Aim: To evaluate an ultrasonic-based experimental model (US), to assess the setting time of AH Plus® , Bio-C Sealer® and MTA Fillapex® , and compare the results obtained with ANSI/ADA specifications (2012).
Methods: To determine the setting time according to the ANSI/ADA specification, moulds measuring 10 mm (diameter) × 2 mm (thickness) were used, and for the US tests a transducer (1 MHz) and an oscilloscope were used. Fourier-transform infrared spectroscopy (FTIR) was used to evaluate the changes on chemical structure at the different setting times found by the US and ANSI/ADA methods. After checking the normal distribution, setting time data were analysed using unilateral analysis of variance with Tukey-HSD post-test to compare the methods.
Results: AH Plus® and Bio-C Sealer® had longer mean setting time values for the US method than for the ANSI/ADA (p < .05), whilst for MTA Fillapex® no significant difference was found between the methods (p < .05). FTIR spectra demonstrated that at the setting time determined by the US method, AH Plus® and Bio-C Sealer® were in a more advanced stage of polymerization than at the ANSI/ADA, whilst there was no significant difference for MTA Fillapex® .
Conclusions: The use of US was effective for setting time determination and measured longer values than ANSI/ADA specification for AH Plus® and Bio-C Sealer® , identifying the entire (and not only superficial) setting of the endodontic sealers.
Keywords: endodontic sealers; physicochemical properties; setting time; ultrasound.
© 2021 International Endodontic Journal. Published by John Wiley & Sons Ltd.