CASE 9783 Published on 18.03.2012

Idiopathic spontaneous pneumomediastinum

Section

Chest imaging

Case Type

Clinical Cases

Authors

Capozzi Rodolfo G, Lucas Antonio I, Gilligan N

CEDIP; Hernandez 362.
(6450) Pehuajó;
Email:guspat2000@yahoo.com.ar

Patient

9 years, female

Categories

Area of Interest Anatomy, Bones, Education ; Imaging Technique CT, Conventional radiography

Procedure Complications, Diagnostic procedure, Imaging sequences, Biopsy ; Special Focus Acute, Blood, Dissection ;

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Clinical History

A 9 year-old previously healthy female patient presented with right ear pain and odynophagia, ipsilateral parotid swelling of sudden onset with no history of trauma, coughing or straining.

On clinical examination subcutaneous emphysema was confirmed in right temporoparietal region, neck and upper chest with good air entry in both lungs.

Imaging Findings

Air in the retropharyngeal soft tissue and perilaryngeal and subcutaneous tissue was noted in the thoracic outlet. Submandibular soft tissue was enlarged. The body of the hyoid was moved forward (Fig. 1).
The chest radiograph showed interstitial air juxtahilar between the left main pulmonary artery and the mediastinal pleura and subcutaneous emphysema in the soft tissues of the neck (Fig. 2, 3).
Neck CT showed dissection of the different compartments due to the presence of interstitial air, with no evidence of rupture of organs (Fig. 4 - 7).
Chest CT revealed air dissecting supraaortic and subaortic mediastinal structures. Subcutaneous emphysema was noted in the presternal region without concomittant pneumothorax (Fig. 8, to 13).
Skull CT was normal except for presence of gas in subcutaneous tissue of the right frontotemporoparietal area without associated bone lesions (Fig. 14).

Discussion

Spontaneous pneumomediastinum is characterized by the presence of air in the mediastinum in a patient without known underlying cause and is benign and self-limited. The first report was made by Hamman in 1939 [4, 6]. The incidence is unknown.
The mediastinum is connected to the submandibular space, retropharyngeal space, neck vessels, gastrointestinal tract, retroperitoneum (through periesophageal and periaortic fascial) and pelvis through the flank [5, 6]. The retropharyngeal space and prevertebral space communicate with the mediastinum neck. The prevertebral space continues down to the coccyx [7].
The pathophysiology of the mechanism consists of 3 steps: the terminal alveoli rupture, the air dissection along the peribronchovascular sheaths and the extent of interstitial emphysema in the mediastinum (Macklin effect) [6]. The alveolar rupture is a sudden increase in intraalveolar pressure, associated with cough or valsalva, exceeding the pressure in the pulmonary vasculature, releasing the air produced by interstitial emphysema, peribronchovascular sheaths dissected and interlobar septa. On the pressure gradient, the air can produce progress to pneumomediastinum or hilum to the periphery and produce pulmonary subpleural bullae and pneumothorax. The rupture of the alveoli in the pleural space can cause pneumothorax with no evidence of mediastinal emphysema. Finally, it can extend into the subcutaneous tissues of the chest wall and anterior cervical region, following the fascial planes and into the spinal canal [1].
The main symptoms are chest pain and dyspnoea [1], odynophagia [8], cough, nausea, vomiting [3] secondary to the dissection of tissues over the air or compression [9]. Retrosternal chest pain worsens with movement or breathing. Dysphagia and dysphonia are present if the air dissects retropharyngeal or perilaryngeal spaces [10].
Hamman's sign (pericardial crunch synchronous with the heart) is not pathognomonic [11].
Treatment is conservative. Pneumomediastinum evolves smoothly and resolves in 3 to 15 days without sequelae. No fatalities have been reported. In 32% of cases it may be complicated by pneumothorax [2, 3, 4, 8, 9, 11, 12].
Spontaneous pneumomediastinum is rare in children. A high index of suspicion is necessary in young patients with chest pain and signs of subcutaneous emphysema. A chest and lateral neck radiograph are initial tools for the initial diagnosis and should be supplemented by chest CT to rule out underlying lung disease or other causes of secondary pneumomediastinum and assess its extent.
Supportive therapy and clinical observation is sufficient in most cases as pneumomediastinum is self-limited (Fig. 15, 16).

