Mechanical ventilation for ICU patient with obesity: current best practices and future directions

4

Issued Date

2026-01-01

Resource Type

Review

ISSN

03424642

eISSN

14321238

DOI

10.1007/s00134-026-08397-3

Scopus ID

2-s2.0-105035459010

Pubmed ID

41954744

Journal Title

Intensive Care Medicine

Rights Holder(s)

SCOPUS

Bibliographic Citation

Intensive Care Medicine (2026)

Suggested Citation

Kitisin N., Caroli A., Carvalho Ferreira J., Hikasa Y., Ke L., Nübel J., Raykateeraroj N., Thille A.W., Ueno R., Hernandez G., Serpa Neto A. Mechanical ventilation for ICU patient with obesity: current best practices and future directions. Intensive Care Medicine (2026). doi:10.1007/s00134-026-08397-3 Retrieved from: https://repository.li.mahidol.ac.th/handle/123456789/116248

Title

Mechanical ventilation for ICU patient with obesity: current best practices and future directions

Author(s)

Kitisin N.
 Caroli A.
 Carvalho Ferreira J.
 Hikasa Y.
 Ke L.
 Nübel J.
 Raykateeraroj N.
 Thille A.W.
 Ueno R.
 Hernandez G.
 Serpa Neto A.

Author's Affiliation

Universidade de São Paulo
 Monash University
 Nanjing University
 Charité – Universitätsmedizin Berlin
 Fondazione Policlinico Universitario Agostino Gemelli IRCCS
 Royal Melbourne Hospital
 Université de Poitiers
 Siriraj Hospital
 Centro de Investigación Biomédica en Red de Enfermedades Respiratorias
 Hospital Universitario Central de Asturias
 Centre Hospitalier Universitaire de Poitiers
 Hospital Israelita Albert Einstein
 Austin Hospital
 Universidad Alfonso X El Sabio
 Department of Critical Care
 Amsterdam UMC
 Grupo de Investigación en Disfunción y Fallo Orgánico en La Agresión (IdiPAZ)

Corresponding Author(s)

Kitisin N.

Other Contributor(s)

Mahidol University

Abstract

Abstract: Obesity is increasingly prevalent among critically ill patients and profoundly alters respiratory mechanics, gas exchange, and cardiopulmonary interactions, complicating ventilatory management. Excess adipose tissue increases pleural pressure, reduces functional residual capacity, and promotes airway closure and atelectasis, increasing susceptibility to hypoxemia, hypercapnia, and ventilator-induced lung injury. These physiological alterations necessitate tailored ventilatory strategies distinct from those used in patients without obesity. Lung-protective ventilation using tidal volume indexed to predicted body weight remains the cornerstone of management, as lung size does not increase proportionally with body mass. Patients with obesity often require higher positive end-expiratory pressure to counteract elevated pleural pressure and prevent airway closure although optimal titration strategies remain uncertain. Interpretation of airway pressures requires caution, as increased chest wall elastance may result in elevated plateau and driving pressures without excessive lung stress. Adjunctive monitoring tools, including esophageal pressure measurement and electrical impedance tomography, may help individualize ventilatory management by improving assessment of transpulmonary pressure and regional ventilation. Airway management is particularly challenging in patients with obesity due to rapid oxygen desaturation and increased risk of difficult intubation; positive-pressure preoxygenation and video laryngoscopy improve procedural safety. Adjunctive therapies, such as prone positioning, non-invasive ventilation, and extracorporeal membrane oxygenation, are feasible and may provide benefit when clinically indicated. Liberation from mechanical ventilation requires careful assessment, and prophylactic non-invasive ventilation may reduce extubation failure in selected patients. Despite increasing recognition of obesity-specific physiology, most current recommendations are extrapolated from general ICU populations. Dedicated clinical trials are needed to define optimal ventilatory strategies and improve outcomes in this growing population of critically ill patients with obesity.

Keyword(s)

Medicine

Availability

URI

https://repository.li.mahidol.ac.th/handle/123456789/116248

Collections

Scopus 2026