Abstract
INTRODUCTION: Glass ionomer cements (GICs) release inorganic elements and organic residual monomers with the potential for deleterious effects on pulp cells. OBJECTIVE: To identify and quantify inorganic elements present in different GICs and released components from these materials in cell culture medium. MATERIAL AND METHOD: Samples of two resin-modified GICs for base/liner (Vitrebond and Fuji Lining LC), two resin-modified restorative GICs (Vitremer and Fuji II LC) and two conventional restorative GICs (Ketac Fil Plus and Ketac Molar Easymix) were prepared and analyzed by Energy-Dispersive X-Ray Fluorescence Spectrometry (EDXRF). Extracts of these materials were obtained by immersion of each sample in separate containers of DMEM for 24 h (total surface-liquid ratio = 45.7 mm²/mL). The extracts were analyzed by EDXRF and Gas Chromatography-Mass Spectrometry (GC-MS). RESULT: Higher percentages of strontium, silicon and aluminum were identified in Vitrebond, Vitremer, Fuji Lining LC, Fuji II LC, and Ketac Fil Plus, while zinc was detected only in Vitrebond. Ketac Molar Easymix presented a greater atomic composition of lanthanum, calcium, aluminum and silicon. Strontium was detected in the extracts from all materials except Ketac Molar Easymix; calcium was present in extracts from Ketac Fil Plus; zinc only in Vitrebond; and silicon in Fuji II LC extract. The analysis by GC-MS detected 2-hydroxyethyl-methacrylate (HEMA) in the extracts from all resin-modified GICs, and iodine benzene was detected only in the Vitrebond extract. CONCLUSION: Of the GICs sampled, Vitrebond released the highest number of components with cytotoxic potential.
Highlights
Glass ionomer cements (GICs) release inorganic elements and organic residual monomers with the potential for deleterious effects on pulp cells
Some ions and/or inorganic elements, such as fluoride, calcium, aluminum, silicon, strontium, and zinc, among others, may be released during the cure reaction or by solubilization of the glass ionomer cements in humid conditions[15,18,19,20,21]
In some GICs, cytotoxic effects are attributed to the release of small amounts of aluminum, iron, or copper, which can cause oxidative stress on cells in culture[23] by depletion of glutathione, generation of reactive oxygen species,[11,22] and other molecular mechanisms that can lead to apoptosis or cell death[24]
Summary
Glass ionomer cements (GICs) release inorganic elements and organic residual monomers with the potential for deleterious effects on pulp cells. Material and method: Samples of two resin-modified GICs for base/liner (Vitrebond and Fuji Lining LC), two resin-modified restorative GICs (Vitremer and Fuji II LC) and two conventional restorative GICs (Ketac Fil Plus and Ketac Molar Easymix) were prepared and analyzed by Energy-Dispersive X-Ray Fluorescence Spectrometry (EDXRF). Conclusion: Of the GICs sampled, Vitrebond released the highest number of components with cytotoxic potential Due to their anticariogenic properties, glass ionomer cements (GICs) play an important role in preventing secondary caries, which is the most frequent cause for replacement of restorations[1,2]. Several other inorganic elements or ions are released from GICs, and the type and amount of these depend both on the chemical composition of the glass used to manufacture the cement powder and the local pH conditions, with greater release occurring under acidic conditions[8,9,10]
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