Respiratory pharmacology

Question 1

What is a cough?

Answer 1

Cough = a protective mechanism that prevents the lungs from aspiration (entry of foreign material) and a common symptom of respiratory disease.

Question 2

What are useless coughs? What conditions cause this? Should it be suppressed?

Answer 2

• Persistent and unproductive- dry cough
• Asthma, oesophageal reflux, sinusitis, psychogenic (cough when you over think about coughing)
• Should it be supressed- yes- cough suppressants are called antitussives- remember to treat underlying cause

Question 3

What are useful coughs? What is an example of this? Should it be suppressed?

Answer 3

• Persistent and unproductive- dry cough
• Asthma, oesophageal reflux, sinusitis, psychogenic (cough when you over think about coughing)
• Should it be supressed- yes- cough suppressants are called antitussives- remember to treat underlying cause

Question 4

What is the mechanism of a cough?

Answer 4

Cough receptors or lung irritant receptors to cough centre in medulla to vagal simulation leading to cough

Question 5

What is a linctus?

Answer 5

A cough preparation that gently soothes and relieves your child’s cough

Question 6

What are dry cough suppressants?

Answer 6

Afferent side- reduce stimuli

Efferent side- medullary cough centre

Question 7

Where is the afferent side?

Answer 7

• Above larynx: Linctuses (demulscents)

* Below larynx: Steam inhalation- nebulised local anaesthetics (numb efferent receptors in larynx or trachea)

Question 8

Where is the efferent side?

Answer 8

• Opiods (codeine, methadone, pholcodeine)- side effects making people sleepy, can cause overdose
• Non opiods (dextromethorphan, noscapine)
• Sedatives: diphenhydramine, chlorpheniramine

Question 9

What do expectorants do?

Answer 9

A medication that helps bring up mucus and other material from the lungs, bronchi, and trachea.

Question 10

How do expectorants work? What are these drugs?

Answer 10

Increase volume of secretion- making them R more

-Guaiphenesin, ipecacuanha, oils

Question 11

What do mucolytics do?

Answer 11

Medication that thins mucous

Question 12

How do mucolytics work and what are these drugs? What is an example of a disease that patient need mucolytics for?

Answer 12

• Decrease the viscosity- provide more fluidity
• Acetyl cysteine, carbocystine, mecysteine
• Recombinant human DNAse
• Cystic fibrosis

Question 13

What are the most common obstructive pulmonary diseases?

Answer 13

Upper airways cough syndrome (post nasal drip)

• Bronchial asthma
• Chronic Obstructive Pulmonary Disease (COPD)
• Gastroesophageal reflux disease

Question 14

What are the four types of bronchial asthma?

Answer 14

• Asthma associated with allergic reactions- IgE mediated
• Asthma not associated with specific allergen- intrinsic asthma
• Exercise induced asthma
• Asthma associated with COPD- due to obstructive of elastic tissues in the airways

Question 15

How does bronchoconstriction occur ?

Answer 15

When exposed to antigen, lymphocyte system is activated, T cells stimulate B cells and make lots of IgE’s. IgE’s bind to mast cells and then become activated. Release mediators which activate pathways which secrete substances. They then cause inflammation of mucosa, swelling of the mucosa layer and constriction of smooth muscle leading to bronchoconstriction.

Question 16

How to treat asthma?

Answer 16

• Prevention of Ag:Ab reaction
• Non-specific reduction of bronchial hyperactivity:
-Nonpharmacological: Stop smoking, weight reduction
-Pharmacological: Corticosteroids
• Dilatation of narrowed bronchi:
-Mimicking dilator neurotransmitter: Sympathomimetics
-Direct acting bronchodilators: Methylxanthines
-Blockade of constrictor transmitter: Anticholinergics
• Prevention of release of transmitter
-Mast cell stabilisers
• Antagonism of released transmitter:
-Leukotriene receptor antagonists

Question 17

Prevention of Ag:Ab reaction- how does it work?

Answer 17

• Avoidance of allergen:
-Difficult to find
-Insufficient evidence
• Avoidance of tobacco and weight reduction

Question 18

Non-specific reduction of bronchial hyperactivity- how does it work?

Answer 18

• Corticosteroids

• Anti-inflammatory
  - Inhibition of influx of inflammatory cells after exposure
  - Reduced micro-vascular leakage: decreased oedema
  - Inhibit release of mediators i.e. cytokines
  - Inhibition of cyclooxygenase enzyme

• Reduced bronchial reactivity:

• Reduce asthma exacerbations
• Don’t relax bronchial smooth muscle

Question 19

What are corticosteroids?- Inhaled and exhaled

Answer 19

•	Inhaled corticosteroids (ICS): Brown inhaler
-Beclomethasone, Budesonide
-Fluticasone, Flunisolide, Triamcinolone
-First line regular therapy (mild to mod Asthma)
•	Oral corticosteroids
-Prednisone, Methylprednisolone
-Betamethasone and Triamcinolone
-Severe asthma (status asthmaticus)

Question 20

What are corticosteroid adverse effects?

Answer 20

• Iatrogenic: Cushing’s syndrome
-Diabetes, hypertension, Peptic ulcer, psychosis, delayed puberty
• Inhibition of hypothalamic pituitary axis
• Other side effects
-Oropharyngeal candidiasis
-Hoarseness: direct effect vocal cords

Question 21

What risks are minimised from corticosteroids?

