Virus transmission by ultrasonic scaler and its prevention by antiviral agent

Abstract

ABSTRACTDuring an ultrasonic scaler (USS) operation, droplets and aerosol are generated that may contribute to the transmission of viruses contained in saliva and gingival crevicular fluid. The purpose of this research was to develop an experimental model for testing the spread of viruses during USS instrumentation and to examining the prevention of spreading by replacing the coolant with an antiviral agent. In a virus transmission tunnel, USS operation with saline coolant and delivery of a viral suspension to the vicinity of USS tip generated droplets and aerosol containing Equine Arteritis Virus (EAV). Evaluation of droplet transmission was evaluated with adherent 48h cell culture monolayer RK13 cell lines in standard 48-well-plates positioned at a distance from 30 to 55 cm. The aerosol was collected by a cyclone aero-sampler flow of 100l/min. Antiviral activity of 0.25% sodium hypochlorite or electrolyzed water (EOW) was tested by suspension test. The two tested antiviral agents’ transmission prevention ability was evaluated by repeating the same experiment as with saline coolant. All experiments were repeated twice. With saline coolant, the cytopathic effect on cells was found in cells up to the distance of 45 cm, with the number of infected wells decreasing with distance. Viral particles were detected in only one AS in a very low concentration (≤4.2 TCID50/ml). In suspension test of 0.25% NaOCl and EOW, the TCID50/ml was below detection limit after 5s. With both antiviral agents, no cytopathic effect was found. However, the cytotoxic effect of 0.25% NaOCl was evident up to the distance of 35 cm. By USS activity, EAV could be transmitted by droplets up to a distance of 45 cm. Both antiviral agents could prevent virus droplet transmission. The transmission of EAV by aerosol yielded inconclusive results.