Lower airway microbiota compositions differ between influenza, COVID-19 and bacteria-related acute respiratory distress syndromes

Imbert, Sébastien; Revers, Mathilde; Enaud, Raphaël; Orieux, Arthur; Camino, Adrian; Massri, Alexandre; Villeneuve, Laurent; Carrié, Cédric; Petit, Laurent; Boyer, Alexandre; Berger, Patrick; Gruson, Didier; Delhaes, Laurence; Prével, Renaud

doi:10.1186/s13054-024-04922-2

Lower airway microbiota compositions differ between influenza, COVID-19 and bacteria-related acute respiratory distress syndromes

detalle del documento

IDENTIFICACIÓN

doi:10.1186/s13054-024-04922-2...

Autor

Imbert, Sébastien Revers, Mathilde Enaud, Raphaël Orieux, Arthur Camino, Adrian Massri, Alexandre Villeneuve, Laurent Carrié, Cédric Petit, Laurent Boyer, Alexandre Berger, Patrick Gruson, Didier Delhaes, Laurence Prével, Renaud

Langue

Editor

BioMed Central

Categoría

Medicine & Public Health

Año

2024

fecha de cotización

24/4/2024

Palabras clave

acute respiratory distress syndrom... mycobiota microbiota cap-related aetiologies patients = 0 mycobiota ards microbiota covid-19 lower bacterial influenza

Métrico

Resumen

Background Acute respiratory distress syndrome (ARDS) is responsible for 400,000 deaths annually worldwide.

Few improvements have been made despite five decades of research, partially because ARDS is a highly heterogeneous syndrome including various types of aetiologies.

Lower airway microbiota is involved in chronic inflammatory diseases and recent data suggest that it could also play a role in ARDS.

Nevertheless, whether the lower airway microbiota composition varies between the aetiologies of ARDS remain unknown.

The aim of this study is to compare lower airway microbiota composition between ARDS aetiologies, i.e. pulmonary ARDS due to influenza, SARS-CoV-2 or bacterial infection.

Methods Consecutive ARDS patients according to Berlin’s classification requiring invasive ventilation with PCR-confirmed influenza or SARS-CoV-2 infections and bacterial infections (> 105 CFU/mL on endotracheal aspirate) were included.

Endotracheal aspirate was collected at admission, V3-V4 and ITS2 regions amplified by PCR, deep-sequencing performed on MiSeq sequencer (Illumina®) and data analysed using DADA2 pipeline.

Results Fifty-three patients were included, 24 COVID-19, 18 influenza, and 11 bacterial CAP-related ARDS.

The lower airway bacteriobiota and mycobiota compositions (β-diversity) were dissimilar between the three groups ( p = 0.05 and p = 0.01, respectively).

The bacterial α-diversity was significantly lower in the bacterial CAP-related ARDS group compared to the COVID-19 ARDS group ( p = 0.04).

In contrast, influenza-related ARDS patients had higher lung mycobiota α-diversity than the COVID-19-related ARDS ( p = 0 < 01).

Conclusion Composition of lower airway microbiota (both microbiota and mycobiota) differs between influenza, COVID-19 and bacterial CAP-related ARDS.

Future studies investigating the role of lung microbiota in ARDS pathophysiology should take aetiology into account.

Imbert, Sébastien,Revers, Mathilde,Enaud, Raphaël,Orieux, Arthur,Camino, Adrian,Massri, Alexandre,Villeneuve, Laurent,Carrié, Cédric,Petit, Laurent,Boyer, Alexandre,Berger, Patrick,Gruson, Didier,Delhaes, Laurence,Prével, Renaud, 2024, Lower airway microbiota compositions differ between influenza, COVID-19 and bacteria-related acute respiratory distress syndromes, BioMed Central