Pneumothorax/ Pleural Effusion

Question 1

A pneumothorax translates to air in the thorax, specifically air between the lungs and chest walls called the pleural space. This pleural space is filled with what?

1 - lubricant
2 - blood
3 - nothing
4 - air

Answer 1

1 - lubricant

Question 2

The pleural space is filled with lubricant between the visceral (stuck to the lungs) and parietal (chest wall) pleura. Which 2 of the following are responsible for maintaining an equilibrium in the pressure in the pleural space?

1 - small ligaments between the visceral and parietal pleura
2 - muscle tension chest wall and diaphragm
3 - elastic properties of lung parenchyma
4 - compliant properties of lung parenchyma

Answer 2

2 - muscle tension chest wall and diaphragm
3 - elastic properties of lung parenchyma

Question 3

The muscle tension of the chest wall and diaphragm and elastic properties of lung parenchyma create a balanced equilibrium of pressure in the parietal space of the lungs. This creates a vacuum of pressure in the parietal space. What is the normal pressure in the parietal space?

1 - -5cm of water
2 - +5cm of water
3 - 50cm of water
4 - -500cm of water

Answer 3

1 - -5cm of water
- minus 5

• the pressure in the thoracic cavity and lungs is 0cm of water

Question 4

A pneumothorax is typically when the seal of parietal space has been lost. The negative pressure of -5 of water is lost. This causes the lung to be collapse, the chest wall expands and the parietal space fills with air. Typically in a pneumothorax does O2 and CO2 levels in the body change?

Answer 4

• yes
• O2 reduces
• CO2 increases

Question 5

A pneumothorax is typically when the seal of parietal space has been lost. The negative pressure of -5 of water is lost. This causes the lung to be collapse, the chest wall expands and the parietal space fills with air. There are a number of pneumothorax, which of the following is a spontaneous pneumothorax?

1 - parietal pleura is broken from the outside but air can move in and out
2 - bullae (large air pocket) is perforated
3 - parietal pleura is broken but can only move into parietal space
4 - all of the above

Answer 5

2 - bullae (large air pocket) is perforated

• bullae form when the alveoli develop tiny leaks
• alveoli can typically heal, but if they don’t it causes a pneumothorax

Question 6

A pneumothorax is typically when the seal of parietal space has been lost. The negative pressure of -5 of water is lost. This causes the lung to be collapse, the chest wall expands and the parietal space fills with air. A spontaneous pneumothorax is when a bullae (large air pocket) is perforated, which can be primary or secondary. Which of the following patients is likely to have a primary spontaneous pneumothorax?

1 - tall, thin, athletic young male with underlying lung condition
2 - small, overweight female with no underlying lung disorder
3 - tall, overweight female with no underlying lung disorder
4 - tall, thin, athletic young male with no underlying lung condition

Answer 6

4 - tall, thin, athletic young male with no underlying lung condition

Question 7

A pneumothorax is typically when the seal of parietal space has been lost. The negative pressure of -5 of water is lost. This causes the lung to be collapse, the chest wall expands and the parietal space fills with air. A spontaneous pneumothorax is when a bullae (large air pocket) is perforated, which can be primary or secondary. Which of the following patients is likely to have a secondary spontaneous pneumothorax?

1 - tall, thin, athletic young male with underlying lung condition
2 - small, overweight female with no underlying lung disorder
3 - tall, overweight female with no underlying lung disorder
4 - tall, thin, athletic young male with no underlying lung condition

Answer 7

1 - tall, thin, athletic young male with underlying lung condition

• underlying lung conditions could be Marfans syndrome (connective tissue disorder), cystic fibrosis, emphyema and lung cancer.

Question 8

A pneumothorax is typically when the seal of parietal space has been lost. The negative pressure of -5 of water is lost. This causes the lung to be collapse, the chest wall expands and the parietal space fills with air. There are a number of pneumothorax, which of the following is a traumatic pneumothorax?

