apikaler Pneumothorax
apikaler Pneumothorax
Pneumothorax Radiopaedia • CC-by-nc-sa 3.0 • de
Pneumothorax, sometimes abbreviated to PTX, (plural: pneumothoraces) refers to the presence of gas (often air) in the pleural space. When this collection of gas is constantly enlarging with resulting compression of mediastinal structures, it can be life-threatening and is known as a tension pneumothorax (if no tension is present it is a simple pneumothorax). An occult pneumothorax refers to one missed on initial imaging, usually a supine/semierect chest radiograph .
For those pneumothoraces occurring in neonates see the article on neonatal pneumothorax.
Epidemiology
There are many causes of pneumothorax which makes it impossible to generalize the epidemiology. However, primary spontaneous pneumothoraces occur in younger patients (typically less than 35 years of age) whereas secondary spontaneous pneumothoraces occur in older patients (typically over 45 years of age) .
Clinical presentation
Presentation is variable and may range from no symptoms to severe dyspnea with tachycardia and hypotension. In patients who have a tension pneumothorax, presentation may be with distended neck veins and tracheal deviation, cardiac arrest and in the most severe cases, death.
It is interesting to note that some generalizations can be made in regards to the clinical presentation in primary versus secondary spontaneous pneumothoraces:
- primary spontaneous: pleuritic chest pain usually present, dyspnea mild or moderate
- secondary spontaneous: pleuritic chest pain often absent, dyspnea usually severe
Pathology
It is useful to divide pneumothoraces into three categories :
- primary spontaneous: no underlying lung disease
- secondary spontaneous: underlying lung disease is present
- iatrogenic/traumatic
Primary spontaneous
A primary spontaneous pneumothorax is one which occurs in a patient with no known underlying lung disease. Tall and thin people are more likely to develop a primary spontaneous pneumothorax. There may be a familial component, and there are well-known associations :
Secondary spontaneous
When the underlying lung is abnormal, a pneumothorax is referred to as secondary spontaneous. There are many pulmonary diseases which predispose to pneumothorax including:
- cystic lung disease
- bullae, blebs
- emphysema, asthma
- pneumocystis jiroveci pneumonia (PJP)
- honeycombing: end-stage interstitial lung disease
- lymphangiomyomatosis (LAM)
- Langerhans cell histiocytosis (LCH)
- due to apical lung changes from ankylosing spondylitis
- cystic fibrosis
- parenchymal necrosis
- lung abscess, necrotic pneumonia, septic emboli, fungal disease, tuberculosis
- cavitating neoplasm, metastatic osteogenic sarcoma
- radiation necrosis
- pulmonary infarction
- other
- catamenial pneumothorax : recurrent spontaneous pneumothorax during menstruation, associated with endometriosis of pleura
- rarely pleuroparenchymal fibroelastosis
Iatrogenic/traumatic
Iatrogenic/traumatic causes include :
- iatrogenic:
- percutaneous biopsy
- barotrauma (e.g. divers), ventilator
- radiofrequency (RF) ablation of lung mass
- endoscopic perforation of the esophagus
- central venous catheter insertion, nasogastric tube placement
- trauma:
Others
- pneumoperitoneum with passage through congenital/acquired diaphragmatic defects
- buffalo pneumothorax is the presence of bilateral pneumothoraces due to abnormal communication between the pleural spaces
Unusual forms
- loculated pneumothorax
- interlobar pneumothorax / interfissural pneumothorax - form of loculated pneumothorax confined to the fissures
Radiographic features
Plain radiograph
A pneumothorax is, when looked for, usually easily appreciated on erect chest radiographs. Typically they demonstrate:
- visible visceral pleural edge is seen as a very thin, sharp white line
- no lung markings are seen peripheral to this line
- peripheral space is radiolucent compared to the adjacent lung
- lung may completely collapse
- mediastinum should not shift away from the pneumothorax unless a tension pneumothorax is present (discussed separately)
- subcutaneous emphysema and pneumomediastinum may also be present
Described methods for estimating the percentage volume of pneumothorax from an erect PA radiograph include:
- Collins method
- % = 4.2 + 4.7 (A + B + C)
- A is the maximum apical interpleural distance
- B is the interpleural distance at midpoint of upper half of lung
- C is the interpleural distance at midpoint of lower half of lung
- Rhea method
- Light index
- % of pneumothorax = 100−(DL/DH×100)
- DL is the diameter of the collapsed lung
- DH is the diameter of the hemithorax on the collapsed side
In cases where a pneumothorax is not clearly present on standard frontal chest radiography a number of techniques can be employed:
- lateral decubitus radiograph:
- should be done with the suspected side up
- the lung will then 'fall' away from the chest wall
- expiratory chest radiograph:
- lung becomes smaller and denser
- pneumothorax remains the same size and is thus more conspicuous: although some authors suggest that there is no difference in detection rate
- CT scan
When imaged supine detection can be difficult: see pneumothorax in a supine patient, and pneumothorax is one cause of a transradiant hemithorax.
Ultrasound
M-mode can be used to determine movement of the lung within the rib-interspace. Small pneumothoraces are best appreciated anteriorly in the supine position (gas rises) whereas large pneumothoraces are appreciated laterally in the mid-axillary line.
See: ultrasound for pneumothorax.
CT
Provided lung windows are examined, a pneumothorax is very easily identified on CT, and should pose essentially no diagnostic difficulty. When bullous disease is present, a loculated pneumothorax may appear similar.
Treatment and prognosis
Treatment depends on a number of factors:
- size of the pneumothorax
- symptoms
- background lung disease/respiratory reserve
Estimating the size of pneumothorax is somewhat controversial with no international consensus. CT is considered more accurate than plain radiograph.
- British Thoracic Society (BTS) guidelines (2010): measured from chest wall to lung edge at the level of the hilum
- <2 cm: small
- ≥2 cm: large
- American College of Chest Physicians guidelines (2001): measured from thoracic cupola to lung apex
- <3 cm: small
- ≥3 cm: large
These can be used together to determine the best course of action. The following is based on the BTS guidelines for the treatment of pneumothorax; local protocols may differ:
- asymptomatic small rim pneumothorax: no treatment with follow-up radiology to confirm resolution
- pneumothorax with mild symptoms (no underlying lung condition): needle aspiration in the first instance
- pneumothorax in a patient with background chronic lung disease or significant symptoms: intercostal drain insertion (small drain using the Seldinger technique)
In trauma patients, the "35 mm rule" seems to predict which patients can be safely observed. If the pneumothorax measures <35 mm (measuring the largest air pocket between the parietal and visceral pleura perpendicular to the chest well on axial imaging) in stable, non-intubated patients there was a 10% failure rate (i.e. requiring intercostal catheter insertion) during the first week .
In patients with recurrent pneumothoraces or who are at very high risk of having recurrent events and have a poor respiratory reserve, pleurodesis can be performed. This can either be medical (e.g. talc poudrage) or surgical (e.g. VATS pleurectomy, pleural abrasion, sclerosing agent) .
History and etymology
Pneumothorax is derived from two Greek words, πνευμα (pneumα) meaning breath and θωραξ (thorax) meaning breastplate. The synonym, aerothorax, which is rarely, if ever, seen in modern medicine also has Greek roots, from αερος (aero) meaning air .
Differential diagnosis
Usually, the diagnosis is straightforward, but occasionally other entities should be considered:
- artifacts: air caught between structures outside the chest
- skin fold artifact
- the apparent pleural edge is denser (i.e. black) compared to a true pneumothorax which is a white pleural edge
- may be seen extending beyond the chest cavity or seen to fade out
- clothing
- blankets
- skin fold artifact
- monitoring leads (although these should be obvious)
- oxygen bags/masks
- overlapping breast margin
- normal anatomical structures, e.g. medial border of the scapula
- pulmonary bullae
- giant bullous emphysema: differentiated from tension pneumothorax by clinical stability, interstitial vascular markings projected with the bullae and lack of hemithorax re-expansion following the insertion of an intercostal catheter
- calcified pleural plaques
- other gas in abnormal locations
- other causes of a hyperlucent hemithorax
- on CT
- gas in a brachiocephalic vein from cannulation
- beam-hardening artifact from concentrated iodinated contrast medium in a brachiocephalic vein or the SVC