Respiratory

Question 1

What is the definition of asthma?

Answer 1

Asthma is a chronic inflammatory airway disease characterised by intermittent airway obstruction and hyper-reactivity.

Question 2

What are the three pathological hallmarks of asthma?

Answer 2

1. bronchoconstriction
2. oedema
3. mucus hypersecretion

Question 3

What questions do you ask when taking an asthma history?

Answer 3

Symptoms: SOB, cough, wheeze
Severity: does it wake you up at night? How often do you take your puffer? Have you ever been hospitalised/intubated?
Social: how does it affect your life?
Medications: puffer, preventer, oral pred
Triggers: exercise, cold, pollutants
Atopy: eczema, hayfever, allergies

Question 4

What signs will you find on examination of a patient with asthma?

Answer 4

Hyperinflated chest (gas trapping)
Tachypnoea
Use of accessory muscles
Pursed lip breathing
Cyanosis
Prolonged expiratory wheeze
Reduced breath sounds on auscultation
Possibly decreased heart sounds (increased chest volume)

Question 5

What are some triggers for asthma?

Answer 5

Allergens
Pollutants
Tobacco smoke
Occupational exposure
URTIs
Exercise
Cold air
Medication: aspirin, beta blockers

Question 6

How do we diagnose asthma?

Answer 6

Spirometry: airflow obstruction is when FEV1/FVC (FER) <70%

We need to prove that the bronchoconstriction is reversible, so look for an increase in FEV1 following Ventolin.

Question 7

What are the goals of treatment for asthma?

Answer 7

Control symptoms
Prevent exacerbations
Maximise lung function and prevent future lung function decline
Maintain normal levels of activity
Lower dose of amedication to achieve suitable asthma control and minimise side effects

Question 8

What are the pharmacological treatments for asthma?

Answer 8

Relievers: beta2 agonists (relax smooth muscle but do not change underlying inflammation)
Preventer: inhaled GCS (reduce inflamm and AHR)
Oral GCS
Combination inhalers (ICS + LABA)
LT-receptor antagonists (for aspirin-sensitive asthma)
Long-acting anticholinergics
Anti-IgE

Question 9

What are the signs of an acute asthma attack?

Answer 9

Low oxygen
Respiratory muscle fatigue = no hyperventilation = not alkalotic
Silent chest

Question 10

How do we treat an acute asthma attack?

Answer 10

Oxygen is essential.
Oral prednisolone or IV hydrocortisone
Regular bronchodilators
Urgent ICU assessment for observation - possible intubation
IV magnesium (bronchodilation properties)

Question 11

What is the definition of COPD?

Answer 11

COPD is a preventable and treatable disease, characterised by airflow limitation that is not fully reversible.

Question 12

What are the three major components of COPD?

Answer 12

1. Emphysema
2. Chronic bronchitis
3. Small airways disease

Question 13

What is emphysema?

Answer 13

Alveolar wall destruction with irreversible enlargement of the air spaces distal to the terminal bronchioles and without evidence of fibrosis

Question 14

What would you find on examination for a patient with COPD?

Answer 14

Early (note: there are often not many signs early on in COPD):

• nicotine staining
• prolonged expiratory phase +/- wheeze on forced exhalation

Later:
- hyperinflation (barrel chest)

End stage:

• pursed lip breathing
• accessory muscle use
• cyanosis
• asterixis (metabolic encephalopathy due to high CO2 levels)
• engorged liver
• RV heave
• engorged neck veins due to increased intrathoracic pressure

Question 15

What investigations should you perform to diagnose COPD?

Answer 15

Pulmonary function tests: spirometry, flow-volume loop, lung volumes
CXR
HRCT
ABGs

Question 16

What would you see on CXR for a patient with COPD?

Answer 16

Hyperinflation:
- flat hemidiaphragms
- increased lucency
- tapered vascular shadows peripherally
Bullae
- large cysts in the lung (increase risk of pneumothorax)

Question 17

What are the management principles for patients with COPD?

Answer 17

Remember COPX:
C = confirm diagnosis
O = optimise function (smoking cessation, treat other comorbidities)
P = prevent deterioration (smoking cessation, flu vacc to decrease risk of exacerbations)
D: develop support network and self-management plan
X: management of exacerbations

Question 18

What is the definition of pulmonary oedema?

Answer 18

Pulmonary oedema is the accumulation of fluid in the alveolar sacs of the lung.

Question 19

What are some causes of pulmonary oedema?

Answer 19

Cardiogenic causes:
- left heart failure
- mitral regurgitation
Non-cardiogenic causes:
- fluid overload
- pulmonary embolus
- ARDS

Question 20

What is the definition of pleural effusion?

