Systematic review of respiratory particle measurement studies and a new method for human particle emission measurement during breathing, coughing, and voice production
Loading...
Access rights
embargoedAccess
URL
Journal Title
Journal ISSN
Volume Title
A2 Katsausartikkeli tieteellisessä aikakauslehdessä
This publication is imported from Aalto University research portal.
View publication in the Research portal (opens in new window)
View publication in the Research portal (opens in new window)
Date
Major/Subject
Mcode
Degree programme
Language
en
Pages
61
Series
Journal of Aerosol Science
Abstract
Spurred by the SARS-CoV-2 pandemic, there has been a considerable increase in research on human respiratory particle characterization using diverse methodologies. Our objective was to review previous methods used and to develop a highly controlled method for measuring human respiratory particle emissions during breathing, coughing, and voice production. A systematic search from three databases (Ovid Medline, Web of Science, and Scopus) was carried out in January 2024 according to the PRISMA 2020 principles. 77 original studies were included in the qualitative analysis. Considerable variation was noted in the methodology of previous particle measurement studies regarding setups, instrumentation, protocols, and reporting. We identified six key setups and discuss factors such as relative humidity, particle losses, and dilution for each. We also present our novel setup, comprising a measurement chamber with particle-free air supply, funnel-type sample inlet, and real-time particle measurement instruments to investigate the absolute and time-resolved exhaled aerosol emission rates. The drying and dilution processes of particles, as well as particle losses, are well controlled. CO2 measurements are utilized for sample dilution and exhaled flow estimation. Optional sound pressure measurement provides calibrated absolute values. Fundamental frequency and electroglottography registration are also included as optional tools for studying voice production. Our setup reports accurate data on particle number concentration, mass concentration, particle number emission, and mass emission rates during breathing, coughing, speaking, and singing in the size range 0.004–10 μm, therefore succeeding in measuring ultrafine particles. We also report a positive effect of sound pressure and CO2 on particle emissions. Enhanced methods for particle emission measurements improve our understanding of airborne transmission and human physiology, providing tools to minimize the risk of airborne transmission. We propose a set of key methodological parameters for improved reporting, including the documentation of dilution, particle drying, sampling losses and sound pressure.Description
Keywords
Other note
Citation
Tuhkuri Matvejeff, A, Silvonen, V, Heikkilä, P, Sanmark, E, Hakala, J, Kuittinen, N, Geneid, A, Laukkanen, A-M, Alku, P, Oksanen, L-M, Rönkkö, T, Taipale, A & Saari, S 2025, 'Systematic review of respiratory particle measurement studies and a new method for human particle emission measurement during breathing, coughing, and voice production', Journal of Aerosol Science. https://doi.org/10.1016/j.jaerosci.2025.106619