Introduction: Bioceramic technology has been introduced recently in endodontics to benefit from the formation of hydroxyapatite during the setting reaction in the presence of tissue fluid and establish a chemical bond at the dentin interface. Objectives: To evaluate some of physiochemical properties of new different Bioceramic (iRoot-SP, EndoSequence, Smartpastebio) versus mineral trioxide aggregate (MTA-Fillapex) root canal sealers. Adseal and ActiV-GP sealers were used as control. Methods: Standard discs (10 for each) were prepared and immersed in 20 ml deionized water. After 1, 7, 14 and 28 days, solubility, pH changes and released elements were calculated and statistically analyzed with ANOVA test. Results: A significantly greater solubility and higher alkalinity were displayed by the tested sealers (in descending order) Smartpastebio, iRoot-SP, EndoSequence and MTA-Fillapex (P<0.05). Their solubility exceeded the acceptable limit (3%). Their maximum alkaline pH was exhibited after 7 days. Adseal and ActiV-GP exhibited initial neutral and acidic pH respectively. Finally both had neutral pH. EndoSequence exhibited the significantly greatest calcium release followed by iRoot-SP, Smartpastebio and MTA-Fillapex, whereas, ActiV-GP and Adseal exhibited the significantly lowest values (P<0.05). There was no silicon released from iRoot-SP, Smartpastebio and MTA-Fillapex. ActiV-GP exhibited the greatest silicon, aluminum and iron release. The greatest phosphorous, manganese and magnesium content was obtained by Adseal, MTA-Fillapex and EndoSequence respectively. Conclusion: Under the condition of this study, the prolonged alkalinity of calcium silicate sealers was synchronized with their ongoing solubility. The higher calcium ions released indicated strong alkalinity. The inequality in aluminum, iron, manganese and magnesium released by the tested sealers may expect the variance in their behaviors.
This study aimed to evaluate the osteogenic activity of Endosequence Root Repair Material (ERRM) putty using rat mesenchymal stem cells (MSCs). The extract of set ERRM and ProRoot-mineral trioxide aggregate (MTA) (control) was cocultured with rat MSCs and incubated for one, three, and seven days. The cell viability and proliferation were assessed. A quantitative real-time polymerase chain reaction for bone morphogenetic protein-2 (BMP-2), alkaline phosphatase, bone sialoprotein, and osteocalcin gene expression was performed. Both materials enhanced cell viability and proliferation, which increased over time. On day seven, the cells treated with either material exhibited significantly greater cell viability compared with control untreated cells. MSCs treated with either material showed deeper alkaline phosphatase staining after three days compared to control untreated cells. Treated MSCs also exhibited upregulation of the gene expression of bone morphogenetic protein-2, alkaline phosphatase, bone sialoprotein, and osteocalcin. Both ERRM and ProRoot-MTA enhance the osteogenic differentiation of MSCs.
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