Abstract
Objectives: Various medicinal plant parts and extracts have been proven to be sources of biologically active compounds, many of which have been incorporated in the production of new pharmaceutical compounds. Thus, the aim of this study was to increase the antimicrobial properties of a glass ionomer cement (GIC) through its modification with a mixture of plant extracts, which were evaluated along with a 0.5% chlorohexidine-modified GIC (CHX-GIC) with regard to the water sorption, solubility, and flexural strength. Methods: Salvadora persica, Olea europaea, and Ficus carcia leaves were prepared for extraction with ethyll alcohol using a Soxhlet extractor for 12 h. The plant extract mixture (PE) was added in three different concentrations to the water used for preparation of a conventional freeze-dried GIC (groups 1:1, 2:1, and 1:2). Specimens were then mixed according to the manufacturer’s instructions and tested against the unmodified GIC (control) and a GIC modified with 0.5% chlorhexidine. Water sorption and solubility were evaluated after 7 days of immersion in distilled water. Flexural strength was evaluated in a three-point bending test after 24 h using a universal material testing machine at a crosshead speed of 1 mm/min. One-way analysis of variance (ANOVA) was used for comparison between the groups. Tukey’s post hoc test was used for pairwise comparison when the ANOVA test was significant. Results: There were no statistically significant differences between the control (M = 20.5%), CHX-GIC (M = 19.6%), 1:1 (M = 20.0%), 1:2 (M = 19.5%), and 2:1 (19.7%) groups with regard to the percentage of water sorption, while for water solubility the 2:1 (M = −0.39%) plant-modified group was significantly different from all of the other groups. Flexural strength test results showed that the 2:1 group (M = 26.1 MPa) recorded significantly higher mean values compared to all other tested groups. Conclusion and clinical relevance: The plant extracts did not negatively affect the water sorption and solubility of the GIC, while the flexural strength was improved by the addition of the plant extract at higher concentrations.
Highlights
Glass ionomer cements (GICs) belong to the class of materials known as acid-based cements.They are based mainly on three constituents, namely a water-soluble acid, ion-leachable glass, and water
GICs are clinically attractive restorative and luting materials in different therapeutical applications in dentistry, despite the name could classify them as dental materials for cementation [4]
Many natural antibacterial agents have shown effective results against cariogenic salivary flora when used in mouthwashes or toothpastes, there is still a lack of data regarding the effects of their addition on the properties of glass ionomer cements [33,34]
Summary
Glass ionomer cements (GICs) belong to the class of materials known as acid-based cements. They are based mainly on three constituents, namely a water-soluble acid, ion-leachable (basic) glass, and water. GICs are commonly presented as an aqueous solution of polymeric acid and a fine glass powder, which are mixed using an appropriate method to form a viscous paste. Alternative formulations exist, ranging from formulations were the acid is added to the glass and water is used to cause setting, Materials 2020, 13, 5352; doi:10.3390/ma13235352 www.mdpi.com/journal/materials. Materials 2020, 13, 5352 to formulations in which some of the acid is blended with the glass powder and the rest is present in a dilute solution in water [2,3].
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