View clinical trials related to Hemothorax.
Filter by:Owing to the development of instruments and surgical techniques, the number of spinal deformity correction surgeries has increased significantly. The incidence of hemothorax due to posterior correction surgery for spinal deformity is reported to be as low as 0.1%, and the vast majority of these cases were treated through observation without additional intervention. However, if hemothorax that occurs is missed, it can result in increased mortality and morbidity. Furthermore, there is a paucity of data on management of hemothorax caused by posterior correction surgery. The aim of this retrospective study is to evaluate our cases of hemothorax after posterior correction surgery for spinal deformity.
Thoracic complications directly or indirectly consequence of Coronavirus Disease 2019 (COVID-19) (including either pathologies strictly related to the infection, or iatrogenic effects of therapeutic attempts to treat it) have been described during the pandemic. Many of the above conditions often require a surgical approach but, based on published data reporting high early postoperative morbidity and mortality, many experts initially advised against any referral to surgery in COVID-19 patients. Therefore, the issue is if salvage surgical approach should be always excluded or could be considered when it represents the only remaining effective option. In the absence of solid data and recommendations, this is a demanding challenge for thoracic surgeons. The investigators have coordinated a multicenter study to collect the experience of several worldwide high-volume thoracic surgery departments. Their objective is to investigate efficacy and safety of surgery in COVID-19 patients who developed thoracic complications that required operative management.
This prospective randomized multicenter study is intended to investigate tolerance and effectiveness of thoracic drainage conducted by Seldinger technique with small drains, or by a surgical-like technique with large armed drains, in intensive care units patients.
The incentive spirometer (IS) is a mechanical device that helps lung expansion. It is commonly used to prevent postoperative lung atelectasis and decreased pulmonary complications in patients who received cardiac, lung, or abdomen surgery.This study aimed to explore the effect of the IS on the improvement of lung function and decrease in pulmonary complication rate in rib fractures patients.
Tube 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.
After sustaining severe trauma to the chest, patients will often bleed into the chest cavity (pleural space) which is called hemothorax or they may also experience air leakage within the chest cavity in combination with the bleeding (hemopneumothorax). These conditions are treated with the insertion of a tube into the chest called a chest tube (CT). Insertion of the CT is very painful for the patient due to the size or diameter of the tube. Alternative to CT is a small percutaneous catheter (PC), pigtail or non-pigtail. At Banner-University of Arizona Tucson Campus (B-UATC) investigator prefers inserting a small pigtail catheter for the management of hemothorax or hemopnuemothorax. The primary purpose of our study is to see if the use of the PC is just as effective as CT in terms of removing leaked blood and/or air from the chest cavity.
Traumatic hemothorax and hemopneumothorax are common diagnoses which are typically treated by placement of a chest tube. 28-32 Fr chest tubes have previously been shown equivalent to 36-40 Fr chest tubes for the non-emergent drainage of hemothorax. A smaller study has found 14 Fr pigtails had less pain than larger tubes but was not powered to compare outcomes. We seek to perform a prospective randomized trial that is adequately powered comparing efficacy of 14 Fr thal tubes to 28 Fr chest tubes for non-emergent drainage of hemothorax and hemopneumothorax. Additionally, we will employ maximal barrier precautions for all chest tube insertions and compare empyema rates to our historical controls.
The purpose of this study is to assess the effectiveness of the PleuraFlow® Active Tube Clearance (ATC) technology in reducing the rate of postoperative atrial fibrillation (POAF) among post cardiac surgery patients and to evaluate the impact of Active Tube Clearance (ATC) on other complications, such as retained blood syndrome (RBS), a composite endpoint including re-exploration for bleeding or tamponade, and interventions for hemothorax, pericardial or pleural effusion.
The purpose of this trial is to study the role of small bore chest drains in draining traumatic hemothorax and pneumothorax.
This is a prospective, randomized study comparing VATS( Video-Assisted Thoracoscopy ) to reinsertion of a Thoracostomy Tube in patients with retained haemothorax. The hypothesis is that early VATS as opposed to reinsertion of a thoracostomy tube , will lead to less complications and shorter hospital stay.