EIT vs Dynamic Compliance Guided PEEP Titration During Laparoscopic Gynecological Surgery

The goal of this randomized controlled clinical trial is to compare the pulmonary protective effects of two different positive end-expiratory pressure (PEEP) titrating methods in patients with non-injured lungs undergoing laparoscopic gynecological surgery. Despite dynamic pulmonary compliance (Cdyn) guided lung protective ventilation has several proven advantages, the investigators hypothesize that optimizing intraoperative mechanical ventilation using electrical impedance tomography (EIT) may further improve patient outcomes, enhance postoperative recovery, shorten in-hospital stay and reduce healthcare related costs. The main questions aim to answer are: * May EIT-guided PEEP titration reduce the mechanical power of ventilation and improve oxygenation more significantly than the Cdyn-guided method? * What effect might a decrease in mechanical power of ventilation have on postoperative pulmonary complications? Participants will: * Receive an EIT-guided or a Cdyn-guided PEEP titration procedure during laparoscopic gynecological surgery. * Be assessed for mechanical power of ventilation, oxygenation, atelectasis and postoperative pulmonary complications during and 2 days after surgery. * Be followed-up for mortality until the 28th postoperative day.

The aim of this study is to compare the effects of two different - electrical impedance tomography guided (EIT) versus dynamic pulmonary compliance guided (Cdyn) - positive end-expiratory pressure (PEEP) titrating methods on mechanical power of ventilation (MP), oxygenation, respiratory mechanics parameters, global inhomogeneity index (GI), overdistension/collapse (ODCL) and postoperative pulmonary complications (PPCs) in patients with non-injured lungs undergoing laparoscopic gynecological surgery. Despite Cdyn-directed lung protective ventilation has several proven advantages, the investigators hypothesize that optimizing intraoperative mechanical ventilation using EIT may further improve patient outcomes by reducing MP responsible for ventilator induced lung injury (VILI) and consequent PPCs. These anticipated advantages may improve the knowledge about individualized intraoperative protective ventilation, enhance postoperative recovery, shorten in-hospital stay and reduce healthcare related costs. A total number of 200 patients scheduled for laparoscopic gynecological surgery will be enrolled in this study. An equal number of patients will be randomized into the PEEP-EIT and PEEP-Cdyn groups. Patients randomized into the PEEP-EIT group receive a decremental PEEP titration procedure directed by EIT PEEP Trial of the Dräger PulmoVista 500 device in order to determine the individually optimal level of PEEP (PEEPopt). Patients in the PEEP-Cdyn Group will undergo the same decremental PEEP titration procedure directed by Cdyn measured by the ventilator of the anesthesia workstation. During the PEEP titration procedure PEEP will be decreased from 18 cmH2O by 2 cmH2O every 20 ventilatory cycles, until a final PEEP of 6 cmH2O. On each level of PEEP Cdyn values will be recorded. In the PEEP-EIT Group PEEPopt is considered as the intersect between the lower percentage of overdistension and collapse, based on the diagnostic tool of the EIT device. In the PEEP-Cdyn Group optimal PEEP is considered as the PEEP value resulting the highest possible Cdyn measured by the ventilator After the titration procedure, a lung protective mechanical ventilation (LPV) will be performed using PEEPopt and low tidal volumes (TV=6 mL/kg, Ideal Body Weight) in both groups. Mechanical Power, driving pressure, Cdyn, tidal volume in region of interest 3 and 4 (TVROI3, TVROI4) and end-expiratory lung volumes will be recorded immediately after the PEEP titration trial and every 15 minutes during surgery in both groups. Oxygenation and dead space fraction indicated by the ratio of arterial oxygen partial pressure to fraction of inspired oxygen (PaO2/FiO2) and arterial to end-tidal carbon dioxide difference, respectively, will be recorded every 30 minutes during surgery in both groups. PaO2/FiO2 ratio will be recorded immediately after extubation and 30 mins, 2, 6, 12, 24 and 48 hours after surgery also. GI and ODCL will be evaluated retrospectively after surgery using the EIT Diag SW 1.6 diagnostic software for Dräger PulmoVista 500. During the first and second postoperative days EIT measurements will be performed for atelectasis, while arterial blood gas samples will be assessed to screen gas exchange parameters and laboratory examinations will be performed for Sequential Organ Failure Assessment (SOFA) Scores indicating patients' postoperative clinical conditions. A follow-up period will be performed for mortality until the 28th day after surgery.