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Preclinical effectiveness of an experimental tricalcium silicate cement on pulpal repair

Authors
  • Li, Xin;
  • Pedano, Mariano Simon; 102073;
  • Li, Shuchen;
  • Sun, Zheyi;
  • Jeanneau, Charlotte;
  • About, Imad;
  • Hauben, Esther; 59273;
  • Chen, Zhi;
  • Van Landuyt, Kirsten; 38165;
  • Van Meerbeek, Bart; 14533;
Publication Date
Nov 01, 2020
Source
Lirias
Keywords
License
Unknown
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Abstract

OBJECTIVES: To investigate the pulpal repair potential of an experimental zirconium-oxide containing tricalcium-silicate cement, referred to as 'TCS 50'. MATERIALS AND METHODS: The effect of TCS 50 on viability, proliferation, migration, and odontoblastic differentiation of human dental pulp cells (HDPCs) was assessed using XTT assay, in-vitro wound healing assay and RT-PCR, respectively. Additionally, the pulp-capping potential was evaluated using a vital human tooth model. Statistical analysis was performed using non-parametric Kruskal-Wallis test and post-hoc test (Mann-Whitney U test). The tests were performed at a significance level of α = 0.05. RESULTS: The effect of TCS 50 towards HDPCs was dose dependent. Undiluted TCS 50 extract showed no immediate adverse impact on cell viability (p > .05); however, it significantly inhibited proliferation and migration of HDPCs (p < .05). A 25% diluted TCS 50 extract showed no significant effect on cell viability, proliferation or migration (p > .05), and it significantly enhanced odontoblastic differentiation of HDPCs (p < .05). In pulps capped with TCS 50 for both 2 and 4 weeks, H&E staining revealed a normal morphology of pulp tissue; mineralized foci with cellular components entrapped in the matrix were formed underneath the exposure site. Collagen I expression was weak within the matrix of mineralized foci, while the expression of nestin was positive for entrapped cellular components within the mineralized foci, indicating that the formed mineralized foci corresponded to an initial form of reparative dentin formation. CONCLUSION: TCS 50 is capable of generating an early pulp-healing reaction and therefore could serve as a promising pulp-capping agent. / status: published

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