CASE
A healthy 19-year-old white male presented to the student health service complaining of substernal chest pain for 1 hour. He described the pain as “achy” and rated its severity as 5 on a scale of 0 to 10. The patient denied any radiation to the arms, shoulders, neck, or back. He stated that the pain came on suddenly while he was seated in a classroom and had been constant since it started. Onset was not precipitated by coughing, straining, or any other identifiable event. He noted that extending his neck or leaning forward exacerbated the pain. Nothing he did alleviated it. He denied palpitations, light-headedness, nausea, sweating, or weakness. The patient reported mild dyspnea while walking across campus to the health service, but he was not short of breath. He did not have a cough or cold, sputum production, wheezing, or other respiratory complaint. He denied recent vomiting, abdominal pain, diarrhea, or other GI symptoms.
On questioning, the patient reported no history of significant medical problems or surgeries. In fact, he said he had felt “entirely well” until the pain started. His family history was significant for hypertension in his father and uncles. There was no history of other cardiac or respiratory disease. The patient was a second-semester junior in good academic standing. As an on-campus emergency medical technician (EMT), he was well-known to the health service staff, who considered him to be reliable and responsible. He denied any use of recreational drugs, including cocaine, cannabis, and Ecstasy, but admitted to drinking beer on weekends when not on duty; he had last drunk beer 5 days prior to presentation.
On physical examination, he appeared to be in minimal distress. His vital signs were stable with a slight increase in heart rate (85 beats per minute). His skin was warm and dry and without cyanosis, pallor, or diaphoresis. There was no subcutaneous emphysema in the neck or chest. Lung sounds were clear and bilaterally equal. Cardiac examination revealed a loud precordial crunch coincident with systole but was otherwise unremarkable. The extremities were free of clubbing, cyanosis, or edema.
The patient was sent to the local hospital for a chest radiograph. Findings of linear streaks of gas in the mediastinum extending into the neck (see Figure 1) and periaortic air, also known as the “ring-around-the-artery” sign (see Figure 2), led to radiologic identification of a pneumomediastinum. The patient was then referred to the emergency department for a surgical consultation and subsequently admitted for treatment with supplemental oxygen, analgesics, and bed rest. Daily chest radiographs were used to follow the resolution of the pneumomediastinum. Six days later, he was discharged with a diagnosis of spontaneous pneumomediastinum (SPM), as no causative or correlative activity was identified, and he returned to school. He was restricted from athletics for 1 month. There was no recurrence of the pneumomediastinum during the next 2 years while the patient continued as an undergraduate student.
DISCUSSION
SPM refers to the presence of free air in the mediastinum of a patient without underlying lung disease. With an incidence of approximately 1 in 25,000 to 44,000 patients,1-3 SPM is an uncommon condition that has been described only occasionally in the medical literature over the past 30 years. Many of the published papers are case reports, as determined by searches of appropriate databases, eg, PubMed, Ovid, and MEDLINE. These case reports suggest that the term spontaneous pneumomediastinum can have various interpretations. While spontaneous implies an occurrence without a precipitating event, most of the 82 case reports reviewed identify some associated cause (33%), preexisting disease process leading to the SPM (26%), physiologic process leading to the SPM (23%), or SPM due to some medical procedure or treatment (4%). Only 15% of the cases identified could be considered truly spontaneous.
Specific etiologies of nonspontaneous pneumomediastinum identified in the literature can be classified as related to sports, drugs, or air pressure changes. Sports-related causes include weight lifting, football, swimming, and diving.4-7 Older literature implicated marijuana, heroin, or cocaine use.8,9 More recently, Ecstasy (3,4-methylenedioxymethamphetamine, or MDMA10-12) has been implicated in SPM, more from respiratory efforts or Valsalva maneuvers involved in use of that drug than because of direct pharmacologic actions. Overall, most disease processes associated with SPMs have been respiratory in nature, including asthma, bronchial tumor, and pulmonary fibrosis.2,3,13-15 Most physiologic processes reported to have led to SPM are related to increased intrathoracic pressure, as in the aforementioned Valsalva maneuvers. The physiologic processes noted include events surrounding pregnancy, childbirth, and delivery,16 vomiting with anorexia nervosa,17 and hyperemesis gravi darum,18 although these did not apply in this case. Because of our patient's background as an EMT, he was able to provide information that led to the elimination of any of the proposed etiologies.