Answer 21

• Inhalational route
• Administration in early morning
• Gargle and spit after every treatment- reduce oropharyngeal candidiasis and reduce hoarseness
• Newer drugs- cyclesonide- prodrug- activated in bronchial epithelium
- When absorbed in circulation very tightly bound to proteins and thus little effect on glucocorticoid receptors elsewhere

Question 22

What are mast cell stabilisers?

Answer 22

• Cromolyn sodium, Nedocromil sodium
• Inhibit release of mast cell mediators
• Administered by inhalation and very poorly absorbed
• No effect on bronchial smooth muscle
-No use in acute bronchospasm
• Only valuable if taken prophylactically
-Main uses: Allergic rhinitis, allergic conjunctivitis
-Side effects: Throat irritation, cough, dermatitis, myositis, gastroenteritis

Question 23

What inhibits leukotriene synthesis?

Answer 23

• Inhibit 5-lipoxygenase

- Zileuton (discontinued) – liver toxicity

Question 24

What are the inhibitors of leukotriene receptors?

Answer 24

Inhibitors of leukotriene receptors

-Inhibit binding of leukotriene to receptor- Montelukast, zafirlukast

Question 25

What are leukotriene receptor antagonist uses?

Answer 25

• Allergen induced asthma, Exercise induced asthma

- Reduce frequency of exacerbations

Question 26

What are leukotriene receptor antagonist adverse effects and what are they not effective in?

Answer 26

• Not effective in acute asthma
• Minor adverse effects :
-Headache, Gastritis, Flu-like symptoms, CS syndrome

Question 27

What are sympathomimetic agents? What are short acting and long acting drugs?

Answer 27

• Act via β2 adrenoceptors : Blue inhaler
• Selective β2 agonist agents:
- Short acting (3-6 hours) SABA -Albuterol- Salbutamol, terbutaline, fenoterol, metaproterenol
• Long acting (12 -24 hours) LABA- Salmetrol, formetrol

Question 28

Sympathomimetic agents-albuterol

Answer 28

• Albuterol ( Salbutamol)

• Most commonly used
• Inhalation*, nebulisation, oral or intravenous

Question 29

Sympathomimetic agents-salmetrol

Answer 29

• Salmetrol

-Longer lasting (12 hrs)

Question 30

When is adrenaline used?

Answer 30

• Adrenaline

• Used in emergency
• As subcutaneous injection or micro-aerosol

Question 31

What are selective B2 agonists? What are the side effects?

Answer 31

• Metered dose inhalers or nebulisation- can give 5 to ten puffs
• Onset- immediate, Peak-15-30 min, Duration-3-4 hrs
• 1st line of therapy
• Side effects: Due to β2 receptors in heart, muscle and other tissues
-Heart- Palpitation, tachycardia, cardiac arrhythmias
-Muscle- Tremor
-Others - Restlessness, nervousness, hypokalemia

Question 32

What are methylxanthines?

Answer 32

Used in treatment of airways obstruction

Question 33

How are methylxanthines administered?

Answer 33

Administered oral or i.v..

Question 34

What are the adverse effects of methylxanthines?

Answer 34

• Palpitations, cardiac arrhythmia,hypotension
• Gastrointestinal irritation (increased acid production)
• Diuresis, hypokalemia
• Anxiety, headache, seizures

Question 35

What are examples of methyxanthines?

Answer 35

• Theophylline

• Oral : rapid and complete absorption
• 90 % metabolised, saturable metabolism

-Adjuvant therapy in Asthma
-SR Theophylline
• Aminophylline
-Intravenous
-Used in severe asthma
-Loading dose  infusion

Question 36

What are anticholinergic agents? What are examples of them?

Answer 36

Act via inhibiting muscarinic receptors (M3)

• Selective muscarinic antagonist agents:
-Ipratropium, tiotropium, oxitropium
• Tiotropium – longer acting
-OD dose 18 mcg (24 hours)
-LAMA: Long Acting Muscarinic Antagonists
• Inhibit effects of vagus nerve stimulation- vagus is the parasympathetic nerve

Question 37

How are anticholinergics administered? What are the adverse effects?

Answer 37

•	Admistered via inhalation 
•	Adjuvant therapy in acute severe asthma, COPD 
•	Adverse effects:
-Airway irritation
-Anticholinergic effects
-GI upset, urinary retention 
•	Tiotropium – longer acting,
-OD dose 18 mcg (24 hours)
-LAMA : Long Acting Muscarinic Antagonists

Question 38

What are the other drugs that treat asthma?

Answer 38

• Anti IgE monoclonal antibodies
• Ketotifen
• Magnesium
• Ketamine

Question 39

What does then anti IgE monoclonal antibody do?

Answer 39

•	Omalizumab 
•	Inhibits binding of IgE to mast cells 
•	Repeated administration
-Lessens asthma severity
-Reduces magnitude of response 
-Reduced requirement of steroids

Question 40

What does ketotifen do?

Answer 40

• Histamine receptor antagonist (H1)
• Some anti-asthma effect
• Side effects: drowsiness etc
• No proven benefit

Question 41

What does magnesium and ketamine do?

Answer 41

• Magnesium
-Patients who fail to respond to inhaled bronchodilators
-By intravenous infusion
• Ketamine / Volatile anaesthetic agents
-Anaesthetic agents
-Bronchodilator properties
-No role in routine management
-Used in life-threatening or near fatal asthma

Question 42

How do you treat COPD?

Answer 42

• Antimuscarinics > effective than β2 agonist sin COPD

- Smoking cessation: Major role in COPD