PURPOSE: In acute lung injury (ALI), the application of positive end-expiratory pressure (PEEP) is known to prevent the alveoli from cyclic collapse and reopening and to homogenize ventilation. The setting of adequate PEEP could be optimized by the knowledge of regional lung opening and closing pressures at the bedside. The aim of our study was to determine regional opening and closing pressures in ventilated patients by electrical impedance tomography (EIT). MATERIALS AND METHODS: Eight patients with healthy lungs and 18 patients with ALI were studied. A low-flow inflation and deflation maneuver with constant gas flow was performed. Regional opening and closing pressures were calculated for every pixel of the EIT scan. These pressures were defined as those values of global airway pressure at which the lung areas opened up or started to close. RESULTS: Injured lungs exhibited significantly higher regional opening pressures compared with healthy lungs (P < .05). In ALI, significantly higher opening pressures were found in the dependent lung regions. Regional closing pressures did not significantly differ between healthy and injured lungs. CONCLUSIONS: Regional lung opening and closing pressures can be assessed by EIT. This information may facilitate the setting of adequate PEEP levels in patients in future.
PURPOSE: In acute lung injury (ALI), the application of positive end-expiratory pressure (PEEP) is known to prevent the alveoli from cyclic collapse and reopening and to homogenize ventilation. The setting of adequate PEEP could be optimized by the knowledge of regional lung opening and closing pressures at the bedside. The aim of our study was to determine regional opening and closing pressures in ventilated patients by electrical impedance tomography (EIT). MATERIALS AND METHODS: Eight patients with healthy lungs and 18 patients with ALI were studied. A low-flow inflation and deflation maneuver with constant gas flow was performed. Regional opening and closing pressures were calculated for every pixel of the EIT scan. These pressures were defined as those values of global airway pressure at which the lung areas opened up or started to close. RESULTS: Injured lungs exhibited significantly higher regional opening pressures compared with healthy lungs (P < .05). In ALI, significantly higher opening pressures were found in the dependent lung regions. Regional closing pressures did not significantly differ between healthy and injured lungs. CONCLUSIONS: Regional lung opening and closing pressures can be assessed by EIT. This information may facilitate the setting of adequate PEEP levels in patients in future.
Authors: Robin Paudel; Christine A Trinkle; Christopher M Waters; Lauren E Robinson; Evan Cassity; Jamie L Sturgill; Richard Broaddus; Peter E Morris Journal: Am J Med Sci Date: 2021-09-28 Impact factor: 2.378
Authors: Inéz Frerichs; Marcelo B P Amato; Anton H van Kaam; David G Tingay; Zhanqi Zhao; Bartłomiej Grychtol; Marc Bodenstein; Hervé Gagnon; Stephan H Böhm; Eckhard Teschner; Ola Stenqvist; Tommaso Mauri; Vinicius Torsani; Luigi Camporota; Andreas Schibler; Gerhard K Wolf; Diederik Gommers; Steffen Leonhardt; Andy Adler Journal: Thorax Date: 2016-09-05 Impact factor: 9.139
Authors: Christian Karagiannidis; Andreas D Waldmann; Péter L Róka; Tina Schreiber; Stephan Strassmann; Wolfram Windisch; Stephan H Böhm Journal: Crit Care Date: 2018-09-21 Impact factor: 9.097