Clinical Research Directory

Effect of Neuromuscular Block Depth on Driving Pressure and Postoperative Respiratory Events in Abdominal Surgeries

This randomized controlled study aims to evaluate the effects of deep versus moderate neuromuscular blockade on intraoperative driving pressure and the development of postoperative critical respiratory events in patients undergoing abdominal surgery under general anesthesia.

Driving Pressure During Surgeries With High Risk for Postoperative Pulmonary Complications

The goal of this clinical trial is to compare two different types of perioperative mechanical ventilation (MV), specifically Protective Mechanical Ventilation (PMV) and MV with the lowest possible Driving Pressure (ΔP), in relation to the appearance of postoperative pulmonary complications (PPCs) in adult patients who are operated and have higher risk of PPCs. The main questions it aims to answer are: * Is MV with lower ΔP better than conventional PMV in preventing PPCs in patients with higher risk for PPCs? * Does MV with lower ΔP decrease hospital stay, Intensive Care Unit (ICU) need and mortality? * Does MV with lower ΔP suit better than PMV to lung characteristics and needs intraoperatively? Researchers will compare MV with the lowest possible Driving Pressure (ΔP) to Protective Mechanical Ventilation (PMV) to see if any of this is more protective than the other concerning PPCs. All participants will receive perioperative MV. Half of them will receive conventional Protective Mechanical Ventilation (PMV). This will include well known generally protective settings for mechanical ventilation of patients, concerning volumes, pressures, respiratory rate, inspiratory gases and ventilation maneuvers. The rest of participants will be ventilated with the lowest possible Driving Pressure (ΔP). This will be similar to PMV in the chosen volumes, respiratory rate, inspiratory gases and ventilation maneuvers. However, the pressure inside lung at the end of expiration, eg Positive End Expiratory Pressure (PEEP), will be not be preset for every patient. Initially, the investigators will perform a maneuver that will quantify each individual's lung characteristics and mechanics. According to this, the investigators will find the exact PEEP that seems to suit each patients lungs most, and use this perioperatively, trying to provide lungs the best conditions every time. After the completion of the operation, all the patients will be screened for PPCs, via arterial blood testing and chest X ray, and the results will be statistically analyzed trying to find if any of the forementioned strategies of mechanical ventilation surpasses the other concerning PPCs appearance. PPCs include atelectasis, respiratory failure, bronchospasm, pleural effusion, pneumonia, aspiration and pneumothorax. Furthermore hospital stay, ICU need and mortality will be noted. Finally, measurements of perioperative lung pressures, volumes and derived variables will be noted and compared statistically as well.

Driving Pressure Guided Mechanical Ventilation Versus Lung Protective Ventilation Among Patients Undergoing Elective Surgeries

Patient undergoing surgeries in general anesthesia require support of their breathing by ventilator. Different strategies can be used to manage breathing of the patient. Lung protective ventilation provides breathing at a set volume determined by patient ideal body weight, along with a set rate to maintain adequate breathing. The pressures in the lower airway are kept less than 30 cm of H20 while a pressure of 5cm of H20 is applied to prevent lung collapse. Recently to above mentioned regimen a driving pressure is added which is a difference between lower airway pressure and pressure applied to prevent lung collapse. Ventilatory settings are adjusted to keep this driving pressure less than 15 cm of H2O.