Late Breaking Abstract - SARS-CoV-2 load in exhaled end-tidal breath fine aerosol condensates among acutely symptomatic COVID-19 cases

S. Moschos (Newcastle Upon Tyne, United Kingdom), E. Jajah (Athens, Greece), P. Almeida (Minas Gerais, Brazil), N. Athanasiou (Athens, Greece), T. Nikolouzakis (Herakleion, Greece), J. Henderson (Newcastle Upon Tyne, United Kingdom), S. Ali (Newcastle Upon Tyne, United Kingdom), T. Mantso (Newcastle Upon Tyne, United Kingdom), D. Kofteridis (Herakleion, Greece), A. Zafiropoulos (Herakleion, Greece), C. Rokka (Athens, Greece), D. Queiroz (Minas Gerais, Brazil), A. Tsatsakis (Herakleion, Greece), P. Katsaounou (Athens, Greece), A. Kotanidou (Athens, Greece), P. Lagiou (Boston, United States), R. Aguiar (Minas Gerais, Brazil), M. Teixeira (Athens, Greece), G. Magiorkinis (Athens, Greece), P. Katsaounou (Athens, Greece)

Source: International Congress 2022 – COVID basic science

Session: COVID basic science
Session type: Thematic Poster
Number: 4082

Abstract

SARS-CoV-2 infectious virions have been reported in exhaled breath, but their source remains elusive: breath sampling systems used to date do not separate breath aerosols by size, fail to prevent salivary/fomite contamination, or aerosol size evolution before sample capture. We hypothesised that sampling end-tidal, oral exhaled breath condensate (EBC), after separating large droplets by inertial impaction 4cm from the lips, would quantify viral loads in distal lung-derived fine aerosols (FA). We used a collector (PBM-HALE^TM) that captures mechanically aerosolised viruses¹ to sample adult participants for <30 min under informed consent; cases symptomatic for <5 days (n=30) or >5 days (n=12), positive by nasopharyngeal swab RT-PCR (Ct=13.1), were sampled in clinical triage ‘red zones’, or COVID-19 wards with no mechanical ventilation or open windows. Salivary alpha amylase activity (Salimetrics LLC), or SARS-CoV-2 viral load (VIASURE SARS-CoV-2 (ORF1ab and N gene)) after QIAsymhpony DSP midi extraction, was quantified in 0.2mL FA EBC fractions. No salivary alpha amylase activity was detected in healthy participant FA EBC (>1:1,750 dilution of paired saliva vs assay detection limit (n=300)). No SARS-CoV-2 RNA was detected in FA EBC (1.18mL ± 0.32 total volume) among any COVID-19 cases (Aug 2020-Jan 2022) at limits of detection of 120 genomes/mL FA EBC or 4.72 genomes/min exhalation. No pre-extraction spike-in control reaction inhibition was observed. No ambient contamination of the alveolar FA EBC was detected with this sampling device. The alveolar fraction of orally exhaled tidal breath lacks detectable SARS-CoV-2 viral load.

1. Henderson, J. et al. ERJ. 2021; 58:PA2368

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S. Moschos (Newcastle Upon Tyne, United Kingdom), E. Jajah (Athens, Greece), P. Almeida (Minas Gerais, Brazil), N. Athanasiou (Athens, Greece), T. Nikolouzakis (Herakleion, Greece), J. Henderson (Newcastle Upon Tyne, United Kingdom), S. Ali (Newcastle Upon Tyne, United Kingdom), T. Mantso (Newcastle Upon Tyne, United Kingdom), D. Kofteridis (Herakleion, Greece), A. Zafiropoulos (Herakleion, Greece), C. Rokka (Athens, Greece), D. Queiroz (Minas Gerais, Brazil), A. Tsatsakis (Herakleion, Greece), P. Katsaounou (Athens, Greece), A. Kotanidou (Athens, Greece), P. Lagiou (Boston, United States), R. Aguiar (Minas Gerais, Brazil), M. Teixeira (Athens, Greece), G. Magiorkinis (Athens, Greece), P. Katsaounou (Athens, Greece). Late Breaking Abstract - SARS-CoV-2 load in exhaled end-tidal breath fine aerosol condensates among acutely symptomatic COVID-19 cases. 4082

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