Case Report
A six-month-old girl presented with a two-week history of cough, fever, tachypnea, and sweating during feeding. On physical examination, the patient was tachypneic (66 breaths/min), tachycardic (170 beats/min) and her oxygen saturation was 100% at room air. Chest auscultation revealed bilateral basal crepitation and a systolic murmur. Her blood workup was normal. An electrocardiogram showed myocardial ischemic changes. Chest radiograph showed cardiomegaly together with plethoric lungs.
Figure 1: A multidetector CT image shows the anomalous origin of the left coronary artery from the pulmonary trunk, which extends into the interventricular groove as a left anterior descending artery (LAD). The left pulmonary artery (LPA) is indicated.
Figure 2: Frontal volume-rendered 3-dimensional multidetector CT image shows the anomalous right coronary artery (RCA) arising from the main pulmonary artery (MPA). The right pulmonary artery (RPA) and left pulmonary artery (LPA) are indicated.
The patient was admitted and managed as a case of bronchiolitis. During admission, an echocardiogram was performed and revealed an anomalous origin of the left coronary artery from the pulmonary artery (ALCAPA). The patient was referred to our hospital for cardiac computed tomography (CT) angiography for diagnostic confirmation of ALCAPA.
Cardiac CT angiography was performed using a 128 slice CT scanner. The patient’s heart rate was 162 bpm during the scan. The patient was not given a beta-blocker before the CT examination to regulate her heart rate. A retrospective, gated cardiac CT angiography was performed, and reconstruction of cardiac phases from 5–95% of the R-R interval was obtained. In the CT angiograph, the left ventricle was significantly dilated with several calcifications noted at the papillary muscle indicating chronic ischemic changes. On analysis of the coronary arteries, the left coronary artery (LCA) was seen arising from the left side of the main pulmonary trunk and measuring 0.3 × 0.4 cm at its origin. It then coursed into the interventricular groove as the left anterior descending artery (LAD) [Figure 1 and 2]. The right coronary artery (RCA) was noted to arise from the right coronary sinus.
Discussion
ALCAPA is a rare congenital coronary abnormality also known as Bland-White-Garland syndrome. It has an estimated incidence of about 1 in every 300,000 live births and comprises between 0.24% and 0.46% of all congenital cardiac diseases.1–3 It is an isolated defect in about 95% of the cases; however, in 5% of cases it may be associated with other cardiac anomalies such as coarctation of the aorta, arterial septal defect, and ventricular septal defect.2 ALCAPA has a mortality rate up to 90% within the first year of life if left untreated.2,3 However, there are several cases reported in adolescents and adults.2–4 This is attributed to the development of collaterals between the right and left coronary arteries.2–5
During fetal life, the origin of the LCA from the pulmonary trunk is well tolerated because the pressure and saturation in pulmonary and systemic circulations are equal. Therefore, the flow in the LCA is antegrade with relatively saturated blood.2 At birth, the infant is asymptomatic but during the early months of life the pulmonary pressure falls below systemic pressure, which results in left-to-right
shunt from the higher pressure left coronary arterial system to the lower pressure pulmonary arterial system. This is known as the coronary steal phenomenon.3 Circulatory insufficiency, myocardial infarction, and life-threatening cardiac dysrhythmias are the most common clinical presentations during infancy.2,3 Older patients carry the risk of sudden death due to myocardial infarction, left ventricular dysfunction and mitral regurgitation, or silent myocardial ischemia.2–4
Conventional coronary angiography has been the gold standard diagnostic tool of choice for coronary anomalies. However, an angiography is an invasive procedure with morbidity and mortality rates of 1.5% and 0.15%, respectively.6
The advanced development in cardiac CT and magnetic resonance imaging (MRI) provides noninvasive diagnostic tools for ALCAPA. Multislice computed tomography (MSCT) is a non-invasive imaging tool, and it has an excellent spatial resolution that allows excellent evaluation of small coronary arteries. The short examination time and minimal aftercare make MSCT more practical than conventional coronary angiography. MSCT also plays an important role in delineating the anatomy of the coronary artery before surgical intervention. Different surgical approaches are used for the reimplantation of the anomalous LCA depending on the various origin sites of the anomalous artery (inner wall, lateral wall, and posterior wall of the pulmonary trunk).7 Additionally, cardiac CT may be used as long-term follow-up imaging tool.
The main drawbacks of MSCT angiography are its relatively high radiation dose as well as its inability to evaluate the flow in the coronary arteries.2,5,8 MRI is a non-ionizing imaging modality that can be used to diagnose ALCAPA. However, its long examination time and low spatial resolution along with the lack of MRI facilities in some institutes are the main disadvantages compared to MSCT.2, 5, 9
Surgical intervention is the definitive treatment for ALCAPA. There are several surgical options.10 These include: a) a bypass graft combined by ligation of the anomalous artery; b) the Takeuchi-procedure in which a tunnel is created between the aortopulmonary window and the coronary artery; or c) reimplantation of the anomalous artery into the aortic sinus. Recent studies have shown that the estimated long-term survival at 20 years is 94.8%.11 Our patient had a Takeuchi-procedure; however, a follow-up coronary angiography scan showed occlusion. A second operation was performed, and the left main coronary artery was implanted in the ascending aorta.
Conclusion
ALCAPA is a rare condition which carries a high mortality rate if left untreated. Early and accurate diagnosis can be made using MSCT. Unlike conventional coronary angiography, MSCT is a non-invasive diagnostic tool and can be used where MRI facilities are lacking. The aim of this case report is to increase awareness of this condition and to highlight the need for early recognition of coronary anomalies particularly when infants present with clinical symptoms suggestive of heart failure or ischemia.
Disclosure
The authors declared no conflicts of interest.
references
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