Imaging in Congenital Lobar Emphysema

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Congenital lobar emphysema (CLE) is a potentially reversible though possibly life-threatening cause of respiratory distress in the neonate. Congenital lobar emphysema is most often detected in neonates or identified during in utero ultrasound. Anomalies are infrequent and usually present at birth. Lobar distention can be visible during in utero ultrasound as an overinflated, fluid-filled lobe; in less severe cases, the diagnosis is made in infancy or childhood. ^{[1, 2, 3, 4, 5]}  CLE rarely occurs in adults. ^{[6, 7]}

The clinical diagnosis of CLE can be challenging, and chest radiography is often diagnostic. Key findings include hyperlucency on the affected side with ipsilateral atelectasis, widened rib spaces, and diaphragmatic flattening. The mediastinum may be displaced away from the affected side and may herniate into the contralateral hemithorax. Pneumonia is a common misdiagnosis for CLE. ^[8]

See the images below of congenital lobar emphysema.

CLE almost always involves one lobe, with rates of occurrence as follows:

Left upper lobe – 41%

Right middle lobe – 34%

Right upper lobe – 21%

Congenital lobar emphysema has 2 forms:

Hypoalveolar (fewer than expected number of alveoli)

Polyalveolar (greater than expected number of alveoli)

The thorax on the involved side is hyperresonant with decreased or absent breath sounds and transillumination. Progressive respiratory distress from birth reflects the degree of emphysema; symptoms are at their worst in the first month. Occasionally, patients present in later childhood or adulthood.

Congenital lobar emphysema (ie, congenital lesion) should be differentiated from Swyer-James syndrome (ie, acquired pulmonary abnormality secondary to infection).

In Swyer-James syndrome, infection results in the following:

Vascular compromise

“Pruning” of peripheral pulmonary vasculature

Small but hyperlucent lung (as the opposite, normal lung grows, the involved lung does not grow and appears more radiolucent)

Swyer-James, like CLE, appears as hyperlucency localized to one or several lobes of the lung with the entire affected lung having markedly reduced parenchyma and vascular density. The key distinguishing factors that differentiate Swyer-James from CLE is an acquired form of segmental emphysema that arises as a sequela of bronchopulmonary infection in childhood resulting in bronchiolitis obliterans and distal airspace destruction. ^[7]

Radiography of the chest in anteroposterior and lateral projections identifies the involved lobe, the degree of involvement, and the effect on surrounding structures. ^[9] If a decubitus position radiograph is obtained, the involved lung does not collapse.

See the radiographic images of congenital lobar emphysema below.

A large, hyperlucent lung with attenuated but defined vascularity is observed. Compression of the remaining lung on that side, flattened hemidiaphragm, and widened intercostal spaces also are seen. An involved lung is seen herniated across the anterior midline. On a lateral view, the heart is displaced posteriorly with retrosternal lucency representing an anteriorly herniated lobe.

The lobe is unchanged during exhalation or after placing the patient in the ipsilateral decubitus position. Chest fluoroscopy shows fixed lung and hemidiaphragm on the involved side. The radiographic appearance is characteristic of congenital lobar emphysema (CLE) and usually is not suggestive of other diagnoses.

Be certain a mucous plug is not present, which can obstruct a bronchus, creating a “check valve” phenomenon that partially obstructs an airway.

Similarly, extrinsic masses, such as a congenitally large pulmonary artery (as in the absence of the pulmonary valve), can create emphysema from partial bronchial obstruction.

Usually, with careful image analysis, cystic lung disease does not mimic CLE; however, hypoplasia or agenesis of the contralateral lung may result in marked compensatory hyperexpansion of the lung, which can closely resemble CLE.

Computed tomography scanning can provide details about the involved lobe and its vascularity, as well as information about the remaining lung.

See the CT images of congenital lobar emphysema below.

CT scan shows a hyperlucent, hyperexpanded lobe (attenuated but intact pattern of organized vascularity) with midline substernal lobar herniation and compression of the remaining lung. ^[10] Usually, the mediastinum is significantly shifted away from the side of the abnormal lobe.

MRI can be used as an adjunct modality to evaluate vascular supply and distribution to the involved lobe but is not routinely employed. In congenital lobar emphysema, the abnormal lobe usually has a normal vascular supply.

In utero sonography may show a large, fluid-filled lobe; mediastinal herniation can be seen. A prenatal diagnosis of congenital lobar emphysema is not made as frequently as in other intrapleural fetal masses.

Variants include other causes of uneven lung expansion. In the neonate, a large pulmonary artery or mediastinal mass can compress the bronchus with overinflation of a lobe. Even the presence of a bronchial mucous plug can result in overinflation of a lobe. Infants with bronchopulmonary dysplasia often have uneven inflation of the pulmonary lobes related to bronchial cellular plugs or bronchial fibrosis, rendering the bronchus noncompliant.

Ventilation-perfusion scanning demonstrates characteristic results (see the image below).

Ventilation is initially diminished in the affected lobe, but ultimately, isotope retention is seen because of delayed emptying of alveoli in the emphysematous lobe. The markedly attenuated vascularity of the involved lobe results in decreased perfusion of the enlarged lobe.

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Beverly P Wood, MD, MSEd, PhD Professor Emerita of Radiology and Pediatrics, Division of Medical Education, Keck School of Medicine, University of Southern California; Professor of Radiology, Loma Linda University School of Medicine

Beverly P Wood, MD, MSEd, PhD is a member of the following medical societies: American Academy of Pediatrics, Association of University Radiologists, American Association for Women Radiologists, American College of Radiology, American Institute of Ultrasound in Medicine, American Medical Association, American Roentgen Ray Society, Radiological Society of North America, Society for Pediatric Radiology

Disclosure: Nothing to disclose.

Bernard D Coombs, MB, ChB, PhD Consulting Staff, Department of Specialist Rehabilitation Services, Hutt Valley District Health Board, New Zealand

Disclosure: Nothing to disclose.

John Karani, MBBS, FRCR Clinical Director of Radiology and Consultant Radiologist, Department of Radiology, King’s College Hospital, UK

John Karani, MBBS, FRCR is a member of the following medical societies: British Institute of Radiology, Radiological Society of North America, Royal College of Radiologists, Cardiovascular and Interventional Radiological Society of Europe, European Society of Radiology, European Society of Gastrointestinal and Abdominal Radiology, British Society of Interventional Radiology

Disclosure: Nothing to disclose.

S Bruce Greenberg, MD Professor of Radiology, University of Arkansas for Medical Sciences; Consulting Staff, Department of Radiology, Arkansas Children’s Hospital

S Bruce Greenberg, MD is a member of the following medical societies: Radiological Society of North America

Disclosure: Nothing to disclose.

Imaging in Congenital Lobar Emphysema

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