Myeloid phenotypes in severe COVID-19 predict secondary infection and mortality: a pilot study

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paper: Marais, C., Claude, C., Semaan, N., Charbel, R., Barreault, S., Travert, B., Piloquet, J., Demailly, Z., Morin, L., Merchaoui, Z., Teboul, J., Durand, P., Miatello, J. and Tissières, P. (2021). Myeloid phenotypes in severe COVID-19 predict secondary infection and mortality: a pilot study. Ann Intensive Care https://www.ncbi.nlm.nih.gov/pubmed/34259942/
contributor: Pierre Tissières
contributor_organization: AP-HP/Université Paris Saclay/Inserm
contributor_email: pierre.tissieres@aphp.fr
    • description: Circulating myeloid cells phenotypes of adult COVID-19 critically ill patients.
    • exact_source: Figure 3
    • tissue: circulating myeloid cells
    • immune_exposure: Covid-19 infection
    • cohort: Adults
    • comparison: Alive vs dead and secondary infection vs no secondary infection
    • repository_id:
    • platform:
    • response_components: m-MDSC, myeloid cells, mHLA-DR, CD11b+HLADR+, CD11b- HLADR+
    • response_behavior: up
    PMID
    _id 613f9fde84f9575d93a3bb00
    authors
    Marais, Clémence et al
    abstract
    BACKGROUND: De-regulated host response to severe coronavirus disease 2019 (COVID-19), directly referring to the concept of sepsis-associated immunological dysregulation, seems to be a strong signature of severe COVID-19. Myeloid cells phenotyping is well recognized to diagnose critical illness-induced immunodepression in sepsis and has not been well characterized in COVID-19. The aim of this study is to review phenotypic characteristics of myeloid cells and evaluate their relations with the occurrence of secondary infection and mortality in patients with COVID-19 admitted in an intensive care unit. METHODS: Retrospective analysis of the circulating myeloid cells phenotypes of adult COVID-19 critically ill patients. Phenotyping circulating immune cells was performed by flow cytometry daily for routine analysis and twice weekly for lymphocytes and monocytes subpopulations analysis, as well as monocyte human leukocyte antigen (mHLA)-DR expression. RESULTS: Out of the 29 critically ill adult patients with severe COVID-19 analyzed, 12 (41.4%) developed secondary infection and six patients died during their stay. Monocyte HLA-DR kinetics was significantly different between patients developing secondary infection and those without, respectively, at day 5–7 and 8–10 following admission. The monocytes myeloid-derived suppressor cells to total monocytes ratio was associated with 28- and 60-day mortality. Those myeloid characteristics suggest three phenotypes: hyperactivated monocyte/macrophage is significantly associated with mortality, whereas persistent immunodepression is associated with secondary infection occurrence compared to transient immunodepression. CONCLUSIONS: Myeloid phenotypes of critically ill COVID-19 patients may be associated with development of secondary infection, 28- and 60-day mortality. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1186/s13613-021-00896-4.
    status
    claimed
    curator
    journal
    Ann Intensive Care