View clinical trials related to Thoracic Injuries.
Filter by:Guidelines for noninvasive ventilation (NIV) recommend continuous positive airway pressure in patients with thoracic trauma who remain hypoxic . However, no any suggestion was applied for high flow nasal cannula (HFNC). Therefore, Our aim was to determine whether HFNC reduces intubation in severe trauma-related hypoxemia.
Retrospectively analyze the risk factors of VTE in 5774 patients with thoracic trauma from 33 hospitals in China, and established a risk prediction model
to compare the respiratory complications in patient managed with high velocity nasal insufflation versus patients managed with conventional low flow oxygen in patients with severe chest trauma
The goal of this Delphi study is to identify the crucial steps and the errors in Chest Tube Insertion (CTI). These steps and errors will be used for the development of a new assessment tool based on international consensus.
Rib fractures are the most frequent injury after blunt thoracic trauma. It is very important to choose the most appropriate interventions to prevent complications. But who will benefit most of those interventions remains a challenge. This study analyses the correlation between chest X-Ray and CT scan. We also analyse different scores to predict respiratory failure.
to compare high flow nasal cannula against noninvasive ventilation in patients with non-sever blunt chest trauma in improvement of oxygenation, need for intubation and mechanical ventilation within 28 days
Chest trauma remains an issue for health services for both severe and apparently mild trauma management. Severe chest trauma is associated with high mortality and is liable for 25% of mortality in multiple traumas. Moreover, mild trauma is also associated with significant morbidity, especially in patients with preexisting conditions. Thus, whatever the severity, a fast-acting strategy must be organized. In order to improve the prognosis of patients with severe chest trauma, early and continuous application of non-invasive mechanical ventilation (NIV) can indeed reduce the need for intubation and shorten intensive care unit length-of-stay. Among different mechanisms, the early use of positive end-expiratory pressure after chest trauma, when feasible, seems mandatory to optimize oxygenation and improve clinical outcomes. Indeed, interventions aimed at preventing ARDS after chest trauma carry the greatest potential to reduce the substantial morbidity, mortality, and resource utilization associated with this syndrome.
The aim of study is to investigate the effects of active external warming of patient concurrently with application of ice to incision site on thoracotomy pain and analgesic consumption. The research is a quasi-experimental design with control and study groups.
To determine test performance of transesophageal echocardiography performed by emergency physician ultrasound for the identification of blunt traumatic aortic injury in chest trauma.
Blunt chest trauma comprises over 10% of all trauma patients presenting to emergency departments worldwide and is the most frequent injury in polytrauma patients. It is associated with high risk (>10%) of pulmonary complications such as pneumonia. Pillars of treatment are adequate pain relief, respiratory function exercises and rapid mobilisation through physiotherapy. Inadequate pain control can result in restricted ventilatory function and in reduced mobility, both resulting in a higher risk of particularly pulmonary complications. Virtual Reality (VR) might be an easy to use, individualized, and harmless technique that can facilitate pulmonary recovery and aid in the prevention of complications through reducing pain and promoting exercising. The investigators hypothesize that VR improves respiratory function and mobilisation in the post-acute phase of blunt chest trauma by distracting patients from pain and stress, and by stimulating pulmonary and physical exercise.