In-vitro cytocompatibility of dental resin monomers on osteoblast-like cells

Dental resin-based materials are widely used in modern dentistry. Especially, resin cements enjoy great popularity and are utilized in many applications. Nevertheless, monomers could be released from the resinous matrix, thus interact with surrounding tissues, cause adverse biological reactions and...

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Bibliographic Details
Published in:Journal of dentistry 2017-10, Vol.65, p.76-82
Main Authors: Kraus, Dominik, Wolfgarten, Markus, Enkling, Norbert, Helfgen, Ernst-Heinrich, Frentzen, Matthias, Probstmeier, Rainer, Winter, Jochen, Stark, Helmut
Format: Article
Language:English
Subjects:
Adhesives
Antibiotics
Biocompatibility
Biomedical materials
BisGMA
Bone cancer
Cell culture
Cell Line - drug effects
Cell Survival - drug effects
Cells, Cultured
Composite materials
Cytotoxicity
Dental materials
Dental Materials - toxicity
Dental monomers
Dental restorative materials
Dentistry
Dose-Response Relationship, Drug
Fibroblasts
Filler materials
HEMA
Humans
Materials Testing
Methacrylates - toxicity
Monomers
Osteoblast-like cells
Osteoblasts - drug effects
Oxidative stress
Polyethylene Glycols - toxicity
Polymerization
Polymethacrylic Acids - toxicity
Polyurethanes - toxicity
Prostheses
Resin Cements - toxicity
Resins, Synthetic - toxicity
Studies
TEGDMA
Time Factors
UDMA
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Summary:Dental resin-based materials are widely used in modern dentistry. Especially, resin cements enjoy great popularity and are utilized in many applications. Nevertheless, monomers could be released from the resinous matrix, thus interact with surrounding tissues, cause adverse biological reactions and may lead in cases of implant retained restorations to peri-implant bone destruction. Hence, we performed an in-vitro study to determine cytotoxicity of resin monomers on osteoblast-like cells. Three permanent osteoblast-like cell lines from tumor origin (MG-63 and Saos-2) as well as immortalized human fetal osteoblasts (hFOB 1.19) were used and treated with different concentrations of the main monomers: BisGMA, UDMA, TEGDMA and HEMA. The impact on cell viability was monitored using three different cytotoxicity tests: alamarBlue, XTT, and LDH assay. Mean±SEM were calculated and statistical analysis was performed with GraphPad Prism software. All monomers tested caused concentration dependent cytotoxic effects on the three investigated osteoblast-like cell lines. Although all three cell viability assays showed comparable results in cytotoxic ranking of the monomers (BisGMA > UDMA > TEGDMA > HEMA), higher differences in the absolute values were detected by the various test methods In addition, also a cell line dependent influence on cell viability could be identified with higher impact on the immortalized hFOB 1.19 cells compared to both osteosarcoma cell lines (MG-63, Saos-2). Monomer concentrations detected in elution studies caused toxic effects in osteoblast-like cells. Although the results from in-vitro studies cannot be directly transferred to a clinical situation our results indicate that released monomers from composite resin cements may cause adverse biological effects and thereby possibly lead to conditions favoring peri-implantitis and bone destruction. The wide use of composite resin cements especially in implant-prosthetic treatments should be scrutinized to avoid possible clinical implications between eluted resin monomers and bone cells leading to conditions favoring peri-implantitis and bone destruction.
ISSN:0300-5712
1879-176X
DOI:10.1016/j.jdent.2017.07.008