Longitudinal analysis of lung microbiome, immune response, and metabolism in ventilator-associated pneumonia: a cohort study

Ingrid G. Bustos; Cristian C. Serrano-Mayorga; José L. Guerrero; Jennifer M. Baker; Christopher Brown; Nicole Falkowski; Piyush Ranjan; Alejandro Acosta-Gonzalez; Lina M. Mendez; Acenet Garcia-Cordoba; Adriana Echeverry-Gutierrez; Denis A. Bojaca; Marcela Chisica-Mahecha; Nicol Guarin-Tequia; Liliana Romero-Romero; Norberto Gonzalez-Juarbe; Alejandro Rodriguez; Mónica P. Cala; Ignacio Martin-Loeches; Sanjay H. Chotirmall; Robert P. Dickson; Luis F. Reyes

doi:10.1186/s13054-025-05498-1

Longitudinal analysis of lung microbiome, immune response, and metabolism in ventilator-associated pneumonia: a cohort study

Ingrid G. Bustos (PHD Student)
, Cristian C. Serrano-Mayorga (PHD Student)
, José L. Guerrero (Third Author)
, Jennifer M. Baker (Fourth Autor)
, Christopher Brown (Fifth Author)
, Nicole Falkowski (Another Number Author)
, Piyush Ranjan (Another Number Author)
, Alejandro Acosta-Gonzalez
, Lina M. Mendez (Another Number Author)
, Acenet Garcia-Cordoba (Another Number Author)
, Adriana Echeverry-Gutierrez (Another Number Author)
, Denis A. Bojaca (Another Number Author)
, Marcela Chisica-Mahecha (Another Number Author)
, Nicol Guarin-Tequia (Another Number Author)
, Liliana Romero-Romero (Another Number Author)
, Norberto Gonzalez-Juarbe (Another Number Author)
, Alejandro Rodriguez (Another Number Author)
, Mónica P. Cala
, Ignacio Martin-Loeches (Another Number Author)
, Sanjay H. Chotirmall (Another Number Author)

Robert P. Dickson, Luis F. Reyes (Correspondent Author)

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Rationale: Ventilator-associated pneumonia (VAP) is a common complication in patients under invasive mechanical ventilation (IMV), yet its underlying mechanisms remain poorly understood. This study investigated the lung microbiome, inflammatory response, and metabolism in patients undergoing IMV to identify factors that may predispose them to developing VAP. Objectives: To investigate how changes in lung microbiome composition, inflammatory response, and metabolic profiles may predispose patients undergoing IMV to develop VAP. Methods: Patients requiring IMV for at least 48 h due to non-infectious respiratory failure were enrolled. Bronchoalveolar lavage (BAL) samples were collected at baseline, upon VAP diagnosis, or after 72 h for non-VAP cases. DNA sequencing, cytokine quantification, and metabolomic analyses were performed. Results: Of the 80 patients, 41 (51%) developed VAP. No significant differences in alpha or beta diversity of the lung microbiome were observed between groups. However, both groups showed changes in microbiome composition over time, suggesting an impact of IMV. Tumour necrosis factor-alpha (TNF-α) lung levels were significantly higher in VAP patients, while lung interleukin-1 beta (IL-1β) increased in all patients. Metabolomic analysis revealed shifts in pentose phosphate and citric acid cycle pathways, indicating a transition to anaerobic metabolism in the lungs of VAP patients. Conclusions: Mechanical ventilation was associated with temporal changes in lung microbiome composition independent of VAP development. VAP cases exhibited higher TNF-α levels and metabolic profiles indicative of anaerobic adaptation, while IL-1β elevations were primarily linked to mechanical ventilation rather than infection.

Original language	English
Article number	275
Pages (from-to)	1-13
Number of pages	13
Journal	Critical Care
Volume	29
Issue number	1
DOIs	https://doi.org/10.1186/s13054-025-05498-1
State	Published - 3 Jul 2025

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10.1186/s13054-025-05498-1

https://ccforum.biomedcentral.com/articles/10.1186/s13054-025-05498-1

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Bustos, I. G., Serrano-Mayorga, C. C., Guerrero, J. L., Baker, J. M., Brown, C., Falkowski, N., Ranjan, P., Acosta-Gonzalez, A., Mendez, L. M., Garcia-Cordoba, A., Echeverry-Gutierrez, A., Bojaca, D. A., Chisica-Mahecha, M., Guarin-Tequia, N., Romero-Romero, L., Gonzalez-Juarbe, N., Rodriguez, A., Cala, M. P., Martin-Loeches, I., ... Reyes, L. F. (2025). Longitudinal analysis of lung microbiome, immune response, and metabolism in ventilator-associated pneumonia: a cohort study. Critical Care, 29(1), 1-13. Article 275. https://doi.org/10.1186/s13054-025-05498-1

