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(Circulation. 2008;117:2403-2406.)
© 2008 American Heart Association, Inc.

Images in Cardiovascular Medicine

Pulmonary Artery Sling in an Asymptomatic 15-Year-Old Boy

R. Thomas Collins, II, MD; Paul M. Weinberg, MD; Stanford Ewing, MD; Mark Fogel, MD

From the Divisions of Cardiology (R.T.C., P.M.W., S.E., M.F.), Pathology (P.M.W.), and Radiology (P.M.W., M.F.), Children’s Hospital of Philadelphia, and the University of Pennsylvania School of Medicine (R.T.C., P.M.W., S.E., M.F.), Philadelphia, Pa.

Correspondence to R. Thomas Collins II, MD, The Cardiac Center, 2nd Floor, Main Building, 34th Street and Civic Center Blvd, Philadelphia, PA 19104. E-mail collinsr{at}email.chop.edu

A 15-year-old boy was evaluated for a 3-month history of sharp pain in the upper left chest. Notable findings on the physical examination included a low-frequency long systolic ejection murmur in the left infraclavicular region. The results of a 15-lead ECG were normal (Figure 1). A complete transthoracic echocardiogram was performed and the result was reported as normal (Figure 2). Because of the unusual character of the murmur, the referring cardiologist sent the patient for cardiac magnetic resonance imaging.

View larger version (71K): [in this window] [in a new window]   Figure 1. A 15-lead ECG demonstrates normal sinus rhythm with sinus arrhythmia. The intervals and morphologies are normal, with no evidence of atrial or ventricular enlargement.

View larger version (34K): [in this window] [in a new window]   Figure 2. Parasternal short-axis echocardiogram with color demonstrates the LPA arising from the right and coursing leftward.

A complete cardiac magnetic resonance study was performed that included gadolinium-contrasted images. On axial and 3D reconstruction gadolinium-enhanced images, the left pulmonary artery (LPA) was seen arising from the superior aspect of the right pulmonary artery (RPA) (Figures 3 and 4). The LPA was mildly compressed and coursed posterior to the trachea at the level of the carina. No significant compression of the main stem, right, or left bronchi were present (Figures 5 and 6). Pulmonary blood flow imaging showed mild preferential flow to the right lung, with 69% to the right lung and 31% to the left lung (Figures 7 and 8). Pulmonary arterial velocity mapping demonstrated laminar flow to the RPA (Figure 9) and increased velocity and narrowing of the LPA (Figure 10).

View larger version (106K): [in this window] [in a new window]   Figure 3. T1-weighted coronal magnetic resonance image demonstrates the LPA arising from the superior aspect of the RPA. There is tenting of the LPA near the origin of the RPA.

View larger version (94K): [in this window] [in a new window]   Figure 4. A 3D reconstruction of gadolinium-enhanced axial magnetic resonance images demonstrates the LPA arising from the posterosuperior portion of the RPA and then coursing leftward.

View larger version (97K): [in this window] [in a new window]   Figure 5. T1-weighted cross-sectional axial magnetic resonance imaging demonstrates the LPA arising from the right and coursing posterior to the bronchus. The LPA is narrowed at the origin and midpoint from the impression of the right and left bronchi.

View larger version (40K): [in this window] [in a new window]   Figure 6. A 3D reconstruction of gadolinium-enhanced axial magnetic resonance images demonstrates the right ventricular outflow tract and RPA, with the narrowed LPA arising from the RPA.

View larger version (25K): [in this window] [in a new window]   Figure 7. Volume-flow curve of the RPA demonstrates a normal flow pattern, with a peak of 226 mL/s. The total volume to the RPA is 54.3 mL/s.

View larger version (25K): [in this window] [in a new window]   Figure 8. Volume-flow curve of the LPA demonstrates a normal flow pattern, with a peak of 81 mL/s. The total volume to the LPA is 33.1 mL/s.

View larger version (88K): [in this window] [in a new window]   Figure 9. Velocity mapping imaging of the RPA demonstrates laminar flow.

View larger version (87K): [in this window] [in a new window]   Figure 10. Velocity mapping imaging of the LPA demonstrates an increased signal intensity in the superior portion of the LPA, suggesting increased velocity and narrowing.

Anomalous origin of the LPA from the RPA is a rare congenital anomaly first described on autopsy by Glaevecke and Doehle in 1897.¹ The term vascular sling was first used to describe the condition by Contro et al² in 1958 to distinguish it from a vascular ring. In pulmonary artery slings, the LPA typically arises anomalously from the posterior aspect of the RPA, passes over the right mainstem bronchus near its origin, and courses leftward between the trachea and esophagus to the left pulmonary hilum.

