View clinical trials related to Pulmonary Atelectasis.
Filter by:The purpose of this randomized single center study is to determine the individual PEEP value that produces the best possible compromise of lung collapse and lung hyperdistention. Patients submitted to general anesthesia and mechanical ventilation during surgery (laparoscopy and open surgery) will participate. A PEEP titration procedure will be performed and the "optimal PEEP" value will be determined by electrical impedance tomography (EIT). An ultrasound will be used to record each step of the PEEP titration procedure in a sub-sample of patients. A total of 40 patients will be mechanically ventilated using physiological tidal volume (TV=6mL/kg of IBW) and fraction of inspired oxygen (FIO2) of 0.5 and will be randomized to one of two groups: "optimal PEEP" or a "low PEEP" (4cmH2O). Lung collapse and mechanics will be monitored by EIT throughout the intraoperative period. After extubation, a lung CT will be performed to evaluate the amount of lung collapse.
The aim of this study is to evaluate the effects of the use of breathing exercises with inspiratory loading on respiratory muscle strength and endurance, lung volumes and capacities and thoracoabdominal mobility in patients after bariatric surgery. It is believed that the use of inspiratory load may mitigate the negative effects of surgical trauma on respiratory muscle dysfunction, preserving respiratory muscle strength, lung volumes and diaphragm mobility, thus reducing the risk of pulmonary complications in the postoperative period.
This study evaluates whether sustaining inspiratory pressure for 10 seconds at a time can open collapsed lung areas in non-dependant regions of the lung in mechanically ventilated patients.
Pulmonary atelectasis is a frequent respiratory postoperative complication in cardiac surgery. Classically, the treatment of these patients is based on manual chest physiotherapy. Our objective is to evaluate the interest of association of positive end expiratory delivery sessions with the EzPAP® device. We perform a prospective monocentric, open label trial. Patients with atelectasis after scheduled cardiac surgery with cardiopulmonary bypass are included. They benefit from manual chest therapy and are randomised to receive or not positive end expiratory pressure sessions twice a day. The primary endpoint is the effect of this treatment on atelectasis radiological score after 2 days of treatment. The secondary endpoints are: oxygen saturation(SpO2)/inspired oxygen(FiO2) ratio, qualitative evaluation of ventilatory function, respiratory & cardiac rate, pain, inspiratory pressure (sniff test), patient satisfaction, duration of intensive care unit (ICU) and hospital stay.
Flexible bronchoscopes are typically reusable and therefore need high level disinfection to prevent inadvertent spread of microbial pathogens from patient to patient. The process of disinfection is time consuming and expensive. Moreover, a bronchoscope being processed may not be readily available for another patient. One solution to this problem was to use a single use disposable sheath that covers a flexible bronchoscope protecting all surfaces of the bronchoscope.(Colt, Beamis, Harrell, & Mathur, 2000). Another way to eliminate potential hazards with a reusable bronchoscope is the use of a disposable bronchoscope. Such a disposable bronchoscope has been developed (Ambu aScope, Ambu, Glen Burnie, MD) and has been used successfully for intubations in manikins(Scutt et al., 2011) and patients. (Kristensen & Fredensborg, 2013; Pujol, López, & Valero, 2010; Tvede, Kristensen, & Nyhus-Andreasen, 2012). Further advancement in the imaging and handling of this disposable flexible bronchoscope now allows for the purpose of bronchoscopy and broncho-alveolar lavage in critically ill patients with pulmonary compromise. (FDA approval: 05-11-2013 date) The aim of the study is to compare image clarity, suction capacity, and handling performance of a reusable flexible bronchoscope to the disposable flexible bronchoscope. In addition, the investigators intend to perform a cost analysis.
The goal of this study is to evaluate the sensitivity and specificity of Electrical Impedance Tomography (EIT) as a bedside diagnostic tool for lung pathologies in patients who are mechanically ventilated. In electrical impedance tomography low amplitude, low frequency current is applied on electrodes, and the resulting voltage is measured and used to computed the electrical properties of the interior of the chest as they change in time. The computed properties are used to form an image, which can then be used for monitoring and diagnosis.
Atelectasis is common during and after general anesthesia. Atelectasis develops early if preoxygenation with 100% oxygen is used and continuously used during induction until endotracheal intubation. The investigators hypothesize that a rapid anti-preoxygenation maneuver immediately after confirming a successful intubation, reduces the area of atelectasis as investigated by computed tomography compared to a standard procedure.
The purpose of this study is to evaluate whether a therapy that uses a machine called a continuous high frequency oscillator (CHFO) is more successful at removing mucus than medications that thin out the mucus.
Atelectases (collapsed lung areas) of 15-20% of total lung occur in up to 90% of patients who are anaesthetized and intubated. The goal of the present prospective study is to detect atelectatic areas in the perioperative period in the lungs of patients undergoing elective laparoscopic surgery non-invasively and without x-ray exposure. Results of lung ultrasound (LUS) as the experimental method will be compared to the results of Electrical Impedance Tomography (EIT) as the reference technique for the detection of atelectasis. A device for peripheral Oxygen saturation measurement (MASIMO Radical-8) will detect changes in ventilation. The investigators want to confirm or disprove former findings of the appearance of intraoperative atelectases and to prove that ultrasound is a valid tool for detection of atelectases.
To compare the effectiveness of unilateral pulmonary collapse (right lung) to bilateral pulmonary collapse for cardiac de-airing in open left-sided heart surgery.