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. 2020 Oct;7(1):e000730.
doi: 10.1136/bmjresp-2020-000730.

Classification of aerosol-generating procedures: a rapid systematic review

Tanya Jackson  1 Danika Deibert  1 Graeme Wyatt  1 Quentin Durand-Moreau  1 Anil Adisesh  2 Kamlesh Khunti  3 Sachin Khunti  4 Simon Smith  5 Xin Hui S Chan  6 Lawrence Ross  7 Nia Roberts  8 Elaine Toomey  9 Trisha Greenhalgh  10 Isheeta Arora  11 Susannah M Black  11 Jonathan Drake  11 Nandana Syam  11 Robert Temple  11 Sebastian Straube  12
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Classification of aerosol-generating procedures: a rapid systematic review

Tanya Jackson et al. BMJ Open Respir Res. 2020 Oct.

Abstract

In the context of covid-19, aerosol generating procedures have been highlighted as requiring a higher grade of personal protective equipment. We investigated how official guidance documents and academic publications have classified procedures in terms of whether or not they are aerosol-generating. We performed a rapid systematic review using preferred reporting items for systematic reviews and meta-analyses standards. Guidelines, policy documents and academic papers published in english or french offering guidance on aerosol-generating procedures were eligible. We systematically searched two medical databases (medline, cochrane central) and one public search engine (google) in march and april 2020. Data on how each procedure was classified by each source were extracted. We determined the level of agreement across different guidelines for each procedure group, in terms of its classification as aerosol generating, possibly aerosol-generating, or nonaerosol-generating. 128 documents met our inclusion criteria; they contained 1248 mentions of procedures that we categorised into 39 procedure groups. Procedures classified as aerosol-generating or possibly aerosol-generating by ≥90% of documents included autopsy, surgery/postmortem procedures with high-speed devices, intubation and extubation procedures, bronchoscopy, sputum induction, manual ventilation, airway suctioning, cardiopulmonary resuscitation, tracheostomy and tracheostomy procedures, non-invasive ventilation, high-flow oxygen therapy, breaking closed ventilation systems, nebulised or aerosol therapy, and high frequency oscillatory ventilation. Disagreements existed between sources on some procedure groups, including oral and dental procedures, upper gastrointestinal endoscopy, thoracic surgery and procedures, and nasopharyngeal and oropharyngeal swabbing. There is sufficient evidence of agreement across different international guidelines to classify certain procedure groups as aerosol generating. However, some clinically relevant procedures received surprisingly little mention in our source documents. To reduce dissent on the remainder, we recommend that (a) clinicians define procedures more clearly and specifically, breaking them down into their constituent components where possible; (b) researchers undertake further studies of aerosolisation during these procedures; and (c) guideline-making and policy-making bodies address a wider range of procedures.

Keywords: infection control.

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Conflict of interest statement

Competing interests: QD-M reports grants from the Workers’ Compensation Board of Alberta, during the conduct of the study. SSm reports other from 3M Canada Company, outside the submitted work. In addition, SSm has a patent P. Legare, G.E. Dwyer, A. Murphy, S.J. Smith ‘Air filtration device’ US Patent 9.744.493 and European Patent 2274067 (2008). issued, and a patent R.A. Abdulqader, S.C. Dodds, A.M. Gilman, A.D. Groth, C.P. Henderson, D.M. Maanum, L.V. Palaikis, N.A. Rakow, S.J. Smith, E. Evgeny, ‘Filtering face-piece respirator including functional material and method of forming same’ World Patent 201766284 (2015). issued. SSt reports grants from the Workers’ Compensation Board of Alberta during the conduct of the study; personal fees from the Workers’ Compensation Board of Alberta, personal fees from WorkSafeBC and personal fees from the Canadian Board of Occupational Medicine, outside the submitted work.

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