View clinical trials related to Pneumothorax.
Filter by:Pneumothorax (PTX) is defined as the accumulation of air in the pleural space. PTX can cause a disruption in the perfusion of lung tissue in the affected area and increase intrathoracic pressure, potentially leading to obstruction of venous return and, consequently, posing a life-threatening condition. Therefore, PTX requiring urgent intervention is a significant concern in emergency departments. End-tidal carbon dioxide (ETCO2) provides insight into carbon dioxide levels resulting from lung perfusion and serves as a respiratory parameter informing the prognosis of various critical illnesses. One of the most important factors determining lung perfusion is the effective lung area. Among the crucial issues for emergency departments are PTX cases, which typically regress following urgent intervention, leading to the establishment of an effective lung area. Hypotheses have been proposed in the literature suggesting that ETCO2 may be affected in PTX cases due to the relationship between effective lung area and ETCO2. In this study, investigetors aimed to investigate changes in ETCO2 levels following tube thoracostomy applied to PTX cases.
In this retrospective study, the investigators seek to investigate the incidence of pneumothorax following possible risk factors, and elucidate its association with outcomes.
The primary objective is to evaluate the performance parameters of the proposed DLAD (Carebot AI CXR) in comparison to individual radiologists.
In this retrospective study, investigators aimed to evaluate the effectiveness of the autologous blood patch method in percutaneous transthoracic lung biopsies performed with the coaxial technique.
The goal of this retrospective study is to describe the outcomes of spontaneous idiopathic pneumothorax treated by thoracoscopy with pleural abrasion and blebectomy. The main questions it aims to answer are: - are there risk factors leading to pneumothorax recurrence? - are pleural abrasion and blebectomy really diminishing the recurrence of pneumothorax?
It is aimed to examine the retrospective features of covid-19 patients followed in our hospital with pneumothorax.
Stroke volume variation (SVV) and pulse pressure variation (PPV) have been thought to be sensitive predictors of fluid responsiveness in mechanically ventilated participants. In this paper, the investigators reported a special group of people to use SVV and PPV during their operation. The maintenance of hemodynamic stability and the critical organ perfusion is crucial to the treatment for patients with artificial Pneumothorax during esophageal surgery, because artificial pneumothorax causes incomplete ventilation of one lung. In addition, artificial pneumothorax may seriously affect theparticipant's heart and lung function, brings more challenges to the intraoperative anesthetic management, expecially in volume management. Little information is available about the accuracy of SVV and PPV to predict fluid responsiveness in participants with artificial Pneumothorax during esophageal surgery. It is unclear whether it will affect the accuracy of SVV and PPV, and whether it will cause the change of their threshold values. The investigators will discuss it in the passage and the investigators will give an preliminary mechanism to explain the results.
The purpose of this study is to describe the design, methodology and evaluation of the preclinical test of Carebot AI CXR software, and to provide evidence that the investigated medical device meets user requirements in accordance with its intended use. Carebot AI CXR is defined as a recommendation system (classification "prediction") based on computer-aided detection. The software can be used in a preclinical deployment at a selected site before interpretation (prioritization, display of all results and heatmaps) or after interpretation (verification of findings) of CXR images, and in accordance with the manufacturer's recommendations. Given this, a retrospective study is performed to test the clinical effectiveness on existing CXRs.
Through this randomized controlled clinical trial, we aim to identify whether there is a difference in the incidence of 24 hour pneumothorax after chest tube removal, in two blindly randomized groups of patients: The first group with chest tube clamping 6 hours prior to removal, and the second group there will be no chest tube clamping. The data will be prospectively collected from patient records from the National Institute of Respiratory Diseases Ismael Cosío Villegas.
Over-inflation of the bronchial cuff of the double-lumen tube (DLT) can cause damage to the airway mucosa and misplacement of the tube, and under-inflation may cause incomplete collapse of the non-ventilated lung and incomplete ventilation of the lung that should be ventilated. Appropriate cuff pressure is generally known to be ranged 20-30 cmH₂O, but in the study of Okubo et al., who observed the minimum bronchial cuff volume and pressure that did not cause air leakage using the method of confirming by capnography, it was possible to obtain the result that OLV was possible without air leakage even at a pressure lower than 25 cmH₂O (the generally recommended tube cuff pressure) in both men and women. In a recent study of Yamada et al., when using the capnography waveform-guided method to inflate the bronchial cuff by checking for air leakage using the capnography waveform, the bronchial cuff volume (BCV) that satisfies the air-tight seal was significantly smaller compared with a pressure-guided method to inflate the bronchial cuff with 20 cmH₂O. The minimum bronchial cuff volume (BCVmin) at which such air leakage does not occur may vary from individual to individual. It is presumed that this is because the diameter of the left main bronchus (LMB) differs from individual to individual, which causes the variation of the gap between the diameter of the LMB and the outer diameter of the DLT mounted thereon. Moreover, the previous study revealed that the lateral positioning could increase the pressure of the bronchial cuff mounted on the LMB due to the gravity-induced morphological and conformational change of the trachea. Considering these factors, the researchers hypothesized that the change in the bronchial cuff pressure (BCP) due to a positional change might vary depending on whether the bronchial cuff was inflated, that is, the initially established BCVmin. Therefore, in this study, the researchers tried to investigate the effect of BCVmin on the change of minimum bronchial cuff pressure (BCPmin) due to the positional change from the supine to lateral decubitus, by dividing the groups whose BCVmin is 0 ml or exceeds 0 ml.