Plain radiography (AP) of the thorax
Cardiovascular
Case TypeAnatomy and Functional Imaging
Authors
Decruyenaere P., Behaeghe M., Pannecoeck K., Verstraete K.
Patient95 years, male
A 95-year-old man, admitted to our hospital for erysipelas, developed progressive drowsiness. Relevant medical history of the patient included arterial hypertension, COPD and type 2 diabetes. No apparent causes for the drowsiness could be identified in the history and clinical examination of the patient.
Plain radiography of the chest (Fig. 1) showed an enlarged upper mediastinum with a broad soft tissue shadow at the right side of the trachea (arrowheads). Also note a left aortic calcification (arrow).
CT angiography of the neck vessels (Fig. 2a, b) showed diffuse atherosclerosis, without significant stenosis. A structural anomaly of the aortic arch with two blood vessels encircling the trachea and the esophagus was visualised.
Using 3D-reconstruction techniques of the CT angiography (Fig. 3), a double aortic arch (DAA), right-dominant with in-between the trachea and the oesophagus, was visualised. Both on the right and left aortic arch arise the subclavian artery and the carotid artery, with subsequent absence of the right brachiocephalic trunk.
BACKGROUND
The incidence of a vascular ring anomaly of the aortic arch accounts for 1–2% of all congenital diseases of the heart and aorta [1]. A double aortic arch (DAA) may be right dominant (70%), as is seen in this case, left dominant (25%) or balanced type (5%) [2]. The formation of a vascular ring, characterised by a connection between the left and right aortic arches, enclosing the trachea and oesophagus, may be explained by the failure of the normal regression of one or more segments of the six pairs of the aortic arches [3].
CLINICAL PERSPECTIVE
The resultant vascular ring can cause varying degrees of airway and oesophageal compression. A case series of 81 patients showed that the majority of patients with DAA experience symptoms, most often respiratory (stridor) and gastrointestinal (dysphagia) as a result of the indentation of trachea and oesophagus [4]. As this rare condition is most often diagnosed at a young age, our case is remarkable because of the old age of the patient, and the absence of any clinical symptoms.
IMAGING PERSPECTIVE
Radiography of the thorax shows a right and left paratracheal shadow, representing the right and left aortic arch. Absence of an air column in the thoracic part of the trachea is not present in this case. Other imaging techniques include barium swallow studies, which can be indicated in symptomatic patients to visualise an impression on the oesophagus as well as echocardiography to identify associated cardiac anomalies, which are present in a minority of cases. These studies were not performed in this patient, as no clinical signs of compression were present. Although CT angiography was performed to detect a vascular cause of drowsiness, it was also the best choice for the visualisation and characterisation of the vascular ring. When DAA is suspected in a symptomatic patient, MRI may be the modality of choice because of its unique ability to differentiate vessels from avascular masses, without the need for contrast material or radiation exposure, especially in younger patients.
OUTCOME
In this case, the diagnosis of DAA was made by coincidence in late adulthood, with the patient being asymptomatic during his entire lifetime. However, most patients develop respiratory/gastrointestinal symptoms at a young age. In those cases, surgical repair is warranted. Outcomes are usually excellent after repair, although persistent respiratory symptoms are possible, depending on maldevelopment of the trachea and/or major airways, due to previous compression.
Written informed patient consent for publication has been obtained.
[1] Kouchoukos NT, Blackstone EH, Doty DB, Hanley FL, Karp RB (2003) Kirklin/Barratt–Boyes Cardiac Surgery. 3rd edn. New York/Tokyo: Churchill Livingstone, Elsevier Science
[2] Fraser CD Jr, Carberry KE (2012) Congenital heart disease. In: Townsend CM Jr, Beauchamp RD, Evers BM, Mattox KL. Sabiston Textbook of Surgery. 19 th ed., Ch. 59. Philadelphia, PA: Saunders
[3] Edwards JE (1948) Anomalies of the derivatives of the aortic arch system. Med Clin North Am 32:925–49 (PMID: 18877614)
[4] Alsenaidi K, Gurofsky R, Karamlou T, Williams WG, McCrindle BW (2006) Management and outcomes of double aortic arch in 81 patients. Pediatrics 118(5):e1336-41 (PMID: 17000782)
URL: | https://eurorad.org/case/16095 |
DOI: | 10.1594/EURORAD/CASE.16095 |
ISSN: | 1563-4086 |
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