CASE 11678 Published on 19.05.2014

Incidental finding of pulmonary sequestration

Section

Chest imaging

Case Type

Clinical Cases

Authors

Ankur Srivastava¹, Behnam Moharami²

¹Resident Medical Officer
²Radiology Registrar
Wollongong Hospital,
Wollongong, NSW, Australia

Patient

45 years, male

Categories

Area of Interest Lung ; Imaging Technique CT-Angiography

Procedure Contrast agent-intravenous ; Special Focus Embolism / Thrombosis ;

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Clinical History

A 45-year-old man presented with shortness of breath and chest pain. A CT Pulmonary Angiogram (CT PA) was ordered for investigation of a pulmonary embolus.

Imaging Findings

The CT PA showed a hypodense area in the posterobasal segment of the left lower lobe. This area appears to mimic a bullous lesion in emphysema, however, with vessels extending from it (Fig. 1).

An abnormal arterial branch originating from the descending thoracic aorta was also evident (Fig. 2). The venous drainage was not appreciable in any of the images. It was not possible to differentiate whether the lesion was intralobar or extralobar.

Discussion

Pulmonary sequestration is a segment of non-functioning lung parenchyma which has no connection to the tracheobronchial tree and receives its blood supply from an aberrant systemic artery. Thus, there is no ventilation /perfusion in the sequestrated segment [1, 3].

Traditionally, pulmonary sequestrations are divided into intralobar sequestrations (ILS) and extralobar sequestrations (ELS). The two types of sequestrations are similar in their relationship to the bronchial tree and arterial supply but differ in their venous drainage system [2, 4].

Pulmonary sequestrations are rare, accounting for approximately 0.15-6.4% of all congenital pulmonary malformations [1, 2, 5].

ILS account for approximately 75-85% of all sequestrations and are characterized by development within the visceral pleura, an aberrant systemic artery (usually a branch of the aorta) and venous drainage by the pulmonary veins but can occur through the azygous / hemiazygous vein, portal vein or IVC [3, 5]. ILS usually present in older age with recurrent infections. Infections can occur due to anomalous connections with bronchi, lung parenchyma or the GIT, which can allow bacteria to enter the sequestration [1, 2, 4].

ELS account for approximately 15-25% of all sequestrations and are characterized by a separate pleural segment without any lung parenchyma, a small aberrant systemic artery and drainage through the systemic veins or directly in the right atrium [2, 5, 6]. ELS usually present in the neonatal period and can be supradiaphragmatic (90%) or infra-diaphragmatic (10%) [5, 6].

On prenatal diagnosis, pulmonary sequestrations are diagnosed on ultrasound as echo dense homogeneous masses. MRI is the best tool in diagnosis of sequestrations and for differential diagnosis amongst other entities, such as congenital diaphragmatic hernia and congenital pulmonary airway malformations [5].

Postnatal diagnosis of pulmonary sequestrations is initially shown on chest radiographs and clarified best by contrast enhanced helical CT. MRI is particularly helpful in delineating complex lesions and congenital diaphragmatic hernias. Ultrasound may also be very useful in accurate and prompt diagnosis during the neonatal period [6, 7].

Surgical treatment is conventionally divided into symptomatic and asymptomatic patients. Treatment is considered only for those who are symptomatic such as neonates with ARDS or can be elective for older patients with recurrent infections [8].

Video-assisted thoracoscopic surgery (VATS) can be used to resect pulmonary sequestrations as long as accurate delineation of the aberrant blood supply can be achieved [8]. 3D CT and MRI are often used prior to surgery to map out the lesion and its blood supply [7, 8].

Differential Diagnosis List

Pulmonary sequestration

Congenital lobar emphysema

Congenital pulmonary airway malformation

Bronchogenic cyst

Pulmonary arteriovenous malformation

Final Diagnosis

Pulmonary sequestration

References

[1] Oermann CM (2013) Bronchopulmonary Sequestration. Uptodate Article, Waltham, MA (Accessed on December 12, 2013.) http://www.uptodate.com/contents/bronchopulmonary-sequestration?source=search_result&search=bronchopulmonary+sequestration&selectedTitle=1~20

[2] Shanti CS, Klein MD (2008) Cystic Lung Disease. Seminars in Paediatric Surgery 17:2-8 (PMID: 18158136)

[3] Thilenius OG, Ruschhaupt DG, Replogle RL, Bharati S, Herman T & Arcilla RA (1983) Spectrum of pulmonary sequestration: association with anomalous pulmonary venous drainage in infants. Paediatric Radiology 4:97-103 (PMID: 6878079)

[4] Gupta S, Kim S. (2013) Pulmonary Sequestration. The New England Journal of Medicine 368(5):e6 (PMID: 23363525)

[5] Dhingsa R1, Coakley FV, Albanese CT, Filly RA, Goldstein R (2003) Prenatal Sonography and MR Imaging of Pulmonary Sequestration. American Journal of Roentgenology 180(2):433-7 (PMID: 12540448)

[6] Suda T, Hasegawa S, Negi K & Hattori Y (2006) Video Assisted Thoracoscopic Surgery for Extralobar Pulmonary Sequestration. Journal of Thoracic and Cardiovascular Surgery 132:707-708 (PMID: 16935142)

[7] Hang JD, Guo QY, Chen CX & Chen LY (1996) Imaging Approach to the Diagnosis of Pulmonary Sequestration. ACTA Radiologica 37:883-888 (PMID: 8995459)

[8] Louie H, Martin S & Mulder D (1993) Pulmonary Sequestration – 17 Year Experience at UCLA. The American Journal of Surgery 59:801-805 (PMID: 8256932)

Case information

URL:	https://www.eurorad.org/case/11678
DOI:	10.1594/EURORAD/CASE.11678
ISSN:	1563-4086

Figure 1

Coronal contrast-enhanced CT of the chest in Lung window

Sequestration in left lower lobe (red arrow). The sequestration shows emphysematous change. There is minor dependent atelectasis bibasally, otherwise lungs are clear.

Figure 2

Axial contrast enhanced CT examination in Mediastinal window

Systemic arterial supply of the sequestrated segment (red arrow). Visualised part of the upper abdomen are within normal limits.

Close up of the systemic artery supplying the sequestrated segment (red arrow)

Sequestrated segment in the mediastinal window (red arrow). The sequestration is only visualized by the anomalous arterial supply. The venous drainage was not appreciable. The visualized parts of the abdomen are within normal limits.

Figure 3

Axial image of the lesion in Lung window

Sequestration better visualised in the Lung window (red arrow). There is mild bibasal atelectasis. There was no evidence of pulmonary artery filling defects in the study.