Answer 20

Pleural effusion is the accumulation of fluid in the space between the visceral and parietal pleura.

Question 21

What are some causes of pleural effusion?

Answer 21

Transudate:
- left heart failure (increased pulmonary capillary pressure)
- right heart failure (increased parietal pleural capillary pressure)
- cirrhosis
- pulmonary embolism
- kidney failure
- hypoalbuminuria
Exudate:
- pneumonia
- malignancy

Question 22

What might you find on history and examination of a patient with pleural effusion?

Answer 22

History
1. Pleuritic chest pain, worse on inspiration and movement
2. If caused by pneumonia, may be associated with productive cough. Transudative pleural effusions cause non-productive cough.
3. Dyspnoea 
Examination 
1. Dullness to percussion 'stony dull'
2. Reduced breath sounds over effusion
3. Reduced vocal resonance
4. Reduced chest expansion

Question 23

What are common causes of typical pneumonia?

Answer 23

Streptococcus pneumoniae
Haemophilus influenzae
Klebsiella pneumonia
Staphylococcus aureus
Moraxella catarrhalis

Question 24

What are common causes of atypical pneumonia?

Answer 24

Mycoplasma pneumoniae
Chlamydia pneumoniae
Chlamydia psittaci
Legional penumophila
Coxiella burnetii

Question 25

What are the three main categories of lung disease? List some examples of each.

Answer 25

1. Airways disease
   - e.g. asthma, COPD, bronchiectasis
2. Diffuse lung diseases
   e. g. pulmonary oedema, pulmonary fibrosis, lung injury by drugs/fumes
3. Pulmonary vascular diseases
   e. g. pulmonary embolus, pulmonary hypertension

Question 26

What kind of processes can acutely cause a diffuse lung pattern?

Answer 26

Due to the presence of:

• water: from altered starling forces in pulmonary oedema
• inflammation: due to acute inhalational injury from toxic fumes or acute drug toxicity; acute infection, e.g. influenza
• blood: diffuse leakage from inflamed vessels in vasculitis

Question 27

What kind of processes can cause a subacute or chronic diffuse lung pattern?

Answer 27

Interstitial diseases:

1. Idiopathic pulmonary fibrosis
2. Sarcoidosis
3. Occupational: asbestosis
4. Extrinsic allergic alveolitis (e.g. bird fanciers, farmer’s lung)
5. Drugs (e.g. methotrexate, amiodarone, bleomycin, nitrofurantoin)
6. Radiotherapy
7. Pulmonary fibrosis associated with connective tissue disease
8. Vasculitis

Question 28

What are the symptoms of airways disease, diffuse lung diseases and pulmonary vascular diseases?

Answer 28

1. airways diseases: wheeze, cough, sputum, dyspnoea
2. diffuse lung diseases: cough, dyspnoea (wheeze unusual)
3. pulmonary vascular diseases: dyspnoea, pleuritic pain, haemoptysis

Question 29

What are the causes of respiratory alkalosis?

Answer 29

Respiratory alkalosis is caused by hyperventilation –> overbreathing causing loss of CO2

Causes:

• asthma
• anxiety
• cardiac failure
• sepsis
• hypoxia

Question 30

What is the rule for acute respiratory acidosis? (in terms of CO2 and HCO3 levels)

Answer 30

For every 10 mmHg CO2 rises, HCO3 rises by 1 mmHg

Question 31

What is the rule fo acute respiratory alkalosis? (in terms of CO2 and HCO3 levels)

Answer 31

For every 10 mmHg CO2 decreases, HCO3 decreases by 2.5 mmHg

Question 32

How does the body compensate in respiratory acidosis/alkalosis?

Answer 32

The kidneys will either retain or excrete bicarbonate. This will not occur in an acute setting.

Question 33

What are the causes of metabolic acidosis?

Answer 33

Increase in H+:

• ketoacids
• lactic acid
• poisons
• amino acids
• HCl

Loss of HCO3-:

• pancreas
• kidneys
• GIT

Question 34

What is the anion gap and how are its results interpreted?

Answer 34

We use the anion gap in the case of metabolic acidosis.
Anion gap = (Na + K) - (Cl + HCO3)

If increased anion gap, the metabolic acidosis is caused by lactate, ketoacids or ethanol.
If normal anion gap, the metabolic acidosis is caused by HCl, amino acids or loss of HCO3.

Question 35

What are the causes of metabolic alkalosis?

Answer 35

Addition of HCO3: exogenous

Loss of H+: vomiting, NG aspirate

Question 36

What is the rule for compensated metabolic acidosis/alkalosis?

Answer 36

CO2 same as last 2 digits of pH

HCO3 +15 is same as last 2 digits of pH