1 - parietal pleura is broken from the outside but air can move in and out
2 - bullae (large air pocket) is perforated
3 - parietal pleura is broken but can only move into parietal space
4 - all of the above

Answer 8

1 - parietal pleura is broken from the outside but air can move in and out

Question 9

A pneumothorax is typically when the seal of parietal space has been lost. The negative pressure of -5 of water is lost. This causes the lung to be collapse, the chest wall expands and the parietal space fills with air. There are a number of pneumothorax, which of the following is a tension pneumothorax?

1 - parietal pleura is broken from the outside but air can move in and out
2 - bullae (large air pocket) is perforated
3 - parietal pleura is broken but can only move into parietal space
4 - all of the above

Answer 9

3 - parietal pleura is broken but can only move into parietal space

• during inspiration air moves into pleural space
• during exhalation air is trapped in the pleural space
• essentially the pneumothorax increases in size unless treated

Question 10

Of the following types of pneumothorax, which is most dangerous?

1 - tension
2 - traumatic
3 - spontaneous primary
4 - spontaneous secondary

Answer 10

1 - tension
- this can put pressure on large vessels, deviate the trachea and compress the heart
- reduces cardiac out so very dangerous
- MEDICAL EMERGENCY

Question 11

In patients with a pneumothorax (collapsed lung), which of the following symptoms will they NOT present with?

1 - sudden shortness of breathe
2 - sudden pleuritic chest pain
3 - sudden deterioration if known lung disease in patient
4 - all of the above

Answer 11

4 - all of the above

• the key is the SUDDEN ONSET

Question 12

In patients with a pneumothorax (collapsed lung), which of the following clinical signs will they NOT present with?

1 - increased dullness
2 - reduces breathe sounds
3 - hyper resonance
4 - decreased lung expansion

Answer 12

1 - increased dullness

Question 13

Boyles Law states that as the volume of a container increases, the pressure within the enlarged container decreases. As we inhale the diaphragm and intercostal muscles contract, pulling the lungs down and out, increasing the volume of the lungs and decreasing the pressure in the lungs. Is the air from outside that we inhale therefore likely to move in or out of the lungs?

Answer 13

• into the lungs
• air pressure is higher outside the lungs so moves down the pressure/concentration gradient into the lungs
• pressure outside lungs = 750 mmHg
• pressure in lungs during inhalation = 757 mmHg
• pressure in lungs during exhalation = 763 mmHg

Question 14

What may be present on an X-ray in a patient with a pneumothorax?

1 - large space (darker area where lung should be)
2 - difference size between lungs
3 - tracheal deviation
4 - all of the above

Answer 14

4 - all of the above

Question 15

Which of the following is NOT a risk factor for a primary spontaneous pneumothorax?

1 - tall
2 - male
3 - thin
4 - asthma

Answer 15

4 - asthma
- primary spontaneous pneumothorax has no underlying lung disease

Question 16

Which of the following is NOT a risk factor for a secondary spontaneous pneumothorax?

1 - asthma
2 - COPD
3 - thin
4 - pulmonary fibrosis
5 - cystic fibrosis

Answer 16

3 - thin
- secondary spontaneous pneumothorax has an underlying lung disease

Question 17

When managing a primary spontaneous pneumothorax (no underlying lung disease), if the patient has dyspnea and the rim (edge of the lung) is >2cm from the parietal pleura what is the initial management of the patient?

1 - HRCT
2 - aspirate the pneumothorax
3 - consider discharge and review in 2-4 wks
4 - admit and monitor

Answer 17

2 - aspirate the pneumothorax
- if this is unsuccessful a chest drain will be needed
- if successful, discharge the patient and review in 2-4 weeks

Question 18

When managing a primary spontaneous pneumothorax (no underlying lung disease), if the patient does not have dyspnea and the rim (edge of the lung) is <2cm from the parietal pleura what is the initial management of the patient?

1 - HRCT
2 - aspirate the pneumothorax
3 - consider discharge and review in 2-4 wks
4 - admit and monitor

Answer 18

3 - consider discharge and review in 2-4 wks

Question 19

When managing a secondary spontaneous pneumothorax (underlying lung disease), if the patient has dyspnea and the rim (edge of the lung) is >2cm from the parietal pleura what is the initial management of the patient?

