Journal
ISCIENCE
Volume 25, Issue 10, Pages -Publisher
CELL PRESS
DOI: 10.1016/j.isci.2022.105195
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Funding
- European Union's Regional Development Fund (EFRE)
- H2020-EU-ITN-IMPACT Marie Sklodowska-Curie grant [IMPACT. 674911]
- Inno-INDIGO-NCDs-CAPomics Project [BMBF 01DQ16010]
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Breath analysis can provide immediate information on infection mechanisms and host response. This study found that the VOC profiles in exhaled breath differed between COVID-19 patients and healthy individuals or those with other respiratory infections. The downregulation of specific VOCs may be attributed to the suppressive effects of the virus on gut or pulmonary microbial metabolism.
Breath volatile organics (VOCs) may provide immediate information on infection mechanisms and host response. We conducted real-time mass spectrometry-based breath profiling in 708 non-preselected consecutive subjects in the screening scenario of a COVID-19 test center. Recruited subjects were grouped based on PCR-confirmed infection status and presence or absence of fly like symptoms. Exhaled VOC profiles of SARS-CoV-2-positive cases (n = 36) differed from healthy (n = 256) and those with other respiratory infections (n = 416). Concentrations of most VOCs were suppressed in COVID-19. VOC concentrations also differed between symptomatic and asymptomatic cases. Breath markers mirror effects of infections onto host's cellular metabolism and microbiome. Downregulation of specific VOCs was attributed to suppressive effects of SLRS-CoV-2 onto gut or pulmonary microbial metabolism. Breath analysis holds potential for monitoring SARS-CoV-2 infections rather than for primary diagnosis. Breath profiling offers unconventional insight into host-virus cross-talk and infection microbiology and enables non-invasive assessment of disease manifestation.
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