@article{99f156c0fe8b47559ae4f727e0364333,

title = "Longitudinal analysis of lung microbiome, immune response, and metabolism in ventilator-associated pneumonia: a cohort study",

abstract = "Rationale: Ventilator-associated pneumonia (VAP) is a common complication in patients under invasive mechanical ventilation (IMV), yet its underlying mechanisms remain poorly understood. This study investigated the lung microbiome, inflammatory response, and metabolism in patients undergoing IMV to identify factors that may predispose them to developing VAP. Objectives: To investigate how changes in lung microbiome composition, inflammatory response, and metabolic profiles may predispose patients undergoing IMV to develop VAP. Methods: Patients requiring IMV for at least 48 h due to non-infectious respiratory failure were enrolled. Bronchoalveolar lavage (BAL) samples were collected at baseline, upon VAP diagnosis, or after 72 h for non-VAP cases. DNA sequencing, cytokine quantification, and metabolomic analyses were performed. Results: Of the 80 patients, 41 (51\%) developed VAP. No significant differences in alpha or beta diversity of the lung microbiome were observed between groups. However, both groups showed changes in microbiome composition over time, suggesting an impact of IMV. Tumour necrosis factor-alpha (TNF-α) lung levels were significantly higher in VAP patients, while lung interleukin-1 beta (IL-1β) increased in all patients. Metabolomic analysis revealed shifts in pentose phosphate and citric acid cycle pathways, indicating a transition to anaerobic metabolism in the lungs of VAP patients. Conclusions: Mechanical ventilation was associated with temporal changes in lung microbiome composition independent of VAP development. VAP cases exhibited higher TNF-α levels and metabolic profiles indicative of anaerobic adaptation, while IL-1β elevations were primarily linked to mechanical ventilation rather than infection.",

author = "Bustos, \{Ingrid G.\} and Serrano-Mayorga, \{Cristian C.\} and Guerrero, \{Jos{\'e} L.\} and Baker, \{Jennifer M.\} and Christopher Brown and Nicole Falkowski and Piyush Ranjan and Alejandro Acosta-Gonzalez and Mendez, \{Lina M.\} and Acenet Garcia-Cordoba and Adriana Echeverry-Gutierrez and Bojaca, \{Denis A.\} and Marcela Chisica-Mahecha and Nicol Guarin-Tequia and Liliana Romero-Romero and Norberto Gonzalez-Juarbe and Alejandro Rodriguez and Cala, \{M{\'o}nica P.\} and Ignacio Martin-Loeches and Chotirmall, \{Sanjay H.\} and Dickson, \{Robert P.\} and Reyes, \{Luis F.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = jul,

day = "3",

doi = "10.1186/s13054-025-05498-1",

language = "Ingl{\'e}s",

volume = "29",

pages = "1--13",

journal = "Critical Care",

issn = "1364-8535",

publisher = "BioMed Central Ltd",

number = "1",

}

Bustos, IG, Serrano-Mayorga, CC, Guerrero, JL, Baker, JM, Brown, C, Falkowski, N, Ranjan, P, Acosta-Gonzalez, A, Mendez, LM, Garcia-Cordoba, A, Echeverry-Gutierrez, A, Bojaca, DA, Chisica-Mahecha, M, Guarin-Tequia, N, Romero-Romero, L, Gonzalez-Juarbe, N, Rodriguez, A, Cala, MP, Martin-Loeches, I, Chotirmall, SH, Dickson, RP & Reyes, LF 2025, 'Longitudinal analysis of lung microbiome, immune response, and metabolism in ventilator-associated pneumonia: a cohort study', Critical Care, vol. 29, no. 1, 275, pp. 1-13. https://doi.org/10.1186/s13054-025-05498-1

Longitudinal analysis of lung microbiome, immune response, and metabolism in ventilator-associated pneumonia: a cohort study. / Bustos, Ingrid G. (PHD Student); Serrano-Mayorga, Cristian C. (PHD Student); Guerrero, José L. (Third Author) et al.
In: Critical Care, Vol. 29, No. 1, 275, 03.07.2025, p. 1-13.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Longitudinal analysis of lung microbiome, immune response, and metabolism in ventilator-associated pneumonia: a cohort study

AU - Guerrero, José L.

