Lungeninfarkt

Pulmonary infarction is one of the key complications of pulmonary embolism (PE).

Epidemiology

Pulmonary infarction occurs in the minority (10-15%) of patients with PE . Although in a necropsy study of those with lethal PE, 60% of cases developed infarction .

Until recently it was felt that pulmonary infarction was more common in older patients with comorbidities, especially coexisting cardiovascular disease and underlying malignancy, but rare in the young and otherwise healthy.

However recent work has questioned the orthodox thinking with evidence that greater patient stature, decreased age and smoking of cigarettes are independent risk factors for developing pulmonary infarction . Indeed a recent study showed that heart failure, malignancy and pneumonia were not risk factors for the development of pulmonary infarction .

Moreover, the greater the embolic burden, the higher the likelihood of developing lung infarction .

Many studies have found that infarction is more common in the right lung, however the reason for this is not known .

Clinical presentation

Pleuritic chest pain, on its own, or with sudden breathlessness, are the most frequent presenting symptoms. Hemoptysis is significantly less common (<20% radiologically-diagnosed infarctions in a 2015 study of 335 patients) .

Pathology

The lungs are not commonly infarcted, as they are supplied by two vascular systems with many anastomoses between them:

  • pulmonary vascular system
  • bronchial vascular system
    • consists of bronchial arteries that are responsible for the majority of oxygen supply to the lung parenchyma
    • form a broad network with pre- and postcapillary anastomoses to the pulmonary system
    • bronchial arteries have the ability to increase their flow by up to 300% 

Thus, an occlusive pulmonary vascular lesion does not usually result in infarction because of alternative perfusion via collateral pathway.

In addition the lung also receives oxygen from the inspired air itself .

Following an occlusive pulmonary embolus, the bronchial arteries are recruited as the primary source of perfusion for the pulmonary capillary network. The higher pressure of the bronchial arteries, in combination with locally increased vascular permeability and capillary endothelial injury, is thought to result in local pulmonary capillary hemorrhage.

Usually these parenchymal findings are transient; the blood cells extravasated into the alveolar and bronchial cavities are resorbed, and the tissue regenerates. However, the injury may progress to infarction in certain circumstances:

  • reduced flow in the bronchial arteries (e.g. shock, hypotension, use of vasodilators)
  • increased pulmonary venous pressure (e.g. elevated pulmonary venous pressure, interstitial edema)

In these case, visceral perfusion is catastrophically compromised and the insult progresses to infarction. The necrotic parenchyma will be replaced by fibrous tissue and leads to a collagenous plate-like mass with pleural retraction .

The lungs are most at risk for infarction when distal vessels ≤3 mm in diameter are occluded, as opposed to central pulmonary artery occlusion . This is because there is more likely to be sufficient collateral circulation in a central obstruction.

Radiographic features

In the acute/subacute setting, it may be difficult to differentiate ischemic pulmonary hemorrhage from actual lung infarction. The evolution of findings over time is helpful, as hemorrhage without infarction usually resolves within a week, while infarction evolves over months and results in parenchymal scarring.

It is important to note that infarction invariably occurs in a subpleural location, whilst malignancy or pneumonia can occur centrally .

Plain radiograph

Typical chest radiographic findings include :

  • wedge-shaped (less often rounded) juxtapleural opacification (Hampton hump) without air bronchograms
  • more often in the lower lobes
  • in the case of pulmonary hemorrhage without infarction, the opacities resolve, usually within a week, by maintaining their shape (the so called "melting sign")
  • in the case of infarction, it requires months to heal and may leave a linear scar
CT

Peripheral wedge-shaped pulmonary consolidations are a classic manifestation of pulmonary infarct, particularly in the setting of a PE.

Recognized features include :

  • wedge-shaped (less often rounded) juxtapleural opacification (Hampton hump) without air bronchograms
  • consolidation with internal air lucencies, "bubbly consolidation"
    • represents non-infarcted aerated lung parenchyma co-existing side-by-side with infarcted lung in the same lobule
  • convex borders with a halo sign
    • secondary to adjacent hemorrhage
  • decreased in normal lung enhancement
    • may be scattered areas of low attenuation within the lesion (necrosis)
    • sometimes appears as hyperenhancement of the infarct perimeter
  • cavitation: may be seen in septic embolism and infection of a bland infarct (cavitatory pulmonary infarction)
PET-CT

A rim sign has been described on FDG-PET of pulmonary infarction, with mild peripheral tracer uptake, and an absence of uptake centrally .

Treatment and prognosis

Treating the underlying pulmonary embolism by providing cardiopulmonary support is the initial treatment. Anticoagulation is commenced in patients without risk of active bleeding. If the emboli are massive, thrombolysis is also an option. In some cases, embolectomy, and placement of vena cava filters are required.

Differential diagnosis

For peripheral wedge-shaped lesions on CT, consider:

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