Asthma

Question 1

5 examples of relevance to asthma

Answer 1

• NHS spends £1 billion a year treating people with asthma
• Asthma is the most common chronic medical condition that complicates pregnancies
• 235 million people suffer with asthma
• Every ten mins someone is having a life threatening asthma attack
  In 2016/17 there where 77124 hospital admissions caused by asthma in the uk

Question 2

Asthma is a complex inherited disease what 5 chromosomes can be involved with this?

Answer 2

Chromosomes:

• 5
• 6
• 11
• 12
• 14

Question 3

Why is Chromosome 5 the leading site for investigation in terms of asthma treatment?

Answer 3

Chromosome 5 has lots of Genesis that code for molecules in the inflammatory response seen in asthma, including:
- Cytokines
- Growth factors
- Receptors
However a gene for asthma has not been found here

Question 4

The fundamental causes for asthma are not completely understood.
What is known to be cause of asthma ?

Answer 4

• Genetic pre- disposition
• environmental exposure to inhaled substances + particles that may provoke or irritate the airway such as:-
• Indoor allergens ( dust mites, stuffed furniture, pet hair)
• Outdoor allergens (pollen, mould)
• Smoke

Question 5

7 factors that may be an irritant to the airways

Answer 5

• Chemical irritants
• Air pollution
• Cold air
• Extreme emotion ( anger or fear)
• Physical exercise
• Certain medication ie aspirin and beta blockers

Question 6

Why may aspirin trigger asthma?

Answer 6

Can cause asthma attack because it acts as a deregulator of leukotrienes

Question 7

What are leukotrienes?

Answer 7

Leukotrienes are substances in the body that cause inflammation

Question 8

Why are beta blockers a trigger for asthma?

Answer 8

Beta blockers cause restrictions in the bronchial tree
- B2 receptors are located in the liver, LUNGS🫁 , muscles 💪, uterus, gastrointestinal tract and vascular smooth muscles 💪

Question 9

What are cytokines, and Interleukins?

Answer 9

• Cytokines are proteins
• There are lots of different types
• Interleukins (IL)are a type of Cytokine
• Interleukins (IL) are any group of naturally occurring proteins that mediate (control) communication between cells
• Interleukins are important when stimulating an immune response such as inflammation

Question 10

How do cells communicate?

Answer 10

• cells (in particular white blood cells) communicate via a group of ‘super family proteins’. AKA Cytokines
• Cytokines allow one cell to communicate with another to cause an action.

Question 11

Major pathway in Asthma pathophysiology.
Pathway 1 - The TH2 (white blood cells) - The inflammatory response.
What happens

Answer 11

• Helper type 2 (TH2) cells are a specific type of white blood cell (AKA T cells)
• TH2 cells secrete interleukins (IL-4, IL-5, IL-9, IL-13, IL-17)
• These interleukins ( cytokines ) are inflammatory mediators
• In asthma the TH2 cell is inappropriately activated.
• Once activated TH2 cells release a variety of interleukins
• These interleukins cause eosinophils activation (IL-5) and promote mast cell activation (IL-9)
• Excessive TH2 type immune response causes alveoli inflammation and Asthma

Question 12

Explain the inflammatory cascade… GO

Answer 12

• TH2 stimulation ( trigger is unknown)
• Cytokine/ Interleukin (IL-) released
• Causes white cell stimulation
• Causes more cytokines / interleukins to be released
• symptoms such as inflammation in the bronchial tree 🌳 become apparent

Question 13

What do inflammatory mediators (interleukins) cause?

5 things

Answer 13

• Obstruction of the smooth bronchioles and terminal bronchioles
• Oedema (obstruction) of the airway
• Increased mucous secretion
• Cellular infiltration of the airway walls
• Injury + shedding of the airway epithelial cells

Question 14

Sputum is characterised into two categories these are?

Answer 14

1) Charcot- Leyden Crystals - these consist of collections if bipyramidal crystalloid, and is made up of eosinophilic membrane proteins
2) Curschmann’s spirals - microscopic findings in the sputum of asthmatics. They are spiral shaped mucous plugs. They are formed in the sub- epithelial mucous gland ducts of the Bronchi

Question 15

What is immunoglobulin E (IgE)

Answer 15

IgE is an antibody that destroys foreign objects (antigens) such as other antibodies

Question 16

What is atopic asthma?

Answer 16

Individuals have elevated levels of IgE in their immune system.

Question 17

What is Atopy/ allergy asthma?

Answer 17

This manifests in people who have hay fever, dermatitis, eczema, and anaphylaxis. These people have high levels of IgE and are at a higher risk of developing asthma

Question 18

How does someone develop asthma (atopic changes?

Answer 18

• An individual is exposed to an allergen
• IgE binds to receptor sites on mast cells in the upper and lower air ways.
• When this happens the person is now referred to as sensitised
• On subsequent re exposure to the allergen that the individual has been sensitised to. The allergen binds to the IgE causing the mast cells to release inflammatory mediators including histamine, and cytokines

Pathophysiological response is…

• lung inflammation
• oedema
• smooth muscle contraction
• increased mucous production in the airway causing obstruction
• lung damage

Question 19

What is arachidonic acid ?

Answer 19

This is found in cell membranes

• It is a product formed following antigen and antibody reactions
• All cell membranes release arachidonic acid following cell injury.

Question 20

What does arachidonic acid do?

Answer 20

• The metabolism of arachidonic acid produces mediators called ‘ Eicosanoids’ which are essential in the activation of macrophages (white blood cells)
• It also results in the promotion of prostaglandin and leukotrienes which are smooth muscle contractors that produce hyper responsiveness and inflammation

Question 21

Asthma can be viewed from three perspectives these are…?

Answer 21

TH2 perspective —> Infkamation
IgE perspective —> obstruction and inflammation
Arachidonic acid —> Broncho- constriction

Question 22

Why does an asthma attack cause a altered resp rate?

Answer 22

• Increased levels of CO2 in the blood stream caused by inflammation and obstruction.
• This causes lactic acid levels to rise, the pH level to fall and eventually acidosis.
• Chemoreceptors constantly measure the pH of the blood stream and detect the change in pH
• Chemoreceptors then send impulses to the medulla oblongata (which controls the resp rate)
• The medulla oblongata then sends impulses to the phrenic and respiratory nerves, to stimulate them causing the resp rate to increase to breathe out more CO2.
• However in asthma attack the inflammation of the upper and lower airways and obstruction caused by mucous means the increase in resp rate to shift the CO2 isn’t effective.
• Eventually the person having the asthma attack will become exhausted and subsequently their resp rate will lower.

Question 23

Why can asthma cause cardiovascular instability?

Answer 23

• Asthma attack
• Difficulties breathing in O2
• Can’t deliver O2 to the heart ❤️ .
• No O2 means the heart wont pump as effectively
• Causing alteration to the heart ❤️ rate, BP and cyanosis

Question 24

What is cyanosis?

Answer 24

• This describes the blue discolouration of the skin, nail bