High-volume evacuation mitigates viral aerosol spread in dental procedures

Rasmus Malmgren; Hanna Välimaa; Lotta Oksanen; Enni Sanmark; Petra Nikuri; Paavo Heikkilä; Jani Hakala; Aleksi Ahola; Simeoni Yli-Urpo; Ville Palomäki; Eija Asmi; Svetlana Sofieva; Antti Rostedt; Sirpa Laitinen; Martin Romantschuk; Tarja Sironen; Nina Atanasova; Susanna Paju; Laura Lahdentausta-Suomalainen

doi:10.1038/s41598-023-46430-3

High-volume evacuation mitigates viral aerosol spread in dental procedures

Rasmus Malmgren^*
, Hanna Välimaa
, Lotta Oksanen
, Enni Sanmark
, Petra Nikuri
, Paavo Heikkilä
, Jani Hakala
, Aleksi Ahola
, Simeoni Yli-Urpo
, Ville Palomäki
, Eija Asmi
, Svetlana Sofieva
, Antti Rostedt
, Sirpa Laitinen
, Martin Romantschuk
, Tarja Sironen
, Nina Atanasova
, Susanna Paju
, Laura Lahdentausta-Suomalainen

^*Corresponding author for this work

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

8 Citations (Scopus)

Abstract

Dental healthcare personnel (DHCP) are subjected to microbe-containing aerosols and splatters in their everyday work. Safer work conditions must be developed to ensure the functioning of the healthcare system. By simulating dental procedures, we aimed to compare the virus-containing aerosol generation of four common dental instruments, and high-volume evacuation (HVE) in their mitigation. Moreover, we combined the detection of infectious viruses with RT-qPCR to form a fuller view of virus-containing aerosol spread in dental procedures. The air–water syringe produced the highest number of aerosols. HVE greatly reduced aerosol concentrations during procedures. The air–water syringe spread infectious virus-containing aerosols throughout the room, while other instruments only did so to close proximity. Additionally, infectious viruses were detected on the face shields of DHCP. Virus genomes were detected throughout the room with all instruments, indicating that more resilient viruses might remain infectious and pose a health hazard. HVE reduced the spread of both infectious viruses and viral genomes, however, it did not fully prevent them. We recommend meticulous use of HVE, a well-fitting mask and face shields in dental procedures. We advise particular caution when operating with the air–water syringe. Due to limited repetitions, this study should be considered a proof-of-concept report.

Original language	English
Article number	18984
Journal	Scientific Reports
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41598-023-46430-3
Publication status	Published - Dec 2023
MoE publication type	A1 Journal article-refereed

Funding

This work was supported by the Academy of Finland COVID-19 special funding 335681 to Nina Sofia Atanasova, the Scientific Advisory Board for Defense (335681) (grant no. VN/627/2020-PLM), the Academy of Finland (grant no. 316777 to SP), the Sakari Alhopuro foundation grants (grants to PI and Laura Lahdentausta), the Finnish Dental Society Apollonia (grant to Laura Lahdentausta), and the Helsinki and Uusimaa Hospital District (HUS, grant to Laura Lahdentausta). We also acknowledge funding by the Academy of Finland Flagship (grant no. 337552).

Keywords

Humans
Virus Diseases
Aerosols
Health Personnel
Dentistry
Water

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/s41598-023-46430-3Licence: CC BY

Cite this

Malmgren, R., Välimaa, H., Oksanen, L., Sanmark, E., Nikuri, P., Heikkilä, P., Hakala, J., Ahola, A., Yli-Urpo, S., Palomäki, V., Asmi, E., Sofieva, S., Rostedt, A., Laitinen, S., Romantschuk, M., Sironen, T., Atanasova, N., Paju, S., & Lahdentausta-Suomalainen, L. (2023). High-volume evacuation mitigates viral aerosol spread in dental procedures. Scientific Reports, 13(1), Article 18984. https://doi.org/10.1038/s41598-023-46430-3

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title = "High-volume evacuation mitigates viral aerosol spread in dental procedures",

abstract = "Dental healthcare personnel (DHCP) are subjected to microbe-containing aerosols and splatters in their everyday work. Safer work conditions must be developed to ensure the functioning of the healthcare system. By simulating dental procedures, we aimed to compare the virus-containing aerosol generation of four common dental instruments, and high-volume evacuation (HVE) in their mitigation. Moreover, we combined the detection of infectious viruses with RT-qPCR to form a fuller view of virus-containing aerosol spread in dental procedures. The air–water syringe produced the highest number of aerosols. HVE greatly reduced aerosol concentrations during procedures. The air–water syringe spread infectious virus-containing aerosols throughout the room, while other instruments only did so to close proximity. Additionally, infectious viruses were detected on the face shields of DHCP. Virus genomes were detected throughout the room with all instruments, indicating that more resilient viruses might remain infectious and pose a health hazard. HVE reduced the spread of both infectious viruses and viral genomes, however, it did not fully prevent them. We recommend meticulous use of HVE, a well-fitting mask and face shields in dental procedures. We advise particular caution when operating with the air–water syringe. Due to limited repetitions, this study should be considered a proof-of-concept report.",

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Malmgren, R, Välimaa, H, Oksanen, L, Sanmark, E, Nikuri, P, Heikkilä, P, Hakala, J, Ahola, A, Yli-Urpo, S, Palomäki, V, Asmi, E, Sofieva, S, Rostedt, A, Laitinen, S, Romantschuk, M, Sironen, T, Atanasova, N, Paju, S & Lahdentausta-Suomalainen, L 2023, 'High-volume evacuation mitigates viral aerosol spread in dental procedures', Scientific Reports, vol. 13, no. 1, 18984. https://doi.org/10.1038/s41598-023-46430-3

TY - JOUR

T1 - High-volume evacuation mitigates viral aerosol spread in dental procedures

AU - Malmgren, Rasmus

AU - Välimaa, Hanna

AU - Oksanen, Lotta

AU - Sanmark, Enni

AU - Nikuri, Petra

AU - Heikkilä, Paavo

AU - Hakala, Jani

AU - Ahola, Aleksi

AU - Yli-Urpo, Simeoni

AU - Palomäki, Ville

AU - Asmi, Eija

AU - Sofieva, Svetlana

AU - Rostedt, Antti

AU - Laitinen, Sirpa

AU - Romantschuk, Martin

AU - Sironen, Tarja

AU - Atanasova, Nina

AU - Paju, Susanna

AU - Lahdentausta-Suomalainen, Laura

PY - 2023/12

Y1 - 2023/12

N2 - Dental healthcare personnel (DHCP) are subjected to microbe-containing aerosols and splatters in their everyday work. Safer work conditions must be developed to ensure the functioning of the healthcare system. By simulating dental procedures, we aimed to compare the virus-containing aerosol generation of four common dental instruments, and high-volume evacuation (HVE) in their mitigation. Moreover, we combined the detection of infectious viruses with RT-qPCR to form a fuller view of virus-containing aerosol spread in dental procedures. The air–water syringe produced the highest number of aerosols. HVE greatly reduced aerosol concentrations during procedures. The air–water syringe spread infectious virus-containing aerosols throughout the room, while other instruments only did so to close proximity. Additionally, infectious viruses were detected on the face shields of DHCP. Virus genomes were detected throughout the room with all instruments, indicating that more resilient viruses might remain infectious and pose a health hazard. HVE reduced the spread of both infectious viruses and viral genomes, however, it did not fully prevent them. We recommend meticulous use of HVE, a well-fitting mask and face shields in dental procedures. We advise particular caution when operating with the air–water syringe. Due to limited repetitions, this study should be considered a proof-of-concept report.

AB - Dental healthcare personnel (DHCP) are subjected to microbe-containing aerosols and splatters in their everyday work. Safer work conditions must be developed to ensure the functioning of the healthcare system. By simulating dental procedures, we aimed to compare the virus-containing aerosol generation of four common dental instruments, and high-volume evacuation (HVE) in their mitigation. Moreover, we combined the detection of infectious viruses with RT-qPCR to form a fuller view of virus-containing aerosol spread in dental procedures. The air–water syringe produced the highest number of aerosols. HVE greatly reduced aerosol concentrations during procedures. The air–water syringe spread infectious virus-containing aerosols throughout the room, while other instruments only did so to close proximity. Additionally, infectious viruses were detected on the face shields of DHCP. Virus genomes were detected throughout the room with all instruments, indicating that more resilient viruses might remain infectious and pose a health hazard. HVE reduced the spread of both infectious viruses and viral genomes, however, it did not fully prevent them. We recommend meticulous use of HVE, a well-fitting mask and face shields in dental procedures. We advise particular caution when operating with the air–water syringe. Due to limited repetitions, this study should be considered a proof-of-concept report.

KW - Humans

KW - Virus Diseases

KW - Aerosols

KW - Health Personnel

KW - Dentistry

KW - Water

UR - https://www.scopus.com/pages/publications/85175725492

U2 - 10.1038/s41598-023-46430-3

DO - 10.1038/s41598-023-46430-3

M3 - Article

C2 - 37923796

AN - SCOPUS:85175725492

SN - 2045-2322

VL - 13

JO - Scientific Reports

JF - Scientific Reports

IS - 1

M1 - 18984

ER -

High-volume evacuation mitigates viral aerosol spread in dental procedures

Abstract

Funding

Keywords

UN SDGs

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