ABPT in Secondary Pneumothorax With Persistent Airleak Study
Autologous Blood Patch TherapyThis is a prospective clinical trial with each patient serving as his/her own control. Patients will be recruited in three different Hong Kong hospital. All patients at the recruitment centers with ongoing air leak after ≥ 3 days from the initial diagnosis of SSP will be approached by site investigators. Patient consented to enter the study will have their rate of air leak measured on day 3 (or after if enrolled later than day 3) byreplacing the conventional chest drain system with the digital chest drainage device (Thopaz). Autologous blood patch will be instilled if the patient still has persistent air leak on day 5 of chest drain insertion ( or 48 hours of electronic chest drain measurement of airleak).
Stroke Volume Variations and Pulse Pressure Variations Undergoing Artificial Pneumothorax Surgery...
Artificial; ComplicationsHeartStroke 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.
Reactor Thoracostomy
PneumothoraxHemothoraxTube thoracostomy is commonly performed in the emergency department for patients suffering from traumatic hemo- or pneumo-thorax. The procedure involves the use of a scalpel incision at the skin followed by blunt dissection through tissue, penetration into the thoracic cavity, dilation of a tract for tube placement, exploration of the thoracic cavity with a gloved finger, and finally insertion of a sterile tube into the intrathoracic space. The procedure is considered extremely painful despite the routine provision of systemic analgesics and local anesthetics. Cadaver and animal studies have demonstrated the use of the Reactor chest tube device, a squeeze-activated thoracostomy trochar with placement of a clear sheath for chest tube insertion, to decrease procedure time, incision size, and blood loss. Case series and observational reports suggest lower rates of procedural complication and failure as well as increased patient satisfaction due to pain reduction.
Effect of Dissecting of The Inferior Pulmonary Ligament on Postoperative Pulmonary Reexpansion and...
PneumothoraxThis subject analysis of the influence of the dissociating inferior pulmonary ligament on pulmonary reexpansion and recurrence in the treatment of primary spontaneous pneumothorax by video assisted thoracic surgery. All patients are randomly divided into two groups: group A and group B. Wedge resection(WR) will be performed for all patients. Investigators dissect the inferior pulmonary ligament(DIPL) for group A. Investigators do not dissect the inferior pulmonary ligament for group B. The pulmonary reexpansion and recurrence rate are observed between the two groups.
Bedside Ultrasound in Detection of Pneumothorax Post Transthoracic Lung Biopsy
PneumothoraxCurrently chest X-ray (CXR) is the modality used to assess for pneumothorax after transthoracic lung biopsy at the Ottawa Hospital. Recently bedside Ultrasound (US) has become a useful rapid imaging modality to assess chest for pneumothorax in emergency rooms with reported sensitivity, specificity and diagnostic accuracy were 88%, 97% and 97%, respectively (ref. 2). Our team will be comparing the diagnostic accuracy of US to CXR in diagnoses of pneumothorax post transthoracic lung biopsy. The purpose of the study is to compare the diagnostic accuracy of US to CXR post-biopsy to confirm the presence of a pneumothorax.
Are EMS Personnel Prepared to Identify and Decompression of Tension Pneumothorax
Tension PneumothoraxThe study aims to determine the level of knowledge and skills to recognize and decompression of tension pneumothorax
A Comparative Study of the Safety and Efficacy of Face Talc Slurry and Iodopovidone for Pleurodesis...
Malignant Pleural EffusionsRecurrent Pleural Effusions2 morePleurodesis is a technique used to fuse the two layers of the lining over the lung. This is done to get rid of collections of fluid or air in this space. A common reason would be cancer of the underlying lung or elsewhere causing fluid to collect in the pleural space. In this situation it is a palliative procedure to free the patient from symptoms like breathlessness.
Environmental Factor and Onset of Spontaneous Pneumothorax
Spontaneous PneumothoraxThe study aims to evaluate the association between spontaneous pneumothorax onset and weather parameters.
Coronavirus Associated Pneumomediastinum and Pneumothorax
PneumothoraxPneumomediastinum1 moreSpontaneous pneumomediastinum (PMS) is defined as free air within the mediastinum. Spontaneous pneumothorax (PNX) consists of the presence of air inside the pleural space. PMS and PNX may sometimes occur secondly to an underlying pathology, or deriving from a sudden increase in intra-alveolar pressure such as functional alteration such as airway hyperactivity, Valsalva maneuver, cough, barotrauma, and/or volutrauma with consequent rupture of the alveoli and subsequent leakage of air into the mediastinum due to the Macklin effect. The escaping air can then spread inside the pericardium, the peritoneum, the muscles, and subcutaneous tissues, hence causing subcutaneous emphysema. PMS and PNX are rare complications of several lung infections such as Pneumocystis Jirovecii pneumonia, tuberculosis, bacterial necrotizing pneumonia, and herpes pneumonia. However, an increasing number of PMS and PNX has been described in patients with SARS-CoV2 interstitial pneumonia. PMS and PNX can either present as the onset manifestation of COVID-19 disease, or occur as complications of non-invasive and/or invasive ventilation, or following to cystic and/or fibrotic evolution of the pathology. The frequency of PMS and PNX during COVID-19 is not well defined, as the available data are limited to case collections and single reports. According to currently available scientific literature, PNX in COVID-19 occurs with frequency rates of 1-3%, up to 6% in patients undergoing non-invasive ventilation (NIV) and mechanical artificial ventilation (VAM). In McGuinness's analysis, which compared the complications of barotrauma in patients with acute respiratory distress syndrome (ARDS) in VAM, PNX and PMS occurred with frequency rates of 9% and 10%, respectively, while in non-COVID-19 population, PNX and PMS frequency rates were 12% and 3%, respectively.
Effect of the Minimum Bronchial Cuff Volume of Left-sided Double-lumen Endotracheal Tube for One-lung...
Lung CancerPneumothoraxOver-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.