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Assessing visible aerosol generation during vitrectomy in the era of Covid-19

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posted on 2020-09-03, 10:21 authored by Sidath Liyanage, Pathma Ramasamy, Omar Elhaddad, Kieren Darcy, Andrew Hudson, Johannes Keller
Objective: To assess visible aerosol generation during simulated vitrectomy surgery. Methods: A model comprising a human cadaveric corneoscleral rim mounted on an artificial anterior chamber was used. Three-port 25 gauge vitrectomy simulated surgery was performed with any visible aerosol production recorded using high-speed 4K camera. The following were assessed: (1) vitrector at maximum cut rate in static and dynamic conditions inside the model, (2) vitrector at air–fluid interface in a physical model, (3) passive fluid–air exchange with a backflush hand piece, (4) valved cannulas under air, and (5) a defective valved cannula under air. Results: No visible aerosol or droplets were identified when the vitrector was used within the model. In the physical model, no visible aerosol or droplets were seen when the vitrector was engaged at the air–fluid interface. Droplets were produced from the opening of backflush hand piece during passive fluid–air exchange. No visible aerosol was produced from the intact valved cannulas under air pressure, but droplets were seen at the beginning of fluid–air exchange when the valved cannula was defective. Conclusions: We found no evidence of visible aerosol generation during simulated vitrectomy surgery with competent valved cannulas. In the physical model, no visible aerosol was generated by the high-speed vitrector despite cutting at the air–fluid interface.

History

Citation

Eye (2020). https://doi.org/10.1038/s41433-020-1052-4

Author affiliation

School of Chemistry

Version

  • AM (Accepted Manuscript)

Published in

Eye

Pagination

(4)

Publisher

Springer Nature [academic journals on nature.com]

issn

0950-222X

eissn

1476-5454

Acceptance date

2020-06-16

Copyright date

2020

Available date

2020-12-25

Spatial coverage

England

Language

English

Publisher version

https://www.nature.com/articles/s41433-020-1052-4#:~:text=Conclusions,at the air–fluid interface.

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