View clinical trials related to Pulmonary Atelectasis.
Filter by:The study contains the result from a comparison of diagnostic outcomes about lung collapse by using lung ultrasonography as a new diagnostic test compares to fiberoptic bronchoscopy as the standard test.
The primary aim of this project is to get further knowledge of the physiology of flight atelectasis and its prevention. We seek to: 1) assess whether low levels of positive pressure breathing can prevent atelectasis formation in humans during exposure to hyperoxia and +Gz-accelerations. 2) get further knowledge on the effects of hypobaria on regional ventilation and perfusion. A secondary aim is to evaluate the effect of anti G-trouser inflation on ventilation and regional perfusion.
Patients submitted to general anesthesia and artificial ventilation almost always develop pulmonary atelectasis, which can determine adverse consequences both intraoperatively and postoperatively. It is recommended to use physiological tidal volume (6 - 8 mL / kg of ideal body weight) during the intraoperative period in order to minimize the risk of lung injury. To prevent the formation of atelectasis, minimizing the risk of complications, the use of PEEP has been recommended. At present, there is no way to make an optimal adjustment of PEEP to the needs of each patient, seeking a value that keeps the alveoli open without forming atelectasis and also without areas of hyperdistension. The aim of this study was to evaluate the agreement between the ultrasound and the electrical impedance tomography - Timpel® (TIE) to detect the beginning of the formation of areas of atelectasis after pulmonary recruitment, with decreasing PEEP values. In addition, the lung ultrasound will be validated for intraoperative use for both adequacy of PEEP, as well as quantitative analyzes of ultrasound images to assess atelectasis. 18 patients (> 18 years) of both sexes, submitted to general anesthesia, will be prospectively studied. All patients will receive, in addition to the usual monitoring, the monitoring with the electrical impedance tomography and chest ultrasonography, after being anesthetized and under neuromuscular block, being ventilated with an inspired fraction of 50% oxygen (or greater to maintain oxygen saturation > 96% ), Tidal volume of 6 mL / kg and respiratory rate to maintain expiratory tidal CO2 between 35-45 cmH2O.
This study aims to compared the effects of high flow nasal during the induction and during the weaning of anesthesia on intraoperative and postoperative oxygenation and postoperative atelectasis in obese patients undergoing bariatric surgery versus the standard of care, which consists in supplemental oxygen with face mask (Venturi mask).
Laparoscopy and robotic techniques are widespread procedures for pelvic gynecologic, urologic and abdominal surgery often performed in Trendelenburg position, with the application of pneumoperitoneum by inflating carbon dioxide. The rise in abdominal pressure following pneumoperitoneum and the head down body position have been shown to impair the respiratory function during the procedure, mainly inducing atelectasis formation in the dependent lung regions, worsening stress and strain of the alveolar structure. The application of a ventilator strategy providing positive end-expiratory pressure (PEEP) has been shown to reduce the diaphragm cranial shift, increasing functional residual capacity and decreasing respiratory system elastance. Furthermore, the application of recruiting maneuver followed by the subsequent application of PEEP improved oxygenation. These results are in accordance with finding by Talmor et al, evaluating the effect of a mechanical ventilation guided by esophageal pressure in acute lung injury patients. However a comparison between an esophageal pressure piloted mechanical ventilation and a conventional low tidal ventilator strategy with adjunct of PEEP and recruitment maneuvers according to clinical judgment has never been investigated in patients undergoing robotic gynecologic, abdominal or urologic surgery. The investigators aim to compare the conventional ventilation strategy (i.e. with application of PEEP and recruitment manoeuvre) with a ventilation driven by transpulmonary pressure assessed through an esophageal catheter, in patients undergoing to robotic surgery, with respect to oxygenation, expressed in terms of arterial oxygen tension - inspired oxygen fraction ratio (PaO2/FiO2) (primary endpoint), intraoperative respiratory mechanics indexes, number of lung recruitment maneuvers, rate and type of perioperative complications until hospital discharge (additional endpoint).
Pre op ultrasound with chest auscultation and arterial blood gas, after extubation ultrasound with chest auscultation and blood gas, 12hrs chest auscultation with ultasaound, 24 hrs chest auscultation and ultrasound to see atelectasis
This is an observational study to compare the effect of spontaneous ventilation versus controlled ventilation on lung atelectasis using lung score measured by lung ultrasound. the study will be conducted in children hospital of Cairo University Hospitals and study population will be : children aged from one to eight years of age. primary outcome will be the lung score measured by lung ultrasound.
Anesthesia-induced atelectasis is a well-known entity observed in approximately 68-100% of pediatric patients undergoing general anesthesia. The collapse of dependent lung zones starts with anesthesia induction but can persist for hours or even days after surgery. Lung collapse is a pressure-dependent phenomenon. Each acinus has a critical closing pressure, i.e., the minimum transpulmonary pressure (Ptp) below that the acinus begins to collapse. While airway pressure is homogeneously distributed within all lung units, Pleural pressure increases along the vertical gravitational vector because of the lung's weight. As a consequence, the decreased Ptp in the dependent zones promotes collapse. This means that patients in the supine position suffer from increasing closing pressures in the ventral to dorsal direction. Alveolar recruitment maneuvers recruit collapsed alveoli, increase gas exchange, and improve arterial oxygenation. The investigators hypothesized that in children with anesthesia-induced atelectasis, postural changes have recruiting effects and improve lung aeration assessed by lung ultrasound.
This study aims to compared the effects in driving pressure of an open-lung strategy with a positive end-expiratory pressure (PEEP) titrated to best driving pressure (DP) after a RM versus the recommended protective PEEP of 5 cmH2O without a recruitment manuever in non-obese patients undergoing cardiac surgery.
The purpose of this study is to compare the effect of the autogenic drainage and the intrapulmonary percussive ventilation on the levying of the lung atelectasis, by means of the thoracic imaging (thoracic ultrasound and radiography), at the intubated or extubated child with the ventilatory support.