Until recently, no evidence of a genetic link to the presence of pulmonary artery slings has been documented. Mowat-Wilson syndrome is a multiple congenital anomaly/mental retardation syndrome associated with pulmonary artery sling.^3,4 Haploinsufficiency of a gene termed ZFHX1B (also known as SIP1) on chromosome 2 is responsible for this condition, and clinical genetic testing for Mowat-Wilson syndrome recently became available.³

The embryology of the pulmonary artery sling has not been completely delineated. Varying theories as to the possible developmental origins exist. Although some authors have proposed that the pulmonary artery sling possibly represents failure of LPA development with a resultant branch forming from the RPA to the left hilum,⁵ the explanation by Sade et al⁶ seems the most complete and probable. In that description, a pulmonary artery sling arises when there is caudal capillary connection of the left post-branchial plexus with the RPA, resulting in the LPA coursing posterior to the tracheobronchial tree.

The prevalence of pulmonary artery sling is purely conjectural, as there is no way to know the true number of asymptomatic cases that exist. In the known cases, pulmonary artery sling has been shown to have a male to female ratio of 3:2. The vast majority of patients have symptoms (90%), and of those, 90% present the first year of life.⁷ Asymptomatic pulmonary artery slings are typically diagnosed incidentally in adolescence or adulthood.⁸ Respiratory symptoms are most common and are usually characterized by wheezing and stridor with a prolonged expiratory phase. Associated anomalies of the tracheobronchial tree frequently (51%) include either abnormal branching, abnormal distribution of cartilage in the walls of the trachea and major bronchi including complete cartilaginous rings, or intrinsic stenosis.⁷ Tracheobronchial tree obstruction is absent in adults diagnosed with pulmonary artery sling, though it can be associated with dysphagia.⁸ Major cardiovascular anomalies are present in up to 30% of patients with a pulmonary artery sling.⁷

The prognosis of pulmonary artery sling is variable depending on presentation. Surgery is the standard of care for all symptomatic patients, as medically managed patients have a death rate of 90%.⁹ Spontaneous improvement in symptomatic patients occurs, though uncommonly.⁸ Surgical morbidity and mortality rates in symptomatic patients have improved markedly since the first successful repair by Willis Potts in 1953.¹⁰ Recently, Fiore et al¹¹ have demonstrated a 79% survival rate in patients undergoing correction via transection of the LPA and reimplantation anterior to the trachea, as advocated by Backer et al.¹² In contrast to symptomatic patients, the prognosis for asymptomatic patients is excellent, and surgical intervention is not indicated.

	Disclosures

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Dr Fogel has been a consultant for and received honoraria from Siemens. The remaining authors report no conflicts.

	References

Top Disclosures References

 
1. Glaevecke H, Doehle W. Ueber eine seltene angeborene anomale der pulmonalarterie. Munch Med Wochenschr. 1897; 44: 950–953.

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3. Adam MP, Schelley S, Gallagher R, Brady AN, Barr K, Blumberg B, Shieh JTC, Graham J, Slavotinek A, Martin M, Keppler-Noreuil K, Storm AL, Hudgins L. Clinical features and management issues in Mowat–Wilson syndrome. Am J Med Genet A. 2006; 140: 2730–2741.[Medline] [Order article via Infotrieve]

4. Strenge S, Heinritz W, Zweier C, Rauch A, Rolle U, Merkenschlager A, Froster UG. Pulmonary artery sling and congenital tracheal stenosis in another patient with Mowat-Wilson syndrome. Am J Med Genet A. 2007; 143: 1528–1530.

5. Jue KL, Raghib G, Amplatz K, Adams P, Edwards JE. Anomalous origin of the left pulmonary artery from the right pulmonary artery: report of 2 cases and review of the literature. Am J Roentgenol. 1965; 95: 598–610.[Abstract/Free Full Text]

6. Sade RM, Rosenthal A, Fellows K, Castaneda AR. Pulmonary artery sling. J Thorac Cardiovasc Surg. 1975; 69: 333–346.[Abstract]

7. Gikonyo BM, Jue KL, Edwards JE. Pulmonary vascular sling: report of seven cases and review of the literature. Pediatr Cardiol. 1989; 10: 81–89.[CrossRef][Medline] [Order article via Infotrieve]

8. Dupuis C, Vaksmann G, Pernot C, Gerard R, Martinez J, Van Egmon H. Asymptomatic form of left pulmonary artery sling. Am J Cardiol. 1988; 61: 177–181.[CrossRef][Medline] [Order article via Infotrieve]

9. Marmon LM, Bye MR, Haas JM, Balsara RK, Dunn JM. Vascular rings and slings: long-term follow-up of pulmonary function. J Pediatr Surg. 1984; 19: 683–692.[Medline] [Order article via Infotrieve]

10. Potts WJ, Holinger PH, Rosenblum AH. Anomalous left pulmonary artery causing obstruction to right main bronchs: report of a case. JAMA. 1954; 155: 1409–1411.[Medline] [Order article via Infotrieve]

11. Fiore AC, Brown JW, Weber TR, Turrentine MW. Surgical treatment of pulmonary artery sling and tracheal stenosis. Ann Thorac Surg. 2005; 79: 38–46.[Abstract/Free Full Text]

12. Backer CL, Mavroudis C, Dunham ME, Holinger LD. Pulmonary artery sling: results with median sternotomy, cardiopulmonary bypass, and reimplantation. Ann Thorac Surg. 1999; 67: 1738–1745.[Abstract/Free Full Text]

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