Impact of calcium aluminate cement with additives on dental pulp-derived cells

Nadyne Saab Messias; Gabriela Grisote; Antonio Secco Martorano; Roger Rodrigo Fernandes; Ivone Regina de Oliveira; Karina Fittipaldi Bombonato-Prado; Paulo Tambasco de Oliveira; Larissa Moreira Spinola de Castro-Raucci

doi:10.1590/1678-7757-2019-0105

Journal of Applied Oral Science (Nov 2019)

Impact of calcium aluminate cement with additives on dental pulp-derived cells

Nadyne Saab Messias,
Gabriela Grisote,
Antonio Secco Martorano,
Roger Rodrigo Fernandes,
Ivone Regina de Oliveira,
Karina Fittipaldi Bombonato-Prado,
Paulo Tambasco de Oliveira,
Larissa Moreira Spinola de Castro-Raucci

Affiliations

Nadyne Saab Messias: ORCiD
Gabriela Grisote: ORCiD
Antonio Secco Martorano: ORCiD
Roger Rodrigo Fernandes: ORCiD
Ivone Regina de Oliveira: ORCiD
Karina Fittipaldi Bombonato-Prado: ORCiD
Paulo Tambasco de Oliveira: ORCiD
Larissa Moreira Spinola de Castro-Raucci: ORCiD

DOI: https://doi.org/10.1590/1678-7757-2019-0105
Journal volume & issue: Vol. 28

Abstract

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Abstract Calcium aluminate cement (CAC) has been highlighted as a promising alternative for endodontic use aiming at periapical tissue repair. However, its effects on dental pulp cells have been poorly explored. Objective: This study assessed the impact of calcium chloride (CaCl2) and bismuth oxide (Bi2O3) or zinc oxide (ZnO) additives on odontoblast cell response to CAC. Methodology: MDPC-23 cells were exposed for up to 14 d: 1) CAC with 2.8% CaCl2 and 25% ZnO (CACz); 2) CAC with 2.8% CaCl2 and 25% Bi2O3 (CACb); 3) CAC with 10% CaCl2 and 25% Bi2O3 (CACb+); or 4) mineral trioxide aggregate (MTA), placed on inserts. Non-exposed cultures served as control. Cell morphology, cell viability, gene expression of alkaline phosphatase (ALP), bone sialoprotein (BSP), and dentin matrix protein 1 (DMP-1), ALP activity, and extracellular matrix mineralization were evaluated. Data were compared using ANOVA (α=5%). Results: Lower cell density was detected only for MTA and CACb+ compared with Control, with areas showing reduced cell spreading. Cell viability was similar among groups at days one and three (p>0.05). CACb+ and MTA showed the lowest cell viability values at day seven (p>0.05). CACb and CACb+ promoted higher ALP and BSP expression compared with CACz (p<0.05); despite that, all cements supported ALP activity. Matrix mineralization were enhanced in CACb+ and MTA. Conclusion: In conclusion, CAC with Bi2O3, but not with ZnO, supported the expression of odontoblastic phenotype, but only the composition with 10% CaCl2 promoted mineralized matrix formation, rendering it suitable for dentin-pulp complex repair.

Published in Journal of Applied Oral Science

ISSN: 1678-7757 (Print); 1678-7765 (Online)
Publisher: University of São Paulo
Country of publisher: Brazil
LCC subjects: Medicine: Dentistry
Website: http://www.scielo.br/scielo.php?script=sci_serial&pid=1678-7757&nrm=iso&lng=en

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Abstract

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