Reducing Aerosol Dispersion By High Flow Therapy In Covid-19: High Resolution Computational Fluid Dynamics Simulations Of Particle Behavior During High Velocity Nasal Insufflation With A Simple Surgical Mask
JOURNAL OF THE AMERICAN COLLEGE OF EMERGENCY PHYSICIANS OPEN(2020)
摘要
ObjectiveAll respiratory care represents some risk of becoming an aerosol-generating procedure (AGP) during COVID-19 patient management. Personal protective equipment (PPE) and environmental control/engineering is advised. High velocity nasal insufflation (HVNI) and high flow nasal cannula (HFNC) deliver high flow oxygen (HFO) therapy, established as a competent means of supporting oxygenation for acute respiratory distress patients, including that precipitated by COVID-19. Although unlikely to present a disproportionate particle dispersal risk, AGP from HFO continues to be a concern. Previously, we published a preliminary model. Here, we present a subsequent highresolution simulation (higher complexity/reliability) to provide a more accurate and precise particle characterization on the effect of surgical masks on patients during HVNI, low-flow oxygen therapy (LFO2), and tidal breathing.MethodsThis in silico modeling study of HVNI, LFO2, and tidal breathing presents ANSYS fluent computational fluid dynamics simulations that evaluate the effect of Type I surgical mask use over patient face on particle/droplet behavior.ResultsThis in silico modeling simulation study of HVNI (40 L min(-1)) with a simulated surgical mask suggests 88.8% capture of exhaled particulate mass in the mask, compared to 77.4% in LFO2 (6 L min(-1)) capture, with particle distribution escaping to the room (> 1 m from face) lower for HVNI+Mask versus LFO2+Mask (8.23% vs 17.2%). The overwhelming proportion of particulate escape was associated with mask-fit designed model gaps. Particle dispersion was associated with lower velocity.ConclusionsThese simulations suggest employing a surgical mask over the HVNI interface may be useful in reduction of particulate mass distribution associated with AGPs.
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关键词
aerosol-generating procedures, exhalation, high flow nasal cannula, high flow oxygen, high velocity nasal insufflation, low flow oxygen, masks, particle dispersion, transmission, patient simulation, prevention, control
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