Effects of calcium silicate cements on neuronal conductivity
Deniz-Sungur Derya, Onur Mehmet Ali, Akbay Esin, Tan Gamze, Dagli-Comert Fugen, Sayin Taner Cem,
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( Deniz-Sungur Derya ) - Hacettepe University Faculty of Dentistry Department of Endodontics
( Onur Mehmet Ali ) - Hacettepe University Faculty of Science Department of Biology
( Akbay Esin ) - Hacettepe University Faculty of Science Department of Biology
( Tan Gamze ) - Aksaray University Faculty of Science and Letters Department of Biology
( Dagli-Comert Fugen ) - Hacettepe University Faculty of Dentistry Department of Endodontics
( Sayin Taner Cem ) - Hacettepe University Faculty of Dentistry Department of Endodontics
Abstract
Objectives: This study evaluated alterations in neuronal conductivity related to calcium silicate cements (CSCs) by investigating compound action potentials (cAPs) in rat sciatic nerves.
Materials and Methods: Sciatic nerves were placed in a Tyrode bath and cAPs were recorded before, during, and after the application of test materials for 60-minute control, application, and recovery measurements, respectively. Freshly prepared ProRoot MTA, MTA Angelus, Biodentine, Endosequence RRM-Putty, BioAggregate, and RetroMTA were directly applied onto the nerves. Biopac LabPro version 3.7 was used to record and analyze cAPs. The data were statistically analyzed.
Results: None of the CSCs totally blocked cAPs. RetroMTA, Biodentine, and MTA Angelus caused no significant alteration in cAPs (p > 0.05). Significantly lower cAPs were observed in recovery measurements for BioAggregate than in the control condition (p < 0.05). ProRoot MTA significantly but transiently reduced cAPs in the application period compared to the control period (p < 0.05). Endosequence RRM-Putty significantly reduced cAPs.
Conclusions: Various CSCs may alter cAPs to some extent, but none of the CSCs irreversibly blocked them. The usage of fast-setting CSCs during apexification or regeneration of immature teeth seems safer than slow-setting CSCs due to their more favorable neuronal effects.
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Apical extrusion; Bioceramics; Calcium silicate cements; Neuronal conductivity; Neurotoxicity
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