1 - HRCT
2 - aspirate the pneumothorax
3 - consider discharge and review in 2-4 wks
4 - chest drain

Answer 19

4 - chest drain

Question 20

When managing a secondary spontaneous pneumothorax (underlying lung disease), if the patient does not have dyspnea and the rim (edge of the lung) is 1-2cm from the parietal pleura what is the initial management of the patient?

1 - HRCT
2 - aspirate the pneumothorax
3 - consider discharge and review in 2-4 wks
4 - chest drain

Answer 20

2 - aspirate the pneumothorax
- if unsuccessful then do a chest drain
- if successful admit for 24h to observe with O2

Question 21

When managing a secondary spontaneous pneumothorax (underlying lung disease), if the patient does not have dyspnea and the rim (edge of the lung) is <1cm from the parietal pleura what is the initial management of the patient?

1 - admit and monitor for 24h with O2
2 - aspirate the pneumothorax
3 - consider discharge and review in 2-4 wks
4 - chest drain

Answer 21

1 - admit and monitor for 24h with O2

Question 22

When managing a tension pneumothorax (underlying lung disease), what is the initial management of the patient?

1 - admit and monitor for 24h with O2
2 - aspirate the pneumothorax
3 - insert large bore cannula into 2nd intercostal space and allow air to drain
4 - chest drain

Answer 22

3 - insert large bore cannula into 2nd intercostal space and allow air to drain
- in mid-clavicular line
- use saline so it bubbles and we can see air escaping
- DO NOT WAIT FOR OTHER INVESTIGATION

Question 23

If a patient has had a pneumothorax, they are contraindicated to fly for a set period of time. What is the standard time they are advised to wait following a pneumothorax providing there is no residual air in the pleural space?

1 - 2 days
2 - 1 week
3 - 2 weeks
4 - 6 weeks

Answer 23

3 - 2 weeks
- in diving patients are advised never to do this following a pneumothorax

Question 24

Pleural = space between visceral (attached to lungs) and parietal (attached to thoracic wall and effusion = collection of fluid. So essentially pleural effusion means collection of fluid in the pleural space. In normal physiology there is a continuous fluid turnover (aprox 1L) in the pleural space, which is drained by what?

1 - capillaries
2 - diffusion into surrounding tissues
3 - lymphatics
4 - veins

Answer 24

3 - lymphatics

Question 25

If too much fluid is produced by the body, this can drain into the pleural space. There are 2 key types of pleural fluid. Which 2 of the following are correct forms of pleural effusion?

1 - exudate
2 - transudate
3 - prolongate
4 - phantomgate

Answer 25

1 - exudate
2 - transudate
- there can also be a lymphatic effusion

Question 26

Which of the following is NOT a characteristic of an exudate (remember think E for EXIT incorrectly)?

1 - fluid is from circulatory system
2 - inflammation is primary cause
3 - low protein
4 - high lactate dehydrogenase (similar to blood)

Answer 26

3 - low protein
- protein is normally high

Question 27

What is the level of protein content to make it an exudate pleural effusion?

1 - >0.1
2 - >0.3
3 - <0.5
4 - >0.5

Answer 27

4 - >0.5
- >35g/L
- 2/3 upper limit of normal serum levels of protein

Question 28

Why is protein typically >0.5 in an exudate?

1 - blood vessels leak proteins
2 - inflammation damages tissue and proteins leak into pleural space
3 - increased hydrostatic pressure forces protein into pleural space
4 - all of the above

Answer 28

2 - inflammation damages tissue and proteins leak into pleural space

• if the inflammation is due to an infection, this can lead to the pleural effusion becoming infected, like a giant abscess

Question 29

What do the levels of lactate dehydrogenase (LDH) need to be to make the pleural effusion an exudate?

1 - >0.1
2 - >0.3
3 - <0.6
4 - >0.6

Answer 29

4 - >0.6
- 2/3 upper limit of normal serum levels of protein

Question 30

How does exudative fluid generally look?

1 - clear
2 - cloudy
3 - like milk

Answer 30

1 - clear
- contains immune cells so looks cloudy

Question 31

What is lactate dehydrogenase?

