Objective: Pneumomediastinum (PM) can be observed after blunt and penetrating chest trauma. Most of the patients with PM due to trauma can be managed conservatively. This study aimed to evaluate the cases with PM on thorax computed tomography (CT) after blunt chest trauma (BCT). Methods: Medical records of patients with PM due to BCT between January 2000 and December 2014 were reviewed retrospectively. Thorax CT was used to verify pneumomediastinum in all patients. Twenty-four patients which had different causes of PM (penetrating trauma, iatrogenic, spontaneous) were excluded from the study. Data of sixty-nine patients with the diagnosis of PM secondary to BCT and who were observed without any further procedure for the cause of PM, were evaluated retrospectively. Results: There were 59 male and 10 female patients with the mean age of 47.60 ± 17.47 years (range, 16 to 80 years). The most common cause of PM etiology was traffic accident with a rate of 38 (55.06%) patients, followed by fall from height in 25 (36.24%), compression in 3 (4.35%) and drubbing in 3 (4.35%) patients. There was a 12.46 ± 6.42 days (range, 6 to 28 days) mean duration of chest tube drainage which was performed for accompanying pathologies like pneumothorax and hemothorax. No complication was determined for short and long term follow-up of patients when all hospital records were analyzed in terms of complication. Conclusions: PM after BCT may be a marker of esophageal and tracheobronchial injury and invasive procedures like bronchoscopy and endoscopy can be needed for differential diagnosis. We evaluated 69 patients in good general status and no need for intensive care management with PM in this study and observed them without any further procedure. As a result of these findings we concluded that for the PM patients after BCT with uneventful clinical course, conservative treatment without any further procedure is a safe and sufficient method.
Pneumomediastinum (PM) is described as the presence of air in the mediastinum and can occur as a result of especial four different mechanisms. The first way is the passage of the air to the mediastinum through the natural potential spaces after facial and neck trauma. The second way is the transdiaphragmatic air passage due to abdominal organ perforation. The third way is the perforation of trachea, larynx or esophagus and lastly alveolar rupture secondary to increase of intrathoracic pressure and development of PM which is also known as “Marclin Effect” [
In eighty percent of PM the etiologic factors are traumatic factors [
The patients who admitted to emergency room after blunt chest trauma and diagnosed as PM on computed tomography between January 2000 and December 2014 were reviewed retrospectively. The patients with missing data, inadequate results, follow-up information and underwent urgent operation or followed up in intensive care unit because of multi-system injury were excluded from study. The study included 69 patients who were followed up in thoracic surgery department with good and stable clinical status. All patients gave written informed consent. There was no radiological evidence of intra-abdominal, tracheo-bron- chial or esophageal injury on tomographic imagination. Biochemical, radiological (chest X-ray, tomography), arterial blood gas, cardiac enzyme examinations, electrocardiogram and echocardiography of all patients were investigated. The patients were consulted about their accompanying injuries with the related clinics. If tube thoracostomy was performed due to pneumo and/or hemothorax, it was followed up until the end of air leak or hemorrhagic drainage under 100 cc per day. The feeding of patients was started gradually and controlled with the findings of physical, biochemical and radiological examinations. Nasal oxygen inhalation (2 - 4 l/min) was performed to all of the patients in order to accelerate the resorption of mediastinal emphysema. The patients were discharged after the complete resorption of PM which was proved radiologically and followed up by periodical outpatient controls.
The mean age of the patients (59 males, 10 females) was 47.60 ± 17.47 years (range, 16 to 80 years). The etiologic factors of blunt chest trauma were; traffic accident in 38 (55.07%), fall from height in 10 (14.49%), compression in 3 (4.35%) and drub in 3 (4.35%) patients (
Forty-five tube thoracostomies were performed to 39 (56.53%) patients. Basal and apical tube thoracostomies were performed to one patient and bilateral tube thoracostomies were performed to 5 (7.24%) patients. Cutaneous and subcutaneous incisions were performed to 4 patients for subcutaneous emphysema. In 5 patients no other approach had been required except thoracentesis. The mean of hospital stay of patients underwent tube thoracostomy was 12.46 ± 6.42 days (range 6 to 28 days) and the mean of hospital stay of whole patients was 9.12 ± 7.02 days (range 3 to 39 days). The patients were followed up in outpatient clinic at one week and one month of externation. Any complications like expansion failure, recurrence of PM or mediastinitis were not observed.
Sex | Male | n = 59 (85.50%) |
---|---|---|
Female | n = 10 (14.49%) | |
Age | 47.60 ± 17.47/years | |
Co-existing pathology | Pneumothorax | n = 64 (92.75%) |
Hemothorax | n = 49 (71.01%) | |
Rib fracture | n = 59 (85.5%) | |
Subcutaneous emphysema | n = 57 (82.61%) | |
Upper extremity fracture | n = 17 (24.63%) | |
Lower extremity fracture | n = 2 (2.89%) | |
Vertebral fracture | n = 15 (21.73%) | |
Kraniofasial fracture | n = 7 (10.14%) | |
Pelvic fracture | n = 6 (8.70%) | |
Intracranial hemoragia | n = 5 (7.25%) | |
Intraabdominal organ injury | n = 5 (7.25%) | |
Tube thoracostomy time | 12.46 ± 6.42/days | |
Hospital stay | 9.12 ± 7.02/days |
n = patient number.
Traumatic PM is a rare pathology that can be observed after neck, thorax or abdominal trauma but it can be mortal due to relation with the injuries of tracheobronchial tree, esophagus or vascular elements [
Similar studies were reported in the literature for spontaneous PM also. Caceres and colleagues [
In our study, all of the PM patients were diagnosed with thorax CT and any tracheobronchial or esophageal injury was not detected on CT. We accept that the further endoscopic evaluation is needful (essential, obligatory) for the patients with the findings of tracheobronchial or esophageal injury on CT. Nevertheless we think that the observation without any further invasive procedures is enough for the PM patients without any additional finding on thorax CT. Limitations for our study were the exclusion of the patients undergone urgent surgery and follow-up in intensive care unit and also the lack of number of patients due to a single center based data. These results can be promoted by larger number of patients and multi-center based studies.
As a result, by the developing technology and increasing precision of screening methods we support that bronchoscopy and endoscopy will be less necessary for the establishing coexisting injuries in PM patients.
Authors declare no conflicts of interest with respect to the authorship and/or publication of this article.
The authors received no financial support for the research and/or authorship of this article.
The procedures followed were in accordance with the ethical standards of the responsible committee on human experimentation (institutional and national) and with the Helsinki Declaration of 1975, as revised in 2000 and 2008.
Kavurmaci, O., Akcam, T.I., Ozdil, A., Ergonul, A.G., Turhan, K., Cakan, A. and Cagirici, U. (2017) Clinical Approach for the Pneumomediastinum after Blunt Chest Trauma. Open Journal of Thoracic Surgery, 7, 8-13. https://doi.org/10.4236/ojts.2017.71002