Differential Diagnosis List

Idiopathic spontaneous pneumomediastinum

Secondary pneumomediastinum

Cardiac ischaemia

Pericarditis

Pneumothorax

Mallory-Weiss syndrome

Boerhaave syndrome

Asthma in children

Respiratory infections

Final Diagnosis

Idiopathic spontaneous pneumomediastinum

References

[1] Bejvan SM, Godwin JD (1996) Pneumomediastinum: Old Signs and New Signs. Review Article. A.J.R. American Journal of Roentgenology 166: 1041-1048 (PMID: 8615238)

[2] Weissberg D, Weissberg D (2004) Spontaneous mediastinal emphysema. European Journal of Cardio-thoracic Surgery 26: 885-888 (PMID: 15519176)

[3] Mir, C.S.; Korn, B.O.; Mora, D.I.; Berríos, S.D (2007) Neumomediastino espontáneo: A propósito de un caso. Revista Chilena de Cirugía 6: 459-462.

[4] Newcomb, A.E.; Clarke, P.C (2005) Spontaneous pneumomediastinum. Chest 128: 3.298 - 3.302.

[5] Webb, W.R.; Brant, W.E.; Helms, C.A. (1993) Mediastino. Introducción y Anatomía. Fundamentos de TAC Body. Edición española: Ed. Marbán, S. L p. 6.

[6] Zylak, C.M.; Standen, J.R.; Barnes, G.R.; Zylak, C.J. (2000) Pneumomediastinum Revisited. RadioGraphics 20: 1043-1057. (PMID: 10903694)

[7] Eleta, F.A.: Cuello. En: Eleta, F.A.; Velán, O.; San Román, J.L.; Blejman, O.; Rasumoff, A.J.; Bais, H.M.; et al. (1996) Diagnóstico por Imágenes en Medicina, Cabeza y Cuello. Diagnóstico por Imágenes en Medicina, Cabeza y Cuello. 1º edición. Fundación Jaime Roca; Laboratorio Temis Lostaló; I.S.B.N. (en trámite) p. 48.

[8] Macías Roble, M.D.; García Peliz, M.; González Franco, A.; Maniega Cañibano, M.; García Bear, M.; García Fernández, T. (1999) Neumomediastino espontáneo en Urgencias. Emergencias; Revista Científica de la Sociedad Española de Medicina de Urgencias y Emergencias 11: 438-441.

[9] Jougon, J.B.; Ballester, M.; Delcambre, F.; Mac Bride, T.; Dromer, C.E.H.; Velly, J.F. (2003) Assessment of spontaneous pneumomediastinum: experience with 12 patients. The Annals of Thoracic Surgery 75: 1711-1714. (PMID: 12822604)

[10] Chien, B.; Kumar, V.; Westesson, P.L. (2009) Pneumomediastinum. Neuroradiology Case of the week. Case 401. University of Rochester Medical Center/Radiology (web site). Available at: http://www.urmc.rochester.edu/smd/Rad/neurocases/Neurocase401.htm

[11] Campillo-Soto, A.; Coll-Salinas, A.; Soria-Aledo, V.; Blanco-Barrio, A.; Flores-Pastor, B.; Candel-Arenas, M.; et al (2005) Neumomediastino espontáneo: estudio descriptivo de nuestra experiencia basada en 36 casos. Archivos de Bronconeumología 41: 528-531. (PMID: 16194517)

[12] Caceres, M.; Ali, S.Z.; Braud, R.; Weiman, D.; Garret Jr, H.E. (2008) Spontaneous Pneumomediastinum: A Comparative Study and Review of the Literature. The Annals of Thoracic Surgery 86: 962-966. (PMID: 18721592)

Case information

URL:	https://eurorad.org/case/9783
DOI:	10.1594/EURORAD/CASE.9783
ISSN:	1563-4086

Figure 1

Neck radiograph

Air in the retropharyngeal soft tissue and perilaryngeal and subcutaneous tissue are introduced into the thoracic outlet. Submandibular soft tissue shows augmentation. The body of the hyoid is moved forward.

Figure 2

Chest radiograph

Interstitial air is displayed in the region of the left lung juxtahilar between the left main pulmonary artery and the mediastinal pleura. Subcutaneous emphysema is shown in the soft tissues of the neck.

Figure 3

Chest radiograph

Interstitial air in the region of the left lung juxtahilar between the left main pulmonary artery and the mediastinal pleura.

Figure 4

Follow-up neck radiograph

Follow-up radiograph is normal after 2 weeks.

Figure 5

Neck CT

Dissection of the different compartments due to the interstitial air, with no evidence of rupture of organs (parotid and masticator space right retropharyngeal, prevertebral, anterior cervical visceral space and deep cervical space).

Figure 6

Neck CT

Figure 7

Neck CT

Figure 8

Neck CT