1 - enzyme involves in cholesterol synthesis
2 - enzyme involved in glycolysis
3 - enzyme involved in aerobic metabolism
4 - enzymes that converts pyruvate to lactate

Answer 31

4 - enzymes that converts pyruvate to lactate
- enzyme is present in all cells

Question 32

Which of the following is NOT a characteristic of an transudate (remember think T for transverse the membrane)?

1 - thinner fluid than exudate
2 - extravascular fluid
3 - generally due to high hydrostatic or low osmotic pressures
4 - high in LDH and protein

Answer 32

4 - high in LDH and protein
-typically low in LDH and protein

Question 33

What is the less of protein content to make it a pleural effusion a transudate?

1 - >0.1
2 - >0.3
3 - <0.5
4 - >0.5

Answer 33

3 - <0.5
- <25g/L

Question 34

What do the levels of lactate dehydrogenase (LDH) need to be to make the pleural effusion a transudate?

1 - >0.1
2 - >0.3
3 - <0.6
4 - >0.6

Answer 34

3 - <0.6

Question 35

How does transudative fluid generally look?

1 - clear
2 - cloudy
3 - like milk

Answer 35

1 - clear

Question 36

How does lymphatic fluid generally look?

1 - clear
2 - cloudy
3 - milky

Answer 36

• 3 - milky
• lipids give it this colour

Question 37

What are mesothelioma cells?

Answer 37

• simple squamous cells originating from mesoderm
• cells lining pleural walls
• secrete pleural fluid

Question 38

What is a common cause of thickening of the pleura and mesothelioma?

Answer 38

• exposure to chemicals and toxins
• specifically asbestos

Question 39

What is the only way to test if fluid in the pleural space is an exudate or transudate?

Answer 39

• pleural aspiration guided by ultrasound
• pleural drainage can be used if lots of fluid

Question 40

When analysing pleural fluid, which of the following tests is required?

1 - biochemistry (protein and lactate dehydrogenase)
2 - microbiology (rule out TB)
3 - cytology (rule out cancer)
4 - all of the above

Answer 40

4 - all of the above
- identifies if the pleural effusion is a transudate or exudate by comparing with serum levels

Question 41

To sample the pleural effusion, a thoracentesis is required (needle into the pleural space). What is the typical location for this?

1 - 1-2 intercostal spaces above pleural effusion border following percussion
2 - 1-2 intercostal spaces below pleural effusion border following percussion
3 - anywhere where pleural effusion is confirmed following percussion

Answer 41

2 - 1-2 intercostal spaces below pleural effusion border following percussion

• give patient 10-15ml lidocaine
• extract 10-30ml of the effusion

Question 42

When inserting a needle to do drain a pleural effusion, do we go above or below the rib?

Answer 42

• above
• intercostal neurovascular bundle is contained below ribs in the costal groove
• top to bottom = vein, artery, nerve (VAN)

Question 43

Which criteria is used to distinguish between a transudate and exudate pleural effusion?

1 - Lights criteria
2 - Duke criteria
3 - Modified Glasgow score
4 - CURB-65 score

Answer 43

1 - Lights criteria
- accurate diagnosis of pleural effusions
- determines if effusion is transudate or exudate

Question 44

Hydrostatic pressure is the pressure exerted on blood vessel walls by blood. Which of the following conditions can increase hydrostatic pressure of pulmonary blood vessels?

1 - congestive heart failure
2 - right or left sided heart failure
3 - pulmonary hypertension
4 - all of the above

Answer 44

4 - all of the above
- increased hydrostatic pressure forces fluid into pleural space

Question 45

Oncotic pressure is a solute concentration dependent pressure in blood vessels, where fluid moves to high solute concentrations, such as albumin (high albumin in blood keeps fluid in blood vessels). Which 2 of the following can cause a drop in oncotic pressure and lead to fluid leaking out of blood vessels?

1 - congestive heart failure
2 - right or left sided heart failure
3 - liver cirrhosis
4 - nephrotic syndrome

Answer 45

3 - liver cirrhosis
4 - nephrotic syndrome

• essentially means less albumin is present in the blood so fluid transverses the membrane into the pleural space

Question 46

Which of the following is NOT a cause of an transudative pleural effusion?

