukey test (α = 0.05). Ca2+ and Sr2+ release was higher for the modified materials (p < 0.05). Only GIC+ 5%HAp showed higher F- release than the control (p < 0.05). All groups showed statistically significant increases in MMR, with no differences among them after 8 weeks (p > 0.05). No differences in dentin H or E were observed among groups (p > 0.05). HAp-modified GIC showed increased initial CS, while adding CaSi had the opposite effect (p < 0.05). After 7 days, GIC+ 5%CaSi presented lower CS in relation to control and GIC+ 5%HAp (p < 0.05). GIC modification with HAp or CaSi affected CS and increased ion release; however, none of the groups showed evidence of dentin remineralization in comparison to the negative control. • The replacement of GIC glass by HAp particles increased initial (24 h) GIC strength. • The replacement of GIC glass by CaSi particles reduced GIC strength (24 h and 7d). • The presence of HAp or CaSi particles increased Ca2+, Sr2+ and F- release. • The addition of 5% HAp or CaSi did not increase GIC´s remineralizing potential. [ABSTRACT FROM AUTHOR]

Published

2024

49. Effect of protective coating agents on microleakage and flexural strength of glass ionomer cement and zirconomer. an in vitro study.

Author

Thomas, H. A., Singh, N., Thomas, A. M., Masih, S., Cherian, J. M., and Varghese, K. G.

Subjects

PROTECTIVE coatings, FLEXURAL strength, ONE-way analysis of variance, IN vitro studies, STRENGTH of materials

Abstract

Purpose: The objective of this study was to assess the microleakage and flexural strength of glass ionomer cement (GIC) and modified GIC (Zirconomer) when coated with protective coating agents such as COAT-IT and G-COAT plus. Methods: Sixty tooth specimens were grouped into two groups based on the type of restorations (GIC (n = 30) and Zirconomer (n = 30)). The samples were further divided into three subgroups (n = 10) based on the protective coating agent (Petroleum jelly, G-COAT Plus, or COAT IT) applied. This study evaluated the microleakage at the occlusal and cervical margins of class V restoration after being subjected to dye penetration and sectioning. Each specimen was viewed under a 40 × microscope and was given scores based on the depth of dye penetration. They were statistically analyzed using the Kruskal–Wallis test and compared within the groups using the Mann– Whitney Test. In addition, flexural strength was assessed using standardized cuboid (25 × 2 × 2 mm) specimens of restorative materials with and without protective coating agents. The mean flexural strength data of all the subgroups were statistically evaluated using a one-way analysis of variance (ANOVA) and compared within the subgroups using the student t test. Results: A statistically significant difference was found when occlusal margin microleakage scores were evaluated with G-COAT Plus demonstrating the lowest occlusal margin microleakage when applied over GIC restoration. The increasing order of occlusal margin microleakage scores is as follows: GIC with G-COAT Plus, Zirconomer with COAT-IT, GIC with COAT-IT, GIC, Zirconomer with G-COAT Plus, and Zirconomer. However, the cervical margin microleakage scores revealed no significant difference. While flexural strength was found to be highest for the GIC group coated with G-COAT Plus, it was observed that there was a significant improvement in the flexural strength of both GIC and Zirconomer when coated with either of the protective coating agents. Conclusion: Within the limitations of this in vitro study, it was observed that the application of protective coating agents can significantly reduce the potential microleakage and improve the flexural strength of the restorative material especially when zirconia-reinforced GIC is the restorative material. [ABSTRACT FROM AUTHOR]

Published

2024

50. Evaluating Glass Ionomer Cement Longevity in the Primary and Permanent Teeth—An Umbrella Review.

Author

Panetta, Alessandro, Lopes, Pedro, Novaes, Tatiane Fernandes, Rio, Rute, Fernandes, Gustavo Vicentis Oliveira, and Mello-Moura, Anna Carolina Volpi

Subjects

DECIDUOUS teeth, PERMANENT dentition, LONGEVITY, DENTAL enamel, CEMENT, AMELOBLASTS

Abstract

The aim of this umbrella review was to evaluate the longevity of glass ionomer cement (GIC) as a restorative material for primary and permanent teeth. Research in the literature was conducted in three databases (MedLine/PubMed, Web of Science, and Scopus). The inclusion criteria were: (1) to be a systematic review of clinical trials that (2) evaluated the clinical longevity of GICs as a restorative material in primary and/or permanent teeth; the exclusion criteria were: (1) not being a systematic review of clinical trials; (2) not evaluating longevity/clinical performance of GICs as a restorative material; and (3) studies of dental restorative materials in teeth with enamel alterations, root caries, and non-carious cervical lesions. Twenty-four eligible articles were identified, and 13 were included. The follow-up periods ranged from 6 months to 6 years. Different types of GICs were evaluated in the included studies: resin-modified glass ionomer cement (RMGIC), compomers, and low- and high-viscosity glass ionomer cement. Some studies compared amalgam and composite resins to GICs regarding longevity/clinical performance. Analyzing the AMSTAR-2 results, none of the articles had positive criteria in all the evaluated requisites, and none of the articles had an a priori design. The criteria considered for the analysis of the risk of bias of the included studies were evaluated through the ROBIS tool, and the results of this analysis showed that seven studies had a low risk of bias; three studies had positive results in all criteria except for one criterion of unclear risk; and two studies showed a high risk of bias. GRADE tool was used to determine the quality of evidence; for the degree of recommendations, all studies were classified as Class II, meaning there was still conflicting evidence on the clinical performance/longevity of GICs and their recommendations compared to other materials. The level of evidence was classified as Level B, meaning that the data were obtained from less robust meta-analyses and single randomized clinical trials. To the best of our knowledge, this is the first umbrella review approaching GIC in permanent teeth. GICs are a good choice in both dentitions, but primary dentition presents more evidence, especially regarding the atraumatic restorative treatment (ART) technique. Within the limitation of this study, it is still questionable if GIC is a good restorative material in the medium/long term for permanent and primary dentition. Many of the included studies presented a high risk of bias and low quality. The techniques, type of GIC, type of cavity, and operator experience highly influence clinical performance. Thus, clinical decision-making should be based on the dental practitioner's ability, each case analysis, and the patient's wishes. More evidence is needed to determine which is the best material for definitive restorations in permanent and primary dentition. [ABSTRACT FROM AUTHOR]

Published

2024