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Pneumothorax: Clinical practice

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Pneumothorax: Clinical practice

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A 22-year-old man comes to the emergency department because of left-sided chest pain for three days. He felt a small “pull” in his upper left chest while walking to work. He denies any trauma. The pain has persisted, and is worse when he takes a deep breath or coughs. He is more short of breath than usual when climbing stairs. His past medical history is noncontributory, he has smoked a pack of cigarettes a day for the last two years. His vital signs show no abnormalities. He is tall and thin in appearance. Pulmonary auscultation shows breath sounds are reduced on the left side in the upper zone. Cardiovascular examination is noncontributory. Chest X-ray shows a small left sided pneumothorax. At the level of the hilum, 1.5 cm (0.6 in) of space lies between the chest wall and the pleura. Which of the following is the most appropriate next step in management?

Transcript

Content Reviewers:

Rishi Desai, MD, MPH

The pleura is the blanket that covers our lungs, and it’s made of two layers, the inner visceral pleura and the outer parietal pleura.

In between those two layers is a space. If air gets in that space, it’s called a pneumothorax.

Pneumothoraces can be classified into two broad categories: spontaneous or traumatic.

Spontaneous pneumothorax is further subclassified into primary and secondary.

A primary spontaneous pneumothorax occurs without a triggering event in an otherwise normal lung.

Most commonly, an individual at risk of primary spontaneous pneumothorax is a tall, thin, young male presenting with symptoms that started at rest.

This is because there are more mechanical shear forces at the apex of the lung, that can make the pleura rupture, especially after for some reason holding their breath like diving or inhaling and holding a recreational drug or medication in their lungs.

Another risk factor for a primary pneumothorax is smoking cigarettes and systemic syndromes like Marfan disease.

Then there’s a secondary pneumothorax; that is a spontaneous pneumothorax that occurs in a lung with pre-existing lung disease, like chronic obstructive pulmonary disease, or COPD, cystic fibrosis, or lung cancer.

In COPD, destruction of the alveolar sacs leads to formation of large alveolar blebs, which are small balloons that can eventually rupture, leaking air into the pleural space.

Traumatic pneumothorax occurs secondary to injury of the pleura after blunt or penetrating trauma to the chest like a stab wound, or as a complication of a procedure, such as a lung biopsy, central line insertion or mechanical ventilation.

In terms of symptoms, a small pneumothorax may cause no symptoms, but typically a pneumothorax causes a sudden-onset of shortness of breath and pleuritic chest pain; which is a sharp knife-like pain that worsens with inspiration due to irritation of the parietal pleura by the expanding lung. It also typically causes tachycardia, tachypnea, or hypoxemia.

Examination of the chest reveals decreased air entry or absent breath sounds on auscultation and hyperresonance on percussion of the affected area.

The diagnosis of a pneumothorax is confirmed by a chest x-ray, which shows a visible “white” visceral pleural line that’s separated from the parietal pleura by pitch “black” gas.

It’s important to distinguish the pleural line from the border of the scapula on a chest X-ray.

Additionally, the normal pulmonary vessel markings that branch from the hilum of the lung suddenly disappear beyond that visceral line.

This is why we obtain these films during expiration, because when the individual breathes out air from their lungs, the lungs will shrink a bit, making it easier to detect even small pneumothoraces.

Additional findings include flattening of the normally convex hemidiaphragm, and deepening of the costophrenic angle, which is the angle between the pleura covering the ribs and the pleura covering the diaphragm.

In secondary spontaneous pneumothorax, other findings of underlying lung disease will be present, such as hyperinflation in COPD.

Now initially, all patients with a primary spontaneous pneumothorax are put on supplemental oxygen, even if they’re not hypoxemic.

The idea behind this is that the air in both the alveoli and the pneumothorax is mostly composed of nitrogen - about 78%.

So by giving oxygen, we make the alveolar air mostly contain oxygen with very little nitrogen. This increases the nitrogen gradient between the pleural space and alveoli, so nitrogen in the pneumothorax will just diffuse from the pleural space to the alveoli, allowing the individual to essentially breathe most of the air in the pneumothorax right out.

Alright, now the subsequent steps of management depend on the size of the pneumothorax on chest x-ray, and the severity of the symptoms.

The size of a pneumothorax is the distance between the visceral and parietal pleura at the level of the hilum.

Okay, if the pneumothorax is less than 2 centimeters, and the individual has few symptoms, then they can be safely discharged, with a follow-up x-ray 1 to 2 weeks later to make sure the pneumothorax is gone.

On the other hand, if the pneumothorax is more than 2 centimeters or the patient is complaining of severe symptoms, then a needle thoracentesis is performed. This involves inserting a catheter into the chest to aspirate the air in the pleural space.

Now, it’s important to insert the catheter above the rib, to avoid damage to the intercostal vein, artery, and nerve, or the “van” running below the rib.

If pleural aspiration fails, then a thoracostomy or chest tube is inserted.

Alright, moving on to secondary spontaneous pneumothorax. Similar to primary spontaneous pneumothorax, supplemental oxygen is given to all patients, and subsequent management depends on the size of the pneumothorax and the severity of the symptoms.

But the difference is that the thresholds are lower, because this individual already has underlying lung disease.