View clinical trials related to Positive End-Expiratory Pressure.
Filter by:There is an increasing trend in the use of robotic-assisted radical prostatectomy or cystectomy (RARPC). Preventing lung atelectasis without inducing overdistention of the lung is challenging. Many studies tried to optimize PEEP titration by using methods such as dead space fraction guided and static pulmonary compliance directed techniques, or by using electrical impedance tomography. However, the use of these methods is limited by inaccuracy and the need for sophisticated devices. Bedside Lung ultrasound is fast, easy and economic technique that is gaining interest in the operating room. Ultrasound-guided PEEP titration has been used in bariatric surgeries (different position and usually shorter procedure time) and proved effective in improving oxygenation, compliance and reducing the incidence of postoperative pulmonary atelectasis and hypoxia without causing hemodynamic instability. The aim of this study is to evaluate the effectiveness of intraoperative individualized lung ultrasound-guided stepwise PEEP optimization in patients undergoing RARPC on oxygenation, intraoperative and early postoperative pulmonary complications.
The aim of this study is to evaluate the effectiveness of intraoperative individualized positive end-expiratory pressure (PEEPIND) titration, compared to fixed positive end-expiratory pressure of 5 cmH2O, on oxygenation, hemodynamic variables, and early postoperative complications in obese patients undergoing laparoscopic bariatric surgery.
Gastric insufflation occurs when the inspiratory pressure exceeds the lower esophageal sphincter pressure. Thus, it is desirable to avoid excessive positive pressure during mask ventilation after induction of anesthesia and keeping the inspiratory pressure <15-20 cmH2O.In patients with obesity the lower compliance of the respiratory system usually requires higher inspiratory pressures to maintain adequate ventilation making these patients more prone to gastric insufflation. This high risk of gastric insufflation can be aggravated by the use of positive end-expiratory pressure (PEEP) which is recommended to avoid lung atelectasis. The application of PEEP during mask ventilation increases the risk of gastric insufflation as it reduces the pressure threshold at which gastric insufflation occur The optimum ventilatory strategy during mask ventilation should achieve the balance between adequate lung ventilation and avoiding gastric insufflation. In obese patients, it is not clear whether the use of PEEP during mask ventilation would increase the risk of gastric insufflation or not. We hypothesize that using zero end-expiratory pressure (ZEEP) or low PEEP during mask ventilation would reduce the risk of gastric insufflation in comparison to high PEEP.
Acute Respiratory distress syndrome (ARDS) is a severe condition in which protective ventilation is a critical point in its management. Positive end expiratory pressure (PEEP) setting can be challenging for clinicians and high PEEP has been associated with better outcome in moderate and severe ARDS. Recently, recruitment to inflation ratio and airway closure have been investigated in order to help PEEP adjustment. However, ventilatory maneuvers are performed with a low level of PEEP and therefore expose to derecruitment and oxygen desaturation. So far, the risk of oxygen desaturation has not been investigated and risk factors are unknown. The aim of this study is to evaluate the prevalence of oxygen desaturation during ventilatory maneuvers at low level of PEEP in patients with moderate or severe ARDS
The aim of this study is to determine whether application of positive end-expiratory pressure (PEEP) improves respiratory data including respiratory compliance in children who receive positive pressure ventilation using supraglottic airway device (SAD).
PEEP titration is a recommended during invasive mechanical ventilation of ICU patients. However, little is known about the right way to conduct this titration. PEEP titration can be conducted by a stepwise increase in PEEP level, or following an ARM and a consecutive stepwise decrease in PEEP level. Those 2 methods will be explored in intubated ICU patients either with healthy lung or ARDS lungs. Physiological exploration will include end-expiratory lung volume measurements, driving pressure, compliance and electro-impedance tomography at each PEEP level.