Related references
Note: Only part of the references are listed.Oxygenation Impairment during Anesthesia: Influence of Age and Body Weight
Goran Hedenstierna et al.
ANESTHESIOLOGY (2019)
Individual Positive End-expiratory Pressure Settings Optimize Intraoperative Mechanical Ventilation and Reduce Postoperative Atelectasis
Sergio M. Pereira et al.
ANESTHESIOLOGY (2018)
Optimizing PEEP by Electrical Impedance Tomography in a Porcine Animal Model of ARDS
Nadine Hochhausen et al.
RESPIRATORY CARE (2017)
Bedside selection of positive end-expiratory pressure by electrical impedance tomography in hypoxemic patients: a feasibility study
Nilde Eronia et al.
ANNALS OF INTENSIVE CARE (2017)
Influence of different electrode belt positions on electrical impedance tomography imaging of regional ventilation: a prospective observational study
Jan Karsten et al.
CRITICAL CARE (2016)
Positioning of electrode plane systematically influences EIT imaging
Sabine Krueger-Ziolek et al.
PHYSIOLOGICAL MEASUREMENT (2015)
Prospective External Validation of a Predictive Score for Postoperative Pulmonary Complications
Valentin Mazo et al.
ANESTHESIOLOGY (2014)
Monitoring of Regional Lung Ventilation Using Electrical Impedance Tomography After Cardiac Surgery in Infants and Children
Ulrich Krause et al.
PEDIATRIC CARDIOLOGY (2014)
Electrical impedance tomography during major open upper abdominal surgery: a pilot-study
Maximilian S. Schaefer et al.
BMC ANESTHESIOLOGY (2014)
Quantification of ventilation distribution in regional lung injury by electrical impedance tomography and xenon computed tomography
Gunnar Elke et al.
PHYSIOLOGICAL MEASUREMENT (2013)
Spontaneous Breathing during General Anesthesia Prevents the Ventral Redistribution of Ventilation as Detected by Electrical Impedance Tomography A Randomized Trial
Oliver C. Radke et al.
ANESTHESIOLOGY (2012)
Ventilation with low tidal volumes during upper abdominal surgery does not improve postoperative lung function
T. A. Treschan et al.
BRITISH JOURNAL OF ANAESTHESIA (2012)
Effect of PEEP on regional ventilation during laparoscopic surgery monitored by electrical impedance tomography
J. Karsten et al.
ACTA ANAESTHESIOLOGICA SCANDINAVICA (2011)
Clinical and economic burden of postoperative pulmonary complications: Patient safety summit on definition, risk-reducing interventions, and preventive strategies
Aryeh Shander et al.
CRITICAL CARE MEDICINE (2011)
Regional ventilation distribution determined by electrical impedance tomography: Reproducibility and effects of posture and chest plane
Florian Reifferscheid et al.
RESPIROLOGY (2011)
Prediction of Postoperative Pulmonary Complications in a Population-based Surgical Cohort
Jaume Canet et al.
ANESTHESIOLOGY (2010)
PEEP titration guided by ventilation homogeneity: a feasibility study using electrical impedance tomography
Zhanqi Zhao et al.
CRITICAL CARE (2010)
Principles of electrical impedance tomography and its clinical application
Marc Bodenstein et al.
CRITICAL CARE MEDICINE (2009)
Protective ventilation using electrical impedance tomography
H. Luepschen et al.
PHYSIOLOGICAL MEASUREMENT (2007)
Positive end-expiratory pressure optimization using electric impedance tomography in morbidly obese patients during laparoscopic gastric bypass surgery
K. Erlandsson et al.
ACTA ANAESTHESIOLOGICA SCANDINAVICA (2006)
Imbalances in regional lung ventilation - A validation study on electrical impedance tomography
JA Victorino et al.
AMERICAN JOURNAL OF RESPIRATORY AND CRITICAL CARE MEDICINE (2004)
Morbid obesity and postoperative pulmonary atelectasis: An underestimated problem
AS Eichenberger et al.
ANESTHESIA AND ANALGESIA (2002)
Ventilation with lower tidal volumes as compared with traditional tidal volumes for acute lung injury and the acute respiratory distress syndrome.
RG Brower et al.
NEW ENGLAND JOURNAL OF MEDICINE (2000)