Recruitment Maneuvers and PEEP-guided Electrical Impedance Tomography for Abdominal Laparoscopic Surgery Patients

Overview

Abdominal laparoscopy is widely utilized due to its benefits, including minimal invasiveness, improved cosmetic outcomes, and shorter hospital stays. However, the use of intraoperative pneumoperitoneum and general anesthesia with mechanical ventilation may lead to postoperative pulmonary complications, such as atelectasis. This condition can result in diminished respiratory mechanics and impaired gas exchange. In recent years, intraoperative lung-protective mechanical ventilation techniques, including recruitment maneuvers (RMs) and positive end-expiratory pressure (PEEP) strategies, have gained popularity. These approaches aim to prevent the repeated collapse and reopening of alveoli, thereby reducing the risk of atelectasis. Nonetheless, determining the optimal PEEP level for individual patients remains a complicated and unresolved issue. Electrical impedance tomography (EIT) is a bedside imaging technique that assesses regional ventilation distribution, providing a method for personalizing PEEP settings in mechanically ventilated patients. By addressing the competing risks of alveolar overdistension and collapse, EIT enhances the precision of PEEP titration. This study aims to compare the effects of recruitment maneuvers and EIT-guided PEEP selection against conventional ventilation on regional ventilation, gas exchange, and pulmonary mechanics in patients undergoing abdominal laparoscopic surgery.

This is a prospective, single-center, randomized controlled trial designed to evaluate the effects of recruitment maneuvers and EIT-guided PEEP selection against conventional ventilation on regional ventilation, gas exchange, and pulmonary mechanics in patients undergoing abdominal laparoscopic surgery. Adult patients undergoing abdominal laparoscopic surgery will be enrolled in the study. Patients in the intervention group will receive intraoperative regular recruitment maneuvers and PEEP titrated using EIT with a stepwise decremental PEEP trial, while those in the control group will have a constant PEEP of 5 cmH2O. The primary outcomes are regional ventilation, blood oxygenation, and pulmonary mechanics. Secondary outcomes include hemodynamic effects, pneumothorax or barotrauma events during the intraoperative period, pulmonary complications during the first 5 days postoperative, and length of hospital stay. Standard Ventilation Management: Patients in both groups receive volume-controlled ventilation at the lowest possible inspired oxygen fraction (FiO2), with a minimum of 0.4, to maintain peripheral oxygen saturation (SpO2) above 92%. The inspiratory to expiratory ratio (I:E) is set at 1:2, and the respiratory rate is adjusted to achieve normocapnia, defined as an end-tidal carbon dioxide partial pressure between 35 and 45 mmHg. Tidal volume (VT) is set at 7 ml/kg predicted body weight (PBW), calculated using the following formula: for males, 50 + 0.91 × (height in centimeters - 152.4), and for females, 45.5 + 0.91 × (height in centimeters - 152.4). Intervention Patients were randomized into either the intervention group or the control group. Intervention Group: The individualized high PEEP with RMs group will commence with a PEEP of 5 cm H2O and will undergo an RM followed by a decremental PEEP trial. RMs are conducted only when hemodynamic stability is confirmed by the attending anesthesiologist. For this process, the ventilator is set to pressure-controlled ventilation mode, with a respiratory rate of 16 breaths per minute and ΔP=15 (ΔP is calculated by subtracting PEEP from the plateau pressure (Pplat)). In intervals of 5 breaths, PEEP is incrementally increased by 5 cm H2O, starting at 5 cm H2O and reaching up to 20 cm H2O. The decremental PEEP trial is immediately performed following the first RM, beginning at a PEEP of 20 cm H2O with a respiratory rate of 15 breaths per minute while maintaining the ventilator in pressure-controlled ventilation mode. Every 30 seconds, PEEP is decreased by increments of 2 cm H2O until it reaches a minimum of 6 cm H2O. This decremental PEEP trial is succeeded by a second RM, after which the individualized PEEP level will be established as determined by the decremental PEEP trial and sustained until the completion of ventilation. Control Group: Patients will receive a constant PEEP of 5 cm H2O without RMs throughout the entire intraoperative ventilation period. Rescue strategies Desaturation (defined as SpO2 ≤ 90% or if preoperative SpO2 \< 90% an absolute decrease in SpO2 \> 5%) If desaturations occur and there are no airway problems, severe hemodynamic impairment or ventilator malfunction, a rescue strategy is allowed by increasing FiO2 first, eventually followed by RM and PEEP increases. Preapproved protocol deviations If one of the following complications occurs and does not respond to conventional therapy, PEEP can be changed, according to the judgment of the anesthesiologist in charge: (i) After PEEP titration, a mean arterial pressure (MAP) \< 65 mmHg, lasting \> 1 min and not responding to fluids and/or vasoactive drugs. (ii) New arrhythmias not responding to the treatment suggested by the Advanced Cardiac Life Support guidelines. (iii) Need for a dosage of vasoactive drugs at the highest level tolerated, according to the decision of the anesthesiologist in charge. (iv) Need of massive transfusion, more than five units of blood to maintain hematocrit \> 21% and hemoglobin\> 7 mg/dL. (v) Surgical complication resulting in a life-threatening situation. Any deviation from the protocol, excluding those mentioned above, is classified as a protocol violation. Protocol violations are to be reported and will be discussed with the data safety monitoring board.