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Aerosol generation related to respiratory interventions and the effectiveness of a personal ventilation hood

Forbes McGain, Ruhi S. Humphries, Jung Hoon Lee, Robyn Schofield, Craig French, Melita Keywood, Louis Irving, Kevin Kevin, Jim Patel, Jason Monty

2020Critical Care and Resuscitation32 citationsDOIOpen Access PDF

Abstract

Objective: To quantify aerosol generation from respiratory interventions and the effectiveness of their removal by a personal ventilation hood. Design and setting: Determination of the aerosol particle generation (in a single, healthy volunteer in a clean room) associated with breathing, speaking, wet coughing, oxygen (O2) 15 L/min via face mask, O2 60 L/min via nasal prongs, bilevel non-invasive positive-pressure ventilation (BiPAP) and nebulisation with O2 10 L/min. Interventions: Aerosol generation was measured with two particle sizer and counter devices, focusing on aerosols 0.5–5 μm (human-generated aerosols), with and without the hood. An increase from baseline of less than 0.3 particles per mL was considered a low level of generation. Main outcome measures: Comparisons of aerosol generation between different respiratory interventions. Effectiveness of aerosol reduction by a personal ventilation hood. Results: Results for the 0.5–5 μm aerosol range. Quiet breathing and talking demonstrated very low increase in aerosols (< 0.1 particles/mL). Aerosol generation was low for wet coughing (0.1 particles/mL), O2 15 L/min via face mask (0.18 particles/mL), and high flow nasal O2 60 L/min (0.24 particles/mL). Non-invasive ventilation generated moderate aerosols (29.7 particles/mL) and nebulisation very high aerosols (1086 particles/mL); the personal ventilation hood reduced the aerosol counts by 98% to 0.5 particles/mL and 8.9 particles/mL respectively. Conclusions: In this human volunteer study, the administration of O2 15 L/min by face mask and 60 L/min nasal therapy did not increase aerosol generation beyond low levels. Non-invasive ventilation caused moderate aerosol generation and nebulisation therapy very high aerosol generation. The personal ventilation hood reduced the aerosol counts by at least 98%.

Topics & Concepts

AerosolVentilation (architecture)MedicineRespiratory systemVolunteerAnesthesiaMeteorologyInternal medicinePhysicsAgronomyBiologyInhalation and Respiratory Drug DeliveryInfection Control and VentilationNosocomial Infections in ICU
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