Asthma

Question 1

What is asthma?

Answer 1

a chronic inflammatory disease that affects the bronchioles

Question 2

Why does breathing become difficult in asthma?

Answer 2

when asthma is triggered the tissue of the bronchioles swells and bronchioles fill with mucus. Spasming of bronchiole smooth muscle (bronchospasm) cause further narrowing of the airway. Overall narrowing leads to difficulty exhaling

Question 3

List some potential triggers to asthma

Answer 3

• smoke exposure
• exercise
• polluted air
• inhaling respiratory irritants (e.g. perfume, cleaning products)
• breathing allergens (e.g. mold, dust, animal dander)
• super respiratory infections
• exposure to cold or dry weather
• emotional excitement or stress

Question 4

What are some risk factors or other conditions that increase the likelihood of a person having asthma?

Answer 4

hay fever and other allergies, eczema, and genetic predispositions

Question 5

What are the main symptoms of asthma?

Answer 5

wheezing, breathlessness, tight chest, coughing, difficulty speaking

Question 6

what are the types of preventer and controller medications typically prescribed to people with asthma?

Answer 6

Long acting beta-agonists and inhaled corticosteroids

Question 7

What are the types of reliever medication often used by people suffering asthma?

Answer 7

short-acting beta agonists and anticholinergics

Question 8

in basic terms how do long acting beta agonists work?

Answer 8

they work by causing bronchodilator to open airways and reduce resistance to air flow. They can also work to reduce inflammation but do nothing to treat the cause of an asthma attack

Question 9

what are some examples of long-acting beta-agonists that might be seen on road?

Answer 9

salmeterol and formoterol

Question 10

What are beta-2 adrenergic receptors responsible for and where are they found?

Answer 10

beta-2 receptors are predominately found in the smooth muscle of the airways. When activated by an agonist beta-2 receptors cause bronchcodilation, hence their use in the treatment of asthma and COPD

Question 11

what are the side effects of non-selective beta-2 agonists?

Answer 11

As beta-1 receptors are found in areas outside of the lungs (heart, ) side effects include responses from these areas e.g. tachycardia, tremors, sweating - essentially expected sympathetic stimulation)

Question 12

What short-acting beta-agonist is commonly administered on road and why?

Answer 12

Salbutamol is administered within SAAS, as it is a short-acting beta agonist it has a rapid onset and works to bronchodilate

Question 13

What is an anticholinergic?

Answer 13

muscarinic receptor antagonists, essentially blocking the binding of acetylcholine to muscarinic receptors

Question 14

Acetylcholine

• what is it?
• what does it do?
• where is it released from?
• why does it cause an issue in asthma is present if everybody?

Answer 14

• Acetylcholine is a neurotransmitter
• One of its primary roles in the causing of asthma is it’s binding with muscarinic receptors. This binding causing parasympathetic effects such as bronchocstriction, increased mucous production, inflammation and airway remodelling
• released from airway neurone, non-neuronal cells including epithelial calls and inflammatory cells
• inflammatory response in asthma increases ACh production

Question 15

Muscarinic receptors

• what kind of receptor are they?
• where are they found?
• what is their primary response?
• what molecule most acts upon them?

Answer 15

G-coupled protein receptors that are found throughout the body, including in the pulmonary system. They are responsible primarily for parasympathetic responses, including bronchoconstriction, and are activated by the molecule acetylcholine.

Question 16

what is airway remodelling?

Answer 16

The process by which the structure of cells and tissues in the airways is changed as a result of various diseases. In asthma this can mean increased smooth muscle mass, gland enlargement, epithelial alterations, sub epithelial fibrosis, etc.

Question 17

What is the dosage of salbutamol given to treat asthma (SAAS)?

Answer 17

mild to moderate asthma
- 1200microg via spacer (12 puffs, 4 breaths in between)

Moderate
- 5mg nebulised (every 20min to max 3 doses)

Severe
- 15mg nebulised (repeat once if needed)

Life threatening
- 15mg neb continuous

Question 18

What is the dosage of ipratroprium bromide given to treat asthma (SAAS)?

Answer 18

Mild to moderate
- 168 micro via spacer (8 puffs with 4 breaths between each)

moderate
- 500microg via neb

Question 19

What is ipratroprium bromide?

Answer 19

An inhaled anticholinergic that works on muscarinic receptors (M3) as an antagonist to reduce parasympathetic activation in the lungs, such as bronchodilator and mucous production

Question 20

what drugs can be used to treat asthma according to SAAS drug dosage chart?

Answer 20

salbutamol, ipratroprium bromide, adrenaline, prednisolone

Question 21

when is it appropriate to administer adrenaline in the treatment of asthma and at what dose?

Answer 21

Adrenaline is typically reserved for severe or life threatening asthma. It is administered intramuscularly at a dose of 10microg/kg to a max of 500microg, repeated every 5 mins as needed

Question 22

Provide an overview of the pathophysiology that occurs in allergic asthma

Answer 22

Question 23

How many L of O2 need to be running when nebulising medicaiton?

Answer 23

At least 8L

Question 24

In the case that a person needs assistance ventilating in asthma, what is it important to allow for?

Answer 24

A lengthened expiratory phase as this will reduce the chances of gas trapping and hyperinflation occuring

Question 25

give an overview of the cellular processes behind asthma

Answer 25

allergen -> dendritic cell bind to allergen -> dendritic cell ‘passes’ allergen to T helper 2 cell -> T cell releases cytokines

Cytokine activates plasma cell to produce IgE antibodies -> IgE antibodies bind to mast cells -> binding causes degranulation and release of histamines and leukotrines

Cytokines activate eosinophil -> causes release of leukotrines and proteases (can cause long term damage and remodelling)

histamines and leukotrines act on bronchioles to cause bronchoconstriction/spasm, dilation of capillaries and increased permeability, increased mucous production, inflammed mucosa -> narrowed airways