Measurement of positive end-expiratory pressure (PEEP)-induced alveolar recruitment using the pressure–volume (PV) curve

<p><b>Copyright information:</b></p><p>Taken from "Clinical review: Bedside assessment of alveolar recruitment"</p><p>Critical Care 2003;8(3):163-169.</p><p>Published online 22 Oct 2003</p><p>PMCID:PMC468885.</p><p>Copyright © 2004 BioMed Central Ltd</p> The PV curves of the respiratory system recorded from zero end-expiratory pressure (ZEEP) and from PEEP are superimposed on a common volume axis. '0' volume corresponds to the end-expiratory lung volume (EELV) on ZEEP. The first point of the PEEP PV curve corresponds to the increase in EELV induced by PEEP (Δ EELV). On this example, the recruitment induced by PEEP is measured at a pressure of 20 cmHO

Additional file 4 of Fluid balance neutralization secured by hemodynamic monitoring versus protocolized standard of care in critically ill patients requiring continuous renal replacement therapy: study protocol of the GO NEUTRAL randomized controlled trial

Additional file 4: Supplemental material 4. Bedside case report form of the intervention group (French)

Additional file 6 of Fluid balance neutralization secured by hemodynamic monitoring versus protocolized standard of care in critically ill patients requiring continuous renal replacement therapy: study protocol of the GO NEUTRAL randomized controlled trial

Additional file 6: Supplemental material 6. Printed version of the electronic case report form (French)

Additional file 2 of Fluid balance neutralization secured by hemodynamic monitoring versus protocolized standard of care in critically ill patients requiring continuous renal replacement therapy: study protocol of the GO NEUTRAL randomized controlled trial

Additional file 2: Supplemental material 2. WHO trial registry data set

Additional file 7 of Fluid balance neutralization secured by hemodynamic monitoring versus protocolized standard of care in critically ill patients requiring continuous renal replacement therapy: study protocol of the GO NEUTRAL randomized controlled trial

Additional file 7: Supplemental material 7. Funding declaration (English)

Additional file 8 of Fluid balance neutralization secured by hemodynamic monitoring versus protocolized standard of care in critically ill patients requiring continuous renal replacement therapy: study protocol of the GO NEUTRAL randomized controlled trial

Additional file 8: Supplemental material 8. Approval letter by the human research ethics committee CPP Sud-Méditéranée I, sent on April 29, 2021 (French and English versions)

Additional file 5 of Fluid balance neutralization secured by hemodynamic monitoring versus protocolized standard of care in critically ill patients requiring continuous renal replacement therapy: study protocol of the GO NEUTRAL randomized controlled trial

Additional file 5: Supplemental material 5. Bedside case report form of the control group (French)

Additional file 3 of Fluid balance neutralization secured by hemodynamic monitoring versus protocolized standard of care in critically ill patients requiring continuous renal replacement therapy: study protocol of the GO NEUTRAL randomized controlled trial

Additional file 3: Supplemental material 3. Study sites, intervention group hemodynamic protocols, participants timelines and study procedures, and list of adverse events

Additional file 1 of Fluid balance neutralization secured by hemodynamic monitoring versus protocolized standard of care in critically ill patients requiring continuous renal replacement therapy: study protocol of the GO NEUTRAL randomized controlled trial

Additional file 1: Supplemental material 1. Protocol version 1, March 3, 2021 (French)

MOESM1 of Effect of inspiratory synchronization during pressure-controlled ventilation on lung distension and inspiratory effort

Additional file 1. Effect of inspiratory synchronization during pressure-controlled ventilation on lung distention and inspiratory effort