Transmission risk of respiratory viruses in natural and mechanical ventilation environments: Implications for SARS-CoV-2 transmission in Africa

Anuoluwapo Sopeyin; Emilio Hornsey; Tochi Okwor; Yewande Alimi; Tajudeen Raji; Abdulaziz Mohammed; Hiwot Moges; Ezinne V.C. Onwuekwe; Frank J. Minja; Giorgia Gon; Onyema Ogbuagu; Folasade Ogunsola; Elijah Paintsil

doi:10.1136/bmjgh-2020-003522

Transmission risk of respiratory viruses in natural and mechanical ventilation environments: Implications for SARS-CoV-2 transmission in Africa

Anuoluwapo Sopeyin, Emilio Hornsey, Tochi Okwor, Yewande Alimi, Tajudeen Raji, Abdulaziz Mohammed, Hiwot Moges, Ezinne V.C. Onwuekwe, Frank J. Minja, Giorgia Gon, Onyema Ogbuagu, Folasade Ogunsola, Elijah Paintsil

Research output: Contribution to journal › Article › peer-review

Abstract

Respiratory viruses can be transmitted through contact, droplet and airborne routes. Viruses that are not naturally airborne may be aerosolised during medical procedures and transmitted to healthcare workers. Most resource-limited healthcare settings lack complex air handling systems to filter air and create pressure gradients that are necessary for minimising viral transmission. This review explores the association between ventilation and the transmission of respiratory viruses like SAR-CoV-2. When used appropriately, both natural and mechanical ventilation can decrease the concentration of viral aerosols, thereby reducing transmission. Although mechanical ventilation systems are more efficient, installation and maintenance costs limit their use in resource-limited settings, whereas the prevailing climate conditions make natural ventilation less desirable. Cost-effective hybrid systems of natural and mechanical ventilation may overcome these limitations.

Original language	English (US)
Article number	e003522
Journal	BMJ Global Health
Volume	5
Issue number	8
DOIs	https://doi.org/10.1136/bmjgh-2020-003522
State	Published - Aug 30 2020
Externally published	Yes

Keywords

Prevention strategies
Respiratory infections

ASJC Scopus subject areas

Health Policy
Public Health, Environmental and Occupational Health

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10.1136/bmjgh-2020-003522

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Sopeyin, A., Hornsey, E., Okwor, T., Alimi, Y., Raji, T., Mohammed, A., Moges, H., Onwuekwe, E. V. C., Minja, F. J., Gon, G., Ogbuagu, O., Ogunsola, F., & Paintsil, E. (2020). Transmission risk of respiratory viruses in natural and mechanical ventilation environments: Implications for SARS-CoV-2 transmission in Africa. BMJ Global Health, 5(8), Article e003522. https://doi.org/10.1136/bmjgh-2020-003522

Sopeyin, A, Hornsey, E, Okwor, T, Alimi, Y, Raji, T, Mohammed, A, Moges, H, Onwuekwe, EVC, Minja, FJ, Gon, G, Ogbuagu, O, Ogunsola, F & Paintsil, E 2020, 'Transmission risk of respiratory viruses in natural and mechanical ventilation environments: Implications for SARS-CoV-2 transmission in Africa', BMJ Global Health, vol. 5, no. 8, e003522. https://doi.org/10.1136/bmjgh-2020-003522

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abstract = "Respiratory viruses can be transmitted through contact, droplet and airborne routes. Viruses that are not naturally airborne may be aerosolised during medical procedures and transmitted to healthcare workers. Most resource-limited healthcare settings lack complex air handling systems to filter air and create pressure gradients that are necessary for minimising viral transmission. This review explores the association between ventilation and the transmission of respiratory viruses like SAR-CoV-2. When used appropriately, both natural and mechanical ventilation can decrease the concentration of viral aerosols, thereby reducing transmission. Although mechanical ventilation systems are more efficient, installation and maintenance costs limit their use in resource-limited settings, whereas the prevailing climate conditions make natural ventilation less desirable. Cost-effective hybrid systems of natural and mechanical ventilation may overcome these limitations.",

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AU - Raji, Tajudeen

AU - Mohammed, Abdulaziz

AU - Moges, Hiwot

AU - Onwuekwe, Ezinne V.C.

AU - Minja, Frank J.

AU - Gon, Giorgia

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AB - Respiratory viruses can be transmitted through contact, droplet and airborne routes. Viruses that are not naturally airborne may be aerosolised during medical procedures and transmitted to healthcare workers. Most resource-limited healthcare settings lack complex air handling systems to filter air and create pressure gradients that are necessary for minimising viral transmission. This review explores the association between ventilation and the transmission of respiratory viruses like SAR-CoV-2. When used appropriately, both natural and mechanical ventilation can decrease the concentration of viral aerosols, thereby reducing transmission. Although mechanical ventilation systems are more efficient, installation and maintenance costs limit their use in resource-limited settings, whereas the prevailing climate conditions make natural ventilation less desirable. Cost-effective hybrid systems of natural and mechanical ventilation may overcome these limitations.

KW - Prevention strategies

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Transmission risk of respiratory viruses in natural and mechanical ventilation environments: Implications for SARS-CoV-2 transmission in Africa

Abstract

Keywords

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