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NCT07252674
This prospective observational study aims to compare two commonly used airway management methods-Laryngeal Mask Airway (LMA) and Endotracheal Intubation (ETT)-in pediatric patients undergoing elective surgery under general anesthesia. The primary objective is to evaluate the impact of LMA and ETT on intraoperative mechanical power, an emerging indicator of ventilator-induced lung stress. Secondary objectives include assessing postoperative respiratory complications such as cough, hypoxemia, laryngospasm, bronchospasm, increased secretions, and breath-holding episodes. No interventions will be assigned based on a study protocol; airway management will be determined solely by clinical requirements. Routine ventilator parameters will be recorded, and mechanical power will be calculated using a validated simplified formula.
NCT07186933
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.
NCT07170514
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.
NCT07118917
SARS-CoV-2 has infected more than 776 million people worldwide, raising concerns about its impact on patients with lung cancer, the most common cancer in men and the second most common cancer in women. Previous studies have suggested that COVID-19 may worsen lung dysfunction in patients undergoing surgery and that the coexistence of COVID-19 and lung cancer increases the risk of complications and mortality. It has been recommended that surgery be delayed after COVID-19 infection to reduce postoperative risk. This study examined the effects of prior COVID-19 infection on respiratory mechanics in patients undergoing thoracic surgery for lung cancer.
NCT06462976
The aim of this study is to investigate the effect of different surgical positions (supine/prone) on lung mechanical power (MP) and its relationship with postoperative pulmonary complications in patients planned to percutaneous nephrolithotomy (PNL) under general anesthesia.
NCT06202040
The respiratory system receives mechanical power (MP) throughout time during mechanical ventilation. Despite its life-saving benefits, mechanical ventilation can cause ventilator-induced lung injury (VILI). Recently, VILI has been linked to mechanical power, or the amount of energy the mechanical ventilator sends to the respiratory system in a given time. The hunt for lung damage-reducing characteristics, notably after VILI and ARDS (Acute respiratory distress syndrome), has increased after Covid-19. Mechanical power must be used more to promote lung protection. We examined the effects of bilateral rectus sheath and OSTAP (Oblique Subcostal Transversus Abdominis Plane ) block on mechanically powered patients.