Multiple mechanisms for atomization of fluids from rotatory instrumentation exist, but parameters can be controlled to modify key spray characteristics during the current crisis, reports a new study. The findings of the study are published in the Journal of Dental Research. Since the onset of COVID-19, the potential risk of dental procedure spray emissions for SARS-CoV-2 transmission has challenged care providers and policymakers alike.
‘Since the onset of the COVID-19 pandemic, the potential risk of dental procedural generated spray emissions (including aerosols and splatters) has challenged care providers and policymakers for severe acute respiratory syndrome coronavirus 2 transmissions alike.
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The study, "Mechanisms of atomization from rotary dental instruments and its mitigation," published in the Journal of Dental Research (JDR), found that there are multiple mechanisms for atomization of fluids from rotatory instruments and that parameters can be controlled to modify key spray characteristics during the current crisis.Using high-speed imaging and laser light-sheet illumination, procedural sprays were studied with variables including rotation speed, burr to tooth contact, and coolant pre-misting. Elimination of pre-misting (mixing of coolant water and air prior to burr contact) and use of relatively low rotation speeds resulted in a significant reduction in small droplets. Cutting efficiency was reduced, but sufficient coolant effectiveness appeared to be maintained.
"This research demonstrates that spray from dental instruments can be controlled without losing the ability to carry out dental treatment," said JDR Editor-in-Chief Nicholas Jakubovics. "Being able to modify the spray creates a safer experience for patients and oral health care providers during this current pandemic."
Source-Eurekalert