1 - heart failure
2 - malignancy
3 - cirrhosis
4 - nephrotic syndrome
5 - hypoalbuminaemia
6 - hypothyroidism

Answer 46

2 - malignancy

Question 47

Exudate pleural effusions are essentially due to inflammation, where the capillaries become leaky and allow fluid, immune cells and large proteins (LDH) to leak out. Which of the following is NOT a cause of an exudative pleural effusion?

1 - malignancy
2 - infection (pneumonia, TB, emphysema)
3 - autoimmune disease (RA, SLE)
4 - pneumonia
5 - cirrhosis

Answer 47

5 - cirrhosis

• all the others cause inflammation

Question 48

Which of the following is NOT a clinical signs that a patient has a pleural effusion?

1 - ⬇️ chest wall movement on side of effusion
2 - ⬇️ ventilation on side of effusion
3 - dullness on percussion (MOST reliable finding)
4 - increased tactile vocal fremitus and vocal resonance on side of perfusion
5 - bronchial breathing above perfusion
6 - tracheal deviation away from perfusion
7 - dyspnea with pleuritic chest pain

Answer 48

4 - increased tactile vocal fremitus and vocal resonance on side of perfusion

• these are normally decreased as resonance does not travel through fluid as well

Question 49

What is the main investigation in a patient with a suspected pleural effusion?

1 - ABG
2 - Chest-Xray
3 - ultrasound
4 - microbiology

Answer 49

2 - Chest-Xray

Question 50

In a patient with a suspected pleural effusion, we would do an X-ray to confirm the diagnosis. What are we likely to see on the X-ray?

1 - blunting of the costophrenic angles
2 - fluid in the lung fissures
3 - meniscus of the lung (curving)
4 - tracheal deviation if pleural effusion is large
5 - all of the above

Answer 50

5 - all of the above

Question 51

What is the term given when pus has collected in the pleural space?

1 - emphysema
2 - empyema
3 - haemothorax
4 - chylothorax

Answer 51

2 - empyema
- essentially means pocket of pus that collect in the body

Question 52

When performing a pleural aspiration in a patient with suspected empyema, which is essentially pockets of pus that collect in the body, which of the following is NOT a characteristic of the pus that will be drained?

1 - low pH <7.2
2 - high glucose
3 - high LDH
4 - all of the above

Answer 52

2 - high glucose
- glucose will be low as the microorganisms will be using the glucose

Question 53

What is the term given when chyle (lymphatic fluid) has collected in the pleural space?

1 - emphysema
2 - empyema
3 - haemothorax
4 - chylothorax

Answer 53

4 - chylothorax

Question 54

What is the term given when blood has collected in the pleural space?

1 - emphysema
2 - empyema
3 - haemothorax
4 - chylothorax

Answer 54

3 - haemothorax

Question 55

In a small effusion, what would the appropriate initial management be?

1 - pleural aspiration with repeats
2 - conservative management
3 - chest drain
4 - admit and observe with no treatment

Answer 55

2 - conservative management
- if caused by infection, then treat the infection and the patients symptoms

Question 56

In small effusion that is symptomatic or a larger effusion, which 2 of the following would be an appropriate initial management plan?

1 - pleural aspiration with repeats
2 - conservative management
3 - chest drain
4 - admit and observe with no treatment

Answer 56

1 - pleural aspiration with repeats
3 - chest drain

Question 57

When draining a pleural effusion we should not drain all the fluid immediately as this can cause re-perfusion pulmonary effusion, which can be dangerous. How much is recommended to be drained in 24h?

1 - 250-500ml
2 - 500-1L
3 - 500-1.5L
4 - 1L-3L

Answer 57

3 - 500-1.5L

Question 58

When inserting a chest drain, which of the following is NOT part of the safe triangle (which is not really a triangle)?

1 - inferior border = 2nd intercostal space
2 - superior border = base of axilla
3 - medial border = lateral edge of pectoralis major
4 - lateral border = anterior edge of latissimus dorsi

Answer 58

1 - inferior border = 2nd intercostal space
- it is the 5th intercostal space