Week 4

Question 1

What is COPD

Answer 1

Chronic obstructive pulmonary disease - common preventable and treatable disease that is characterised by persistent respiratory symptoms and airflow limitation due to airway/alveola abnormalities. 
Usually consists of 
- air limitations
- abnormal gas exchange
- overproduction of mucous 
- pulmonary hypertension 

Includes emphysema - destruction of alveoli
Chronic bronchitis - presence of cough/sputum production for at least 3 months

Question 2

Risk factors for COPD

Answer 2

Smoking
Genetic
Increased age
Female
Exposure to particles
Pollution
Lower social economic class
He of respiratory disease

Question 3

Symptoms of COPD

Answer 3

Main - sputum production, chronic productive cough and dyspnoea
Other
- pursed lip breathing to help reduce WOB by keeping airway open
- chest tightness
- hypoxaemia (has trap)
- hypercapnia (gas trap)
- Fatigue

Question 4

Pathophysiology of COPD

Answer 4

1. Noxious stimuli
2. Abnormal/prolonged inflammatory response
3. Increased neutrophils/macrophages/lymphocytes/cytokines leading to:
   - Fatigue/weight loss
   - breakdown in lung parenchyma/enlargement of air space -destruction of alveoli wall/loss of elastic recoil
   - bronchial irritation/inflammation = hypertrophic/hyperplasia of goblet cells = bronchial oedema + mucous hypersecretion/airway remodelling
4. Leads to gas trapping = hyperinflation/airflow limitations/gas exchange abnormalities
5. Dyspnoea/cough/hypoxemia/hypercapnia/for pulmonale

Question 5

How does gas trapping work?

Answer 5

Problems with air movement on expiration.
Force of Air moving in expands bronchial wall, with air going around mucous plug
During expiration, bronchial wall collapse + mucous secretion block airway. Gas can’t escape

Question 6

Complications of COPD

Answer 6

Pulmonary hypertension
Cor pulmonale - airway remodelling/gas trapping —> reduced gas exchange —> increased paco2 = hyperventilation —> can’t maintain —> hypoxemia —> pulmonary vasoconstriction to compensate reduced perfusion —> pulmonary hypertension —> R ventricle and atrium overworked = become enlarged —> cor pulmonale HF 
Ischemic heart disease 
HF
Osteoporosis

Question 7

Management of COPD

Answer 7

Smoking cessation
Reduce/eliminate risk factors
Vaccinations - flu
Pharmacology - bronchodilators/corticosteroids/combination therapy
Pulmonary rehabilitation - exercise/self management
Long term o2 therapy
Non-invasive ventilation - CPAP/BIPAP

Can be managed to decrease disease progression but not cure

Question 8

Differentiate reliever and preventer

Answer 8

Reliever- as needed

Preventer - prevent exacerbation and control symptoms

Question 9

What are the two types of relievers in asthma

Answer 9

Short acting beta 2 agonist (SABA)

Anticholinergic/anti muscarinic (short acting muscarinic antagonist) - SAMA

Question 10

Example of a SABA, how it works and it’s adverse effect

Answer 10

Salbutamol - ventolin
MOA - stimulates B2 receptors found in smooth muscle of airways inhibits bronchial smooth muscle = relaxation of airway muscles
- increase airway diameter + reduce resistance + increase gas exchange + reduce work of breathing

Adverse effects : tachycardia, palpitations, tremors, fishing, headaches, HT

Question 11

Example of SAMA, how it works and adverse effects

Answer 11

Ipratropium - atrovent

MOA: binds to muscarinic chollinergic receptors that blocks acetylcholine which inhibits bronchial smooth muscle and produces airway relaxation
- increase airway diameter + reduce resistance + increase gas exchange + reduce work of breathing

Adverse: urinary retention, dry mouth, constipation, tachycardia

Question 12

What are 4 preventer medications in asthma

Answer 12

1. Corticosteroids
2. Leukotrine receptors antagonist/antileukotrine
3. Mast cell stabalisers
4. Long acting beta 2 agonists (LABA)

Question 13

Examples of corticosteroids, it’s MOA and adverse effects

Answer 13

Budesonide, fluticasone, prednisolone - these are potent anti-inflammatory drugs used to decreased airway inflammation

MOA: inhibit synthesis of chemical mediators at cellular level —> inhibits PLA2 enzyme —> No PGs, leukotrines, histamine —> reduced asthma signs/symptoms

Adverse effects:
Inhaled - hoarseness, URTI, pharyngitis, rhinitis, thrush
Oral -headache, nausea, dizziness, insomnia, liver dysfunction

Question 14

Examples of leukotrine receptor antagonist/antileukotrine, MOA and adverse effects

Answer 14

Montelukast + zafirlukast - causes bronchodilation through direct action on bronchial muscles

MOA - inhibit leukotrines which function is to trigger contraction in the smooth muscle lining in bronchioles, production is from the release of histamine/prostaglandins

Adverse che, nausea, dizziness, insomnia, gastric upset

Question 15

Examples of mast stabiliser cells, MOA and adverse effects

Answer 15

Nedocromil (tilade) + cromoglycate (intal)

MOA: inhibit the release of allergic mediators from mast cell (histamine) - prevent bronchospasm.

Adverse- headaches, dry mucosa, nausea

Question 16

Examples of LABA and it’s MOA

Answer 16

Salmeterol - serevent which are long acting bronchodilators

MOA: same as SABA but not for acute attacks, long acting that last up to 12 hours often used with corticosteroids (combination)