A comparison of anesthetic protective barriers for the management of COVID‐19 pediatric patients

Background Barrier techniques, such as plastic sheets or intubation boxes, are purported to offer additional protection for healthcare workers. Aims To assess the functionality, perceived safety, droplet protection, and aerosol protection of several barrier techniques. Methods Firstly, a simulation...

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Bibliographic Details
Published in:Pediatric Anesthesia 2021-03, Vol.31 (3), p.323-329
Main Authors: Lee‐Archer, Paul, Boyd, Daniel, Du, Trung, Elliott, Robert, Graydon, Cameron, Paterson, Neil, Morawska, Lidia, Ungern‐Sternberg, Britta
Format: Article
Language:English
Subjects:
Aerosols
airway management
Anesthetics
Child
COVID-19
Humans
infection control
Infectious Disease Transmission, Patient-to-Professional
Intubation
Intubation, Intratracheal
Laryngoscopy
pediatrics
SARS-CoV-2
simulation
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Summary:Background Barrier techniques, such as plastic sheets or intubation boxes, are purported to offer additional protection for healthcare workers. Aims To assess the functionality, perceived safety, droplet protection, and aerosol protection of several barrier techniques. Methods Firstly, a simulation study with 12 different laryngoscopists was conducted to assess the time taken to perform an intubation (via direct laryngoscopy, via video laryngoscopy, and via a bougie) with four different barrier techniques (personal protective equipment only, a plastic sheet, a tented plastic sheet, and an intubation box). Secondly, a cough at the time of intubation was simulated using ultraviolet dye to assess the spread of droplets; and thirdly, smoke was used to assess the spread of aerosols. Results Intubation time using the box was noninferior to using no barrier. Based on subjective ratings by the laryngoscopists, the most functional technique was no barrier followed by the intubation box, then the tented sheet, and then the plastic sheet. The technique that conferred the highest feeling of safety to the laryngoscopists was the intubation box, followed by the tented sheet, then no barrier, and then the plastic sheet. All the barriers prevented the ultraviolet dye contaminating the head and torso of the laryngoscopist. Smoke remained within the intubation box if plastics sheets were used to cover the openings and suction was ineffective at clearing it. With no barrier in place, smoke was effectively cleared away from the patient in a theater with laminar flow but tended to spread up toward the laryngoscopist in a room without laminar flow. Conclusions A well‐designed intubation box is an effective barrier against droplets and is noninferior to no barrier in relation to intubation time. However, a box interferes with laminar flow in theaters with formal ventilation systems and may result in accumulation of aerosols if it is completely enclosed.
ISSN:1155-5645
1460-9592
DOI:10.1111/pan.14103