ERJ Open Research (Mar 2021)

Oesophageal pressure as a surrogate of pleural pressure in mechanically ventilated patients

  • Antoine Tilmont,
  • Benjamin Coiffard,
  • Takeshi Yoshida,
  • Florence Daviet,
  • Karine Baumstarck,
  • Geoffrey Brioude,
  • Sami Hraiech,
  • Jean-Marie Forel,
  • Antoine Roch,
  • Laurent Brochard,
  • Laurent Papazian,
  • Christophe Guervilly

DOI
https://doi.org/10.1183/23120541.00646-2020
Journal volume & issue
Vol. 7, no. 1

Abstract

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Background Oesophageal pressure (Poes) is used to approximate pleural pressure (Ppl) and therefore to estimate transpulmonary pressure (PL). We aimed to compare oesophageal and regional pleural pressures and to calculate transpulmonary pressures in a prospective physiological study on lung transplant recipients during their stay in the intensive care unit of a tertiary university hospital. Methods Lung transplant recipients receiving invasive mechanical ventilation and monitored by oesophageal manometry and dependent and nondependent pleural catheters were investigated during the post-operative period. We performed simultaneous short-time measurements and recordings of oesophageal manometry and pleural pressures. Expiratory and inspiratory PL were computed by subtracting regional Ppl or Poes from airway pressure; inspiratory PL was also calculated with the elastance ratio method. Results 16 patients were included. Among them, 14 were analysed. Oesophageal pressures correlated with dependent and nondependent pleural pressures during expiration (R2=0.71, p=0.005 and R2=0.77, p=0.001, respectively) and during inspiration (R2=0.66 for both, p=0.01 and p=0.014, respectively). PL values calculated using Poes were close to those obtained from the dependent pleural catheter but higher than those obtained from the nondependent pleural catheter both during expiration and inspiration. Conclusions In ventilated lung transplant recipients, oesophageal manometry is well correlated with pleural pressure. The absolute value of Poes is higher than Ppl of nondependent lung regions and could therefore underestimate the highest level of lung stress in those at high risk of overinflation.