Newly Published
Images in Anesthesiology  |   October 2018
Esophageal Pressure Monitoring in the Critically Ill Obese Subject
Author Notes
  • From the Department of Critical Care Medicine, Arras Hospital, Arras, France (M.L., M.G.); and the Department of Cardiology, Clinic of Bois Bernard, Rouvroy, France (A.G.).
  • Correspondence: Address correspondence to Dr. Lemyze: malcolmlemyze@yahoo.fr
Article Information
Images in Anesthesiology / Critical Care / Endocrine and Metabolic Systems / Gastrointestinal and Hepatic Systems
Images in Anesthesiology   |   October 2018
Esophageal Pressure Monitoring in the Critically Ill Obese Subject
Anesthesiology Newly Published on October 31, 2018. doi:10.1097/ALN.0000000000002499
Anesthesiology Newly Published on October 31, 2018. doi:10.1097/ALN.0000000000002499
A PHYSIOLOGICALLY based venti lator strategy using transpulmonary pressure (PL)—the difference between airway pressure (PAW) and pleural pressure or its surrogate, the esophageal pressure (PES)—is especially interesting for morbidly obese patients whose lungs are trapped between excessive chest fat and a massive abdominal wall, as a bag-in-box respiratory system.1,2  The figure displays airway pressure, esophageal pressure, and transpulmonary pressure tracings in a sedated healthy individual ( ), in a deeply sedated male weighted 139 kg with an abdominal circumference of 140 cm ( panel B), and in the same obese subject fighting the ventilator after sedation withdrawal ( panel C). In panel B, a positive end-expiratory pressure (PEEP) of 21 cm H2O was needed to counterbalance the very high esophageal pressure so as to maintain an “open lung” strategy2  with a positive PL throughout the respiratory cycle. In panel C, looking at the slightly distorted airway pressure waveforms only, the attending clinician may underestimate the deleterious effects of the patient’s respiratory efforts. An excessive respiratory drive combined with vigorous inspiratory efforts (insp, down arrow) and active abdominal muscle contractions against the PEEP (exp, up arrow) generates dramatically high esophageal pressure swings that can result in “patient self-inflicted lung injury.”3  Such an abnormal ventilatory pattern with devastating swings of esophageal pressure and transpulmonary pressure after sedation withdrawal can cause life-threatening pulmonary edema and should be rapidly recognized and treated. Sedation and even paralysis are usually required. Esophageal pressure monitoring not only helps set high PEEP in mechanically ventilated obese patients2  but also assists the medical decision-making process during the critical period of the weaning from mechanical ventilation.