key: cord-1054512-q3b1ppzh
authors: Yasui, Hirotoshi; Okachi, Shotaro; Fukatsu, Noriaki; Sato, Kazuhide
title: Development of a Mask for Bronchoscopy to Prevent Infection during the COVID-19 Pandemic: Image Evaluation
date: 2021-03-30
journal: American journal of respiratory and critical care medicine
DOI: 10.1164/rccm.202010-4037im
sha: e6c7b00d8e559cbf7bb0d2b892549294ca477c97
doc_id: 1054512
cord_uid: q3b1ppzh

nan

The coronavirus disease (COVID-19) pandemic has led to the realization that infectious diseases are a threat to humankind. As coronaviruses are transmitted through contact and droplets, bronchoscopy is considered a high-risk procedure (1, 2) . Owing to the increased risk of virus transmission through droplets and aerosols, strict infection-control measures are essential (3, 4) .

To prevent droplets and aerosols during bronchoscopy, we created a simple disposable mask for patients who undergo bronchoscopy with the help of the Japanese mask industry. The mask has a 10-mm slit in the center for inserting a bronchoscope and a 6-mm slit on both sides for suction catheter ( Figure 1A ). The slits are closed with an electrified filter unless the tube is pierced.

To evaluate effectiveness in preventing droplet and aerosol dispersal from the mouth, particle visualization using a highly sensitive camera and a high-power light source (ViEST system) was performed under two conditions: with or without the mask (bronchoscope and one suction catheter inserted). This system can visualize airborne particles over 80 nm in size. Without the mask, droplets were airborne when patients coughed and could be observed for 5 seconds. With the mask, almost no droplets were observed ( Figure 1B and Video 1).

Our mask has the same structure as a normal mask, and therefore patients can use it correctly with ease. Moreover, it is ideal to use for healthcare providers, as it is disposable and there is no need for disinfection.

However, using a mask during bronchoscopy may limit ventilation (5) . There are two ways to ensure safety when using the mask. First, all patients are fitted with a nasal oxygen cannula under the mask to maintain the oxygen saturation as measured by pulse oximetry above 90%. Second, a CO 2 monitor is used to detect the increase in CO 2 concentration. Moreover, patients with a history of CO 2 narcosis are not suitable for this mask.

In conclusion, this new mask might be useful in preventing splashes and aerosols during bronchoscopy. 

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Pathophysiology, transmission, diagnosis, and treatment of coronavirus disease 2019 (COVID-19): a review

Respiratory virus shedding in exhaled breath and efficacy of face masks

COVID-19 and public interest in face mask use

Return to training in the COVID-19 era: The physiological effects of face masks during exercise