Post ductal coarctation of the aorta
An axial contrast-enhanced CT image at the level of the aortic arch (Figure 1) and at a level 12 mm inferiorly (Figure 2). The ascending aorta and aortic arch (Figure 1) is normal caliber, but the descending aorta is markedly narrowed (asterisk, Figure 2). Enlarged and tortuous intercostal arteries and internal mammary arteries are present.
Oblique-sagittal maximum intensity projection (MIP) image (Figure 3) from a contrast-enhanced CT better demonstrates the short-segment coarctation of the proximal descending aorta and the enlarged intercostal arteries. Note the vertical orientation of the left subclavian artery (S) and the mildly dilated aortic root (related to a bicuspid aortic valve). A 3-dimensional volume-rendered image (Figure 4) from a left posterolateral view better illustrates the extensive collateral network that delivers blood flow to the lower body, including the left internal mammary artery, right lateral thoracic artery, and numerous intercostal arteries.
Coarctation of the aorta accounts for 5% to 10% of all cases of congenital heart disease.1-3 It is thought to be the result of a malformation of the aortic media, leading to a posterior infolding or shelf.1 Two major types of coarctation are recognized: preductal and postductal. Both forms are easily shown on CT angiography.
The more common form of coarctation is postductal, with focal narrowing almost always located at the junction of the distal aortic arch and the descending aorta, immediately below the obliterated ductus arteriosus. Patients with a postductal coarctation are usually asymptomatic at birth and the condition is later recognized either during workup of unexplained hypertension, evaluation of a coexistent cardiac anomaly (usually a bicuspid aortic valve), or rarely as an incidental finding. In typical cases, blood pressure discrepancy between the upper and lower extremities, and radial-femoral delay are present. However, if the coarctation occurs proximal to the left subclavian artery (or if an aberrant right subclavian artery arises distal to the coarctation), the blood pressures in the arms will be discrepant. Collateral circulation between the proximal and distal parts of the aorta is established via large intercostal and internal thoracic arteries, which act as a source of perfusion to abdominal viscera and the lower body, and may result in inferior rib notching.1
The less common preductal form of coarctation occurs proximal to the insertion of the ductus arteriosus or ligamentum arteriosum, and is associated with longer-segment tubular hypoplasia of the transverse aortic arch and left subclavian artery. These patients usually present in the first few days to weeks of life with more severe symptoms, including cyanosis (especially of the lower body), congestive heart
failure, shock, and necrotizing enterocolitis.1-3 Associated congenital heart lesions include ventricular septal defects, patent ductus arteriosus, and hypoplastic left heart.
Imaging is performed to confirm1 the site, morphology and severity of the coarctation,2 the presence and extent of associated collateral circulation,3 associated lesions, and4 the degree of left ventricular hypertrophy. The initial imaging examination is usually chest radiography and/or echocardiography. CT is useful to confirm the site and extent of the coarctation and evaluate collateral vessels. The latter is important for surgical planning as cross-clamping of the aorta may be contraindicated if collateral formation is inadequate because it can result in spinal cord ischemia, necessitating cardiopulmonary bypass for perfusion of the lower body.
On CT, a postductal coarctation appears as a discrete short-segment aortic narrowing with an infolding or shelf-like appearance of the posterior aortic wall (Figure 1). Multiplanar imaging is a necessity, as a very short segment coarctation could be overlooked on transaxial images. Sagittal and parasagittal planes are best to show the location and extent of coarctation (Figures 3 and 4). In the preductal form, the entire isthmus and possibly the transverse arch may be narrowed. The ascending aorta may be dilated and the descending aorta just below the coarctation can show post-stenotic dilatation.
Other findings include collateral vessel formation and rib notching. The common collateral pathways are the intercostal arteries (usually third through eighth) and internal thoracic arteries.3 Associated cardiac defects, including ventricular septal defect, bicuspid valve and patent ductus arteriosus, may be seen.4
Treatment options are open surgical repair or catheter interventions, including angioplasty and/or stenting.5 The choice of procedure depends on the site and extent of the coarctation and the patient’s age. After surgical repair or balloon angioplasty, CT can be used to demonstrate complications such as residual stenosis or restenosis, aneurysm formation, or dissection. The prevalence of recoarctation is between 3% and 41% and is associated with smaller patient size or younger age at operation, and the presence of associated transverse arch hypoplasia.5 The frequency of aneurysms is reported to be 5% to 9% after end-to-end anastomosis and 4% to 12% after angioplasty.5
We report a case of postductal aortic coarctation. CT provides excellent characterization of the anatomy and may be especially useful in defining the site and extent of obstruction and associated anomalies. Current CT scanners can provide exceptional levels of anatomic detail with very low radiation dose.
- Beekman RH. Coarctation of the aorta. In: Alan HD, Gutgesell HP, Clark EB, Driscoll DJ, eds. Heart Disease in infants, children, and adolescents 6th ed. Philadelphia. Lippincott Williams & Wilkins. 2006;988-1010.
- Joshi VM, Sekhavat S. Acyanotic congenital heart defects. In: Vetter VL. ed. Pediatric cardiology, the requisites. Elsevier Mosby. 2006;79-96.
- Kaemmerer H. Aortic coarctation and interrupted aortic arch. In: Gatzoulis MA, Webb GD, Daubeney PEF. Adult congenital heart disease. Churchill Livingstone. Edinburgh 2003;253-264.
- Siegel MJ. Heart. In: Siegel MJ, ed. Pediatric Body CT. Philadelphia. Lippincott. Williams & Wilkins. 2007;145-175.
- Shih M-CP, Tholpady A, Kramer CM, et al. Surgical and endovascular repair of aortic coarctation: Normal findings and appearance of complications on CT angiography and MR angiography. AJR Am J Roentgenol. 2006;187:W302-W312.