AU - Brown, Christopher

AU - Falkowski, Nicole

AU - Ranjan, Piyush

AU - Acosta-Gonzalez, Alejandro

AU - Mendez, Lina M.

AU - Garcia-Cordoba, Acenet

AU - Echeverry-Gutierrez, Adriana

AU - Bojaca, Denis A.

AU - Chisica-Mahecha, Marcela

AU - Guarin-Tequia, Nicol

AU - Romero-Romero, Liliana

AU - Gonzalez-Juarbe, Norberto

AU - Rodriguez, Alejandro

AU - Cala, Mónica P.

AU - Martin-Loeches, Ignacio

AU - Chotirmall, Sanjay H.

AU - Dickson, Robert P.

AU - Reyes, Luis F.

A2 - Bustos, Ingrid G.

A2 - Serrano-Mayorga, Cristian C.

A2 - Baker, Jennifer M.

PY - 2025/7/3

Y1 - 2025/7/3

N2 - Rationale: Ventilator-associated pneumonia (VAP) is a common complication in patients under invasive mechanical ventilation (IMV), yet its underlying mechanisms remain poorly understood. This study investigated the lung microbiome, inflammatory response, and metabolism in patients undergoing IMV to identify factors that may predispose them to developing VAP. Objectives: To investigate how changes in lung microbiome composition, inflammatory response, and metabolic profiles may predispose patients undergoing IMV to develop VAP. Methods: Patients requiring IMV for at least 48 h due to non-infectious respiratory failure were enrolled. Bronchoalveolar lavage (BAL) samples were collected at baseline, upon VAP diagnosis, or after 72 h for non-VAP cases. DNA sequencing, cytokine quantification, and metabolomic analyses were performed. Results: Of the 80 patients, 41 (51%) developed VAP. No significant differences in alpha or beta diversity of the lung microbiome were observed between groups. However, both groups showed changes in microbiome composition over time, suggesting an impact of IMV. Tumour necrosis factor-alpha (TNF-α) lung levels were significantly higher in VAP patients, while lung interleukin-1 beta (IL-1β) increased in all patients. Metabolomic analysis revealed shifts in pentose phosphate and citric acid cycle pathways, indicating a transition to anaerobic metabolism in the lungs of VAP patients. Conclusions: Mechanical ventilation was associated with temporal changes in lung microbiome composition independent of VAP development. VAP cases exhibited higher TNF-α levels and metabolic profiles indicative of anaerobic adaptation, while IL-1β elevations were primarily linked to mechanical ventilation rather than infection.

AB - Rationale: Ventilator-associated pneumonia (VAP) is a common complication in patients under invasive mechanical ventilation (IMV), yet its underlying mechanisms remain poorly understood. This study investigated the lung microbiome, inflammatory response, and metabolism in patients undergoing IMV to identify factors that may predispose them to developing VAP. Objectives: To investigate how changes in lung microbiome composition, inflammatory response, and metabolic profiles may predispose patients undergoing IMV to develop VAP. Methods: Patients requiring IMV for at least 48 h due to non-infectious respiratory failure were enrolled. Bronchoalveolar lavage (BAL) samples were collected at baseline, upon VAP diagnosis, or after 72 h for non-VAP cases. DNA sequencing, cytokine quantification, and metabolomic analyses were performed. Results: Of the 80 patients, 41 (51%) developed VAP. No significant differences in alpha or beta diversity of the lung microbiome were observed between groups. However, both groups showed changes in microbiome composition over time, suggesting an impact of IMV. Tumour necrosis factor-alpha (TNF-α) lung levels were significantly higher in VAP patients, while lung interleukin-1 beta (IL-1β) increased in all patients. Metabolomic analysis revealed shifts in pentose phosphate and citric acid cycle pathways, indicating a transition to anaerobic metabolism in the lungs of VAP patients. Conclusions: Mechanical ventilation was associated with temporal changes in lung microbiome composition independent of VAP development. VAP cases exhibited higher TNF-α levels and metabolic profiles indicative of anaerobic adaptation, while IL-1β elevations were primarily linked to mechanical ventilation rather than infection.

UR - https://www.scopus.com/pages/publications/105010471744

U2 - 10.1186/s13054-025-05498-1

DO - 10.1186/s13054-025-05498-1

M3 - Artículo

SN - 1364-8535

VL - 29

SP - 1

EP - 13

JO - Critical Care

JF - Critical Care

IS - 1

M1 - 275

ER -

Longitudinal analysis of lung microbiome, immune response, and metabolism in ventilator-associated pneumonia: a cohort study

Abstract

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