Question 16#

It is often difficult to identify a pneumothorax on a supine CXR in a ventilated patient.

All of the following signs on the CXR suggest the presence of pneumothorax EXCEPT:

A. Deep sulcus sign at costophrenic angle

Answer: C: It is often difficult to identify a pneumothorax on a supine CXR. ED patients who are ventilated may develop pneumothoraces due to barotrauma, as well as due to attempted central line insertion. In the supine position in a patient with pneumothorax, the air in the pleural cavity collects anterior to the lung, therefore the collapsed lung edge is not often visible in this position. This is true even for a pneumothorax under tension. Furthermore, the presence of a presumed well-positioned intercostal catheter (ICC) alone is not helpful in excluding a tension pneumothorax in a similar patient. Tension can develop even in a patient with an ICC. A number of features have been described to help identify a pneumothorax in a supine patient including:

• Deep sulcus sign – shown as a deep lateral costophrenic angle due to the air in that position
• Pericardial fat tag sign – a sharp outline of the pericardial fat due to air in the lower part of the pleural cavity
• Lucency due to air over the upper abdomen – often visible over the liver
• Pleural air, which may cause a sharp appearance of the mediastinal and diaphragmatic borders
• Subcutaneous emphysema without direct evidence of a pneumothorax

References:

1. Humphries R,Young W. Spontaneous and iatrogenic pneumothorax. In: Tintinalli J, Stapczynski J, Ma O, et al, editors. Tintinalli’s emergency medicine: a comprehensive study guide. 7th ed. NewYork: McGraw Hill Medical; 2011. p. 500–4.
2. Joyce C, Saad N, Kruger P, et al. Chapter 1: Chest. Diagnostic imaging in critical care: a problem based approach. Sydney: Churchill Livingston Elsevier; 2010. p. 37.

Question 17#

Regarding the diagnosis of a spontaneous pneumothorax in a patient with severe chronic obstructive pulmonary disease (COPD), which ONE of the following statements is TRUE?

A. Expiratory films are more sensitive than inspiratory films

Answer: B: Both inspiratory and expiratory posteroanterior (PA) films are equally sensitive (sensitivity only 83%) in the diagnosis of a pneumothorax. However, in COPD patients often the issue is to differentiate bullae from a spontaneous pneumothorax. On a CXR a bulla appears with a concave inner margin (lung edge) and rounded edges, but a pneumothorax has a convex lung edge. CT has a higher sensitivity in detection of a pneumothorax, as well as in the differentiation of a bulla from a pneumothorax in a COPD patient. This is very significant as, if a chest tube is inadvertently inserted into a bullous, it may cause a large pneumothorax and a resultant bronchopulmonary fistula and associated sequelae.

Reference:

1. Humphries R,Young W. Spontaneous and iatrogenic pneumothorax. In: Tintinalli J, Stapczynski J, Ma O, et al, editors. Tintinalli’s emergency medicine: a comprehensive study guide. 7th ed. NewYork: McGraw Hill Medical; 2011. p. 500–4.

Question 18#

All of the following statements are correct regarding detection of a pneumothorax in a supine patient using bedside ultrasound in the ED EXCEPT:

A. The ‘lung point’ sign when present is highly specific for a pneumothorax

Answer: C: In a supine patient, including trauma patient, bedside ultrasound can be used to detect or exclude an anteriorly placed pneumothorax. Some of these pneumothoraces are not visualized on a supine chest radiograph. In a trauma patient, the low-frequency curvilinear probe can be used in an extended FAST (eFAST) to look for a pneumothorax. In others, either high-frequency linear probe or curvilinear probe can be used. In the absence of pleural adhesions in the normal lung the parietal and visceral pleurae are opposed and slide on each other during respiration. When there is no air sitting between the two pleural surfaces (i.e. when there is no pneumothorax), this lung sliding can be seen between the shadows of two anterior ribs with ultrasound. The probe should be placed on the anterior chest wall perpendicular to the ribs. Two to three intercostal spaces should be scanned usually in the midclavicular line.

Signs in a normal lung when there is no pneumothorax:

• Lung sliding sign: The pleural line can be identified and the lung sliding should be seen with the curvilinear or linear probe. M-mode (motion mode) can be used as an adjunct to confirm the above finding. The following sign can be identified with M-mode.
• Seashore sign: A linear laminar pattern superficial to the pleural line and a granular pattern deep to the pleural line. It indicates normal lung sliding. B-mode (brightness mode) may show comet-tail artifacts.
• Comet-tail artifacts: Reverberation artifacts that arise from interlobular septae under the visceral pleura. These are vertical and project to the depth of the ultrasound image. The comet-tail artifacts are only visible when both pleura are opposed to each other.

Signs indicating presence of a pneumothorax:

• No lung sliding.
• Stratosphere sign (barcode sign): On M-mode ultrasound in the absence of lung sliding. This is a linear laminar pattern superficial to the pleural line as well as deep to the pleural line.
• Lung point sign: Visible on B-mode. The ‘lung point’ sign is an intermediate sign, which is visualized when the lung intermittently contacts the parietal pleura during inspiration, therefore alternating between the seashore (normal lung sliding) and stratosphere sign (pneumothorax). It is a dynamic point and can be seen at various locations. In small pneumothoraces it can be located anteriorly and in large pneumothoraces more laterally. The detection of lung point can be difficult but when detected it is 100% specific for the diagnosis.

References:

1. Ma O J, Mateer J R, Kirkpatrick A W. Trauma. In: Ma JO, Mateer JR, Blaivas M, editors. Emergency ultrasound. 2nd ed. NewYork: McGraw-Hill; 2007. p. 77–108.
2. Nagdev A. Focus on: ultrasound detection of traumatic anterior pneumothorax. ACEP News December 2008. Online. Available: www.acep.org.
3. Ma J, Reardon R, Sabbaj A. Emergency ultrasonography. In: Tintinalli J, Stapczynski J, Ma O, et al, editor. Tintinalli’s emergency medicine: a comprehensive study guide. 7th ed. NewYork: McGraw Hill Medical; 2011. p. e146–63.

Question 19#

Regarding management of a patient presenting with a first episode of primary spontaneous pneumothorax, which ONE of the following statements is TRUE?

A. 100% oxygen treatment prevents re-expansion pulmonary oedema

Answer: B: The aim of providing supplemental oxygen to patients with spontaneous pneumothoraces is to accelerate the rate of absorption of air from the pleural cavity. 100% oxygen as a treatment should be provided to patients with small primary pneumothoraces who are admitted to hospital for observation alone. Supplemental oxygen reduces the alveolar partial pressure of nitrogen creating a nitrogen gradient between the pleural space and the alveoli. This increases the air absorption from the pneumothorax into the alveoli. By providing 100% oxygen, the usual 1–2% per day of air absorption can be increased by fourfold. Oxygen has no effect in preventing the rare complication of reexpansion pulmonary oedema.

For small primary pneumothoraces chest tube drainage is not necessary. Even for large primary pneumothoraces it has not shown to be more effective than aspiration. Success rate for aspiration is said to be 45–71%. The success rate of aspiration reduces:

• In patients over 50 years of age
• When the volume of air aspirated is >2.5 L (means large air leak)

References:

1. Kosowsky J. Pleural disease. In: Marx J, Hockberger R, Walls R, et al, editors. Rosen’s emergency medicine: concepts and clinical practice. 7th ed. Philadelphia: Mosby Elsevier; 2010. p. 939–46.
2. Humphries R,Young W. Spontaneous and iatrogenic pneumothorax. In: Tintinalli J, Stapczynski J, Ma O, et al, editors. Tintinalli’s emergency medicine: a comprehensive study guide. 7th ed. NewYork: McGraw Hill Medical; 2011. p. 500–4.

Question 20#

Regarding the selection of an appropriately sized intercostal catheter or tube when treating a spontaneous pneumothorax, which ONE of the statements is TRUE?

A. Size should be based on the anticipated amount of air leak from the lung because a smaller sized tube could cause a tension pneumothorax

Answer: A: The intercostal catheter or tube size should be determined on the basis of the anticipated amount of air leak from the lung. If a large air leak is anticipated a relatively larger catheter or tube should be used to prevent development of a tension pneumothorax. Tension may develop in spite of the presence of a catheter/tube that is inadequate comparative to the amount of air leak. Aspiration of >4 L of air suggests a large air leak from the lung. A large air leak can also be expected from a secondary spontaneous pneumothorax and from a patient who is going to be mechanically ventilated. The following catheter sizes are generally acceptable.

• For a small pneumothorax, a small size catheter/ tube (10F–14F).
• For a large pneumothorax, a medium size tube (16F–22F).

Between 2 and 7% of spontaneous pneumothoraces have associated blood in the thoracic cavity (haemopneumothorax). If this is expected or visible on imaging, a large tube (24F–36F) should be used. French tube size represents the diameter of the tube. 1 French means a diameter of one-third of a millimetre (1/3 mm). For example, 24F = a diameter of 8 mm.

Reference:

1. Humphries R,Young W. Spontaneous and iatrogenic pneumothorax. In: Tintinalli J, Stapczynski J, Ma O, et al, editors. Tintinalli’s emergency medicine: a comprehensive study guide. 7th ed. NewYork: McGraw Hill Medical; 2011. p. 500–4.