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Real‐time intracanal temperature measurement comparing mechanically and laser‐activated irrigation to syringe irrigation

David Donnermeyer, Edgar Schäfer, Sebastian Bürklein

2020Australian Endodontic Journal20 citationsDOI

Abstract

Antibacterial activity and tissue dilution of sodium hypochlorite (NaOCl) are improved by moderately heating the irrigant. Temperature can be risen by preheating or intracanal activation. To assess intracanal temperature development of NaOCl during irrigation activation and syringe activation (SI) in a closed system at 37°C, Type-K thermocouples were inserted close to the root canal of one human single-rooted maxillary canine at the apex and 5 and 10 mm from the apical foramen via drilled holes. The root was positioned in a plastic vial filled with alginate simulating surrounding biological structures. Experiments were performed in a closed environment at 37°C (n = 14): EA: EndoActivator (Dentsply Sirona), EDDY: EDDY (VDW), PUI: passive ultrasonic irrigation, PIPS: Photon-induced photoacoustic streaming (Fotona), S60: SI of 60°C-NaOCl, S45: SI of 45°C-NaOCl, and S20: SI of 20°C-NaOCl. S45, PUI and EDDY lead to minor intracanal temperature increases. EA and PIPS did not influence the intracanal temperature. SI with 60°C-NaOCl resulted in higher intracanal temperatures than activation systems. Temperature dissipation into simulated tissues buffered intracanal temperature changes.

Topics & Concepts

Sodium hypochloriteMaterials scienceRoot canalSyringeBiomedical engineeringDentistryChemistryMechanical engineeringMedicineOrganic chemistryEngineeringEndodontics and Root Canal TreatmentsLeech Biology and ApplicationsDental Anxiety and Anesthesia Techniques
Real‐time intracanal temperature measurement comparing mechanically and laser‐activated irrigation to syringe irrigation | Litcius