I Mahmood1, Z Tawfeek1, S Khoschnau1, S Nabir2, A Almadani1, H Al Thani1, K Maull1, R Latifi3. 1. Section of Trauma Surgery, Department of Surgery, Hamad General Hospital, Doha, Qatar. 2. Department of Radiology, Hamad General Hospital, Doha, Qatar. 3. Section of Trauma Surgery, Department of Surgery, Hamad General Hospital, Doha, Qatar. Rifat.Latifi@gmail.com.
Abstract
BACKGROUND: The increasing use of thoracic computed tomography (CT) in trauma patients has led to the recognition of intrapleural blood and air that are not initially evident on admission plain chest X-ray, defining the presence of occult hemopneumothorax. The clinical significance of occult hemopneumothorax, specifically the role of the tube thoracostomy, is not clearly defined. OBJECTIVE: To identify those patients with occult hemopneumothorax who can be safely managed without chest tube insertion. DESIGN: Prospective observational study. METHODS: During the recent 24 month period ending July 2010, comprehensive data on trauma patients with occult hemopneumothorax were recorded to determine whether tube thoracostomy was needed and, if not, to define the consequences of nondrainage. Pneumothorax and hemothorax were quantified by computed tomography (CT) measurement. Data included demographics, injury mechanism and severity, chest injuries, need for mechanical ventilation, indications for tube thoracostomy, hospital length of stay, complications and outcome. RESULTS: There were 73 patients with hemopenumothorax identified on CT scan in our trauma registry. Tube thoracostomy was successfully avoided in 60 patients (83 %). Indications for chest tube placement in 13 (17 %) of patients included X-ray evidence of hemothorax progression (10), respiratory compromise with oxygen desaturation (2). Mechanical ventilation was required in 19 patients, five of them required chest tube insertion, and six developed ventilator associated pneumonia, while there were no cases of empyema. There was one death due to severe head injury. CONCLUSIONS: Occult hemopneumothorax can be successfully managed without tube thoracostomy in most cases. Patients with a high ISS score, need for mechanical ventilation, and CT-detected blood collection measuring >1.5 cm increased the likelihood of need for tube thoracostomy. The size of the pneumothorax did not appear to be significant in determining the need for tube thoracostomy.
BACKGROUND: The increasing use of thoracic computed tomography (CT) in traumapatients has led to the recognition of intrapleural blood and air that are not initially evident on admission plain chest X-ray, defining the presence of occult hemopneumothorax. The clinical significance of occult hemopneumothorax, specifically the role of the tube thoracostomy, is not clearly defined. OBJECTIVE: To identify those patients with occult hemopneumothorax who can be safely managed without chest tube insertion. DESIGN: Prospective observational study. METHODS: During the recent 24 month period ending July 2010, comprehensive data on traumapatients with occult hemopneumothorax were recorded to determine whether tube thoracostomy was needed and, if not, to define the consequences of nondrainage. Pneumothorax and hemothorax were quantified by computed tomography (CT) measurement. Data included demographics, injury mechanism and severity, chest injuries, need for mechanical ventilation, indications for tube thoracostomy, hospital length of stay, complications and outcome. RESULTS: There were 73 patients with hemopenumothorax identified on CT scan in our trauma registry. Tube thoracostomy was successfully avoided in 60 patients (83 %). Indications for chest tube placement in 13 (17 %) of patients included X-ray evidence of hemothorax progression (10), respiratory compromise with oxygen desaturation (2). Mechanical ventilation was required in 19 patients, five of them required chest tube insertion, and six developed ventilator associated pneumonia, while there were no cases of empyema. There was one death due to severe head injury. CONCLUSIONS:Occult hemopneumothorax can be successfully managed without tube thoracostomy in most cases. Patients with a high ISS score, need for mechanical ventilation, and CT-detected blood collection measuring >1.5 cm increased the likelihood of need for tube thoracostomy. The size of the pneumothorax did not appear to be significant in determining the need for tube thoracostomy.
Authors: Michael Paplawski; Swapna Munnangi; Jody C Digiacomo; Edwin Gonzalez; Ashley Modica; Shawndeep S Tung; Catherine Ko Journal: Crit Care Res Pract Date: 2019-09-02
Authors: Manuel Florian Struck; Christian Kleber; Sebastian Ewens; Sebastian Ebel; Holger Kirsten; Sebastian Krämer; Stefan Schob; Georg Osterhoff; Felix Girrbach; Peter Hilbert-Carius; Benjamin Ondruschka; Gunther Hempel Journal: J Clin Med Date: 2022-07-13 Impact factor: 4.964