Droplet, aerosol and SARS-CoV-2 emissions during singing and talking
Alsved, Malin LU
; Matamis, Alexios
LU
; Thuresson, Sara
LU
; Bohlin, Ragnar
; Richter, Mattias
LU
; Bengtsson, Per-Erik
LU
; Nygren, David
LU
; Widell, Anders
LU
; Fraenkel, Carl-Johan
LU
and Medstrand, Patrik
LU
, et al.
(2021)
NOSA Symposium 2021
- Abstract
Introduction
As the pandemic continues to spread, more knowledge is needed about the viral transmission routes. Several super spreading events during the Covid-19 pandemic have been linked to singing in choirs and talking loud. However, in the beginning of the pandemic there was only one study about emitted aerosols and droplets from singing, published in 1968, and only a handful on emissions from talking. Therefore, we conducted a study to measure the aerosol and droplet emissions from talking and singing. We also evaluated the emissions from singing when wearing a face mask.
We have further developed our setup so that we collect the aerosol particles from Covid-19 infected patients that are talking and singing, and analyze... (More)
Introduction
As the pandemic continues to spread, more knowledge is needed about the viral transmission routes. Several super spreading events during the Covid-19 pandemic have been linked to singing in choirs and talking loud. However, in the beginning of the pandemic there was only one study about emitted aerosols and droplets from singing, published in 1968, and only a handful on emissions from talking. Therefore, we conducted a study to measure the aerosol and droplet emissions from talking and singing. We also evaluated the emissions from singing when wearing a face mask.
We have further developed our setup so that we collect the aerosol particles from Covid-19 infected patients that are talking and singing, and analyze our samples for SARS-CoV-2, the virus causing Covid-19.
Method
Twelve healthy singers (7 professionals, 5 amateurs) were included in the first study part on quantifying the amount of emitted aerosols and droplets. The singers were singing or talking a short consonant rich text repeatedly at a constant pitch with their face in the opening of a funnel. The aerosol particle size and concentration was measured from the other end of the funnel using an aerodynamic particle sizer (APS, 3321, TSI Inc). In addition, the amount of un-evaporated droplets were captured with a high-speed camera and quantified using image analysis.
During February and March 2021 we will collect aerosol particles from patients with confirmed Covid-19 that are singing and talking into a funnel. We will use a growth tube condensation collector, a BioSpot (Aerosol Devices), operating at 8 L min-1, and a NIOSH BC-251 cyclone sampler operating at 3.5 L min-1 (TISCH Environmental). The BioSpot collects the whole range of exhaled aerosol particles with high (95%) efficiency into liquid, and the NIOSH cyclone sampler collects particles into three size fractions: <1 µm (filter), 1-4 µm (liquid), >4 µm (liquid). The APS is again used to measure size and concentration of the emitted aerosol particles, so that emissions from infected test subjects can be compared with those of the healthy test subjects. Air samples will be analyzed for detection of SARS-CoV-2 genes, and if possible, SARS-CoV-2 infectivity in cell cultures.
Results
Aerosol particle emissions from healthy test subjects were significantly higher during normal singing (median 690, range [320–2870] particles/s) than during normal talking (270 [120–1380] particles/s) (Wilcoxon’s signed rank test, p=0.002). Loud singing produced even more aerosol particles (980 [390–2870] particles/s) than normal singing (p=0.002).
The amount of non-evaporated droplets detected by the high-speed camera setup showed similar results: more droplets during loud singing or talking. For both aerosol particle concentrations and droplet numbers, the levels were reduced by on average 70-80% when wearing a surgical face mask.
Conclusions
Singing and talking give rise to high aerosol and droplet emissions from the respiratory tract. This is likely an important transmission route for Covid-19. In our upcoming part of the study we hope to determine how much SARS-CoV-2 that is emitted during these social activities. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/c578692d-f071-41ff-817b-d46a437aa811
- author
- Alsved, Malin
LU
; Matamis, Alexios
LU
; Thuresson, Sara
LU
; Bohlin, Ragnar
; Richter, Mattias
LU
; Bengtsson, Per-Erik
LU
; Nygren, David
LU
; Widell, Anders
LU
; Fraenkel, Carl-Johan
LU
and Medstrand, Patrik
LU
, et al. (More)
- Alsved, Malin
LU
; Matamis, Alexios
LU
; Thuresson, Sara
LU
; Bohlin, Ragnar
; Richter, Mattias
LU
; Bengtsson, Per-Erik
LU
; Nygren, David
LU
; Widell, Anders
LU
; Fraenkel, Carl-Johan
LU
; Medstrand, Patrik
LU
and Löndahl, Jakob
LU
(Less)
- organization
- publishing date
- 2021-03-15
- type
- Contribution to conference
- publication status
- published
- subject
- conference name
- NOSA Symposium 2021
- conference location
- Sweden
- conference dates
- 2021-03-15 - 2021-03-17
- language
- English
- LU publication?
- yes
- id
- c578692d-f071-41ff-817b-d46a437aa811
- date added to LUP
- 2022-01-14 10:53:24
- date last changed
- 2022-04-25 13:40:09
@misc{c578692d-f071-41ff-817b-d46a437aa811,
abstract = {{<br/>Introduction<br/>As the pandemic continues to spread, more knowledge is needed about the viral transmission routes. Several super spreading events during the Covid-19 pandemic have been linked to singing in choirs and talking loud. However, in the beginning of the pandemic there was only one study about emitted aerosols and droplets from singing, published in 1968, and only a handful on emissions from talking. Therefore, we conducted a study to measure the aerosol and droplet emissions from talking and singing. We also evaluated the emissions from singing when wearing a face mask.<br/>We have further developed our setup so that we collect the aerosol particles from Covid-19 infected patients that are talking and singing, and analyze our samples for SARS-CoV-2, the virus causing Covid-19.<br/>Method<br/>Twelve healthy singers (7 professionals, 5 amateurs) were included in the first study part on quantifying the amount of emitted aerosols and droplets. The singers were singing or talking a short consonant rich text repeatedly at a constant pitch with their face in the opening of a funnel. The aerosol particle size and concentration was measured from the other end of the funnel using an aerodynamic particle sizer (APS, 3321, TSI Inc). In addition, the amount of un-evaporated droplets were captured with a high-speed camera and quantified using image analysis.<br/>During February and March 2021 we will collect aerosol particles from patients with confirmed Covid-19 that are singing and talking into a funnel. We will use a growth tube condensation collector, a BioSpot (Aerosol Devices), operating at 8 L min-1, and a NIOSH BC-251 cyclone sampler operating at 3.5 L min-1 (TISCH Environmental). The BioSpot collects the whole range of exhaled aerosol particles with high (95%) efficiency into liquid, and the NIOSH cyclone sampler collects particles into three size fractions: <1 µm (filter), 1-4 µm (liquid), >4 µm (liquid). The APS is again used to measure size and concentration of the emitted aerosol particles, so that emissions from infected test subjects can be compared with those of the healthy test subjects. Air samples will be analyzed for detection of SARS-CoV-2 genes, and if possible, SARS-CoV-2 infectivity in cell cultures.<br/>Results<br/>Aerosol particle emissions from healthy test subjects were significantly higher during normal singing (median 690, range [320–2870] particles/s) than during normal talking (270 [120–1380] particles/s) (Wilcoxon’s signed rank test, p=0.002). Loud singing produced even more aerosol particles (980 [390–2870] particles/s) than normal singing (p=0.002). <br/>The amount of non-evaporated droplets detected by the high-speed camera setup showed similar results: more droplets during loud singing or talking. For both aerosol particle concentrations and droplet numbers, the levels were reduced by on average 70-80% when wearing a surgical face mask.<br/>Conclusions<br/>Singing and talking give rise to high aerosol and droplet emissions from the respiratory tract. This is likely an important transmission route for Covid-19. In our upcoming part of the study we hope to determine how much SARS-CoV-2 that is emitted during these social activities.}},
author = {{Alsved, Malin and Matamis, Alexios and Thuresson, Sara and Bohlin, Ragnar and Richter, Mattias and Bengtsson, Per-Erik and Nygren, David and Widell, Anders and Fraenkel, Carl-Johan and Medstrand, Patrik and Löndahl, Jakob}},
language = {{eng}},
month = {{03}},
title = {{Droplet, aerosol and SARS-CoV-2 emissions during singing and talking}},
year = {{2021}},
}