Effect of chlorhexidine gluconate on porosity and compressive strength of a glass ionomer cement

Marti, Luana Mafra; Azevedo, Elcilaine Rizzato; Mata, Margareth da; Giro, Elisa María Aparecida; Zuanon, Ângela Cristina Cilense

doi:10.1590/rou.2014.038

Cited by 3 publications

(2 citation statements)

References 23 publications

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“…3 . Such findings are in accordance with Farret et al [ 46 ], Marti et al [ 47 ], and Jaidka et al [ 32 ], who stated that incorporation of antimicrobial agents at certain concentrations did not affect the compressive strength properties of GIC.…”

Section: Discussionsupporting

confidence: 92%

Evaluation of the antimicrobial activity and compressive strength of a dental cement modified using plant extract mixture

Singer

Bierbaum

Kehl

et al. 2020

J Mater Sci: Mater Med

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Literature lacks sufficient data regarding addition of natural antibacterial agents to glass ionomer cement (GICs). Hence, the aim of the study was to increase the antimicrobial properties of GICs through its modification with mixture of plant extracts to be evaluated along with an 0.5% chlorohexidine-modified GIC (CHX-GIC) with regard to biological and compressive strength properties. Conventional GIC (freeze-dried version) and CHX were used. Alcoholic extract of Salvadora persica, Olea europaea, and Ficus carcia leaves were prepared using a Soxhlet extractor for 12 h. The plant extract mixture (PE) was added in three different proportions to the water used for preparation of the dental cement (Group 1:1 PE, 2:1 PE, and 1:2 PE). Specimens were then prepared and tested against the unmodified GIC (control) and the 0.5% CHX-GIC. Chemical analysis of the extract mixture was performed using Gas chromatography–mass spectrometry. Antimicrobial activity was evaluated using agar diffusion assay against Micrococcus luteus and Streptoccocus mutans. Compressive strength was evaluated according to ISO 9917-1:2007 using a Zwick testing machine at a crosshead speed of 0.5 mm/min. Antimicrobial activity against Streptoccocus mutans was significantly increased for all the extract-modified materials compared to the unmodified cement, and the highest concentration was comparable to the CHX-GIC mixture. The activity against Micrococcus luteus was also significantly increased, but only for the material with the highest extract concentration, and here the CHX-GIC group showed statistically the highest antimicrobial activity. Compressive strength results revealed that there was no statistically significant difference between the different mixtures and the control except for the highest tested concentration that showed the highest mean values. The plant extracts (PEs) enhanced the antimicrobial activity against S. mutans and also against M. luteus in the higher concentration while compressive strength was improved by addition of the PE at higher concentrations.

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Section: Discussionsupporting

confidence: 92%

Evaluation of the antimicrobial activity and compressive strength of a dental cement modified using plant extract mixture

Singer

Bierbaum

Kehl

et al. 2020

J Mater Sci: Mater Med

View full text Add to dashboard Cite

show abstract

“…A study by El Tatar showed that SPE combined with GIC at a concentration of 1% SPE maintained the same level of compressive strength as that of the control group [ 20 ], and this is consistent with the present study, where a lower concentration of the extract, i.e., Group I (2:1:1), unaltered the compressive strength. Farret et al [ 24 ], Pavithra et al [ 25 ], and Marti et al [ 26 ] also noted similar results, indicating that the addition of antimicrobial agents at particular concentrations had no impact on the compressive strength characteristics of GIC.…”

Section: Discussionmentioning

confidence: 71%

Miswak-Infused Glass Ionomer Cement: A Comparative In Vitro Analysis of Antibacterial Efficacy and Compressive Strength

Devi,

Paulraj,

Shanmugam

et al. 2024

Cureus

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Background: Glass ionomer cement (GIC) restorations are commonly used in primary dentition, due to their aesthetic appeal, self-adhesive nature, and biocompatibility. However, the material's limited antibacterial activity and inadequate mechanical strength highlight the necessity for modifying the material.Aim: The study aims to evaluate and compare the antimicrobial potency and compressive strength of GICincorporated Miswak extract with that of conventional GIC.Materials and methods: After obtaining the Miswak extract, a modified GIC was formulated by combining the extract with the conventional GIC powder and liquid components, in three different ratios (Powder: Extract and Liquid), Group I (2:1:1), Group II (3:1:2), Group III (3:2:1), and the Group IV as control, which consist of unmodified/conventional GIC. To evaluate and compare the antibacterial efficacy of the modified and unmodified GIC, standard strains of Streptococcus mutans and Lactobacillus were utilized. For each group, the minimal inhibitory concentration (MIC) assay was tested. For the evaluation of compressive strength, cylindrical moulds were utilized in compliance with ISO 9917-1:2007 standards and tested using the universal testing machine (Instron, ElectroPuls®, Bangalore, IND). The highest force exerted at the point of specimen fracture was recorded to calculate the compressive strength values in MPa. The data obtained were analyzed using the Statistical Package for the Social Sciences (IBM SPSS Statistics for Windows, IBM Corp., Version 24.0, Armonk, NY) software. The statistical analysis was conducted utilizing repeated measures of analysis of variance (ANOVA) to calculate the mean MIC values and compressive strength, with pairwise comparisons assessed using Tukey's post hoc test.Results: The results proved that the antimicrobial properties of Miswak containing GIC performed better against S. mutans and Lactobacillus with a statistically significant difference when compared with group IV (p<0.05), it has been found that an increase in the concentration of extract increased the antimicrobial potency. Significant results were obtained in compressive strength where Group II (41.49±3.6) and Group III (15.23±4.96) proved to be weaker than the control (62.69±2.58), while Group I showed no differences from the control group (p>0.05).Conclusion: It can be concluded that Group I was found to be better in terms of both antimicrobial properties and compressive strength, where no significant difference in compressive strength was identified when comparing Group I with Group IV. Thus, the overall study depicts that a lesser concentration of extract can be the best option in terms of good antimicrobial properties without altering its strength. Hence, the Miswak containing GIC could be a promising restorative material; further studies should include considering intraoral variables such as masticatory stress, moisture levels and in-vivo tests of this combination.

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Comparative analysis of hydrazinyl coumarin derivative incorporation in resin-modified and conventional glass ionomer cement

Azlisham,

Rahman,

Mahmood

et al. 2024

Journal of Taibah University Medical Sciences

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Effect of chlorhexidine gluconate on porosity and compressive strength of a glass ionomer cement

Cited by 3 publications

References 23 publications

Evaluation of the antimicrobial activity and compressive strength of a dental cement modified using plant extract mixture

Evaluation of the antimicrobial activity and compressive strength of a dental cement modified using plant extract mixture

Miswak-Infused Glass Ionomer Cement: A Comparative In Vitro Analysis of Antibacterial Efficacy and Compressive Strength

Comparative analysis of hydrazinyl coumarin derivative incorporation in resin-modified and conventional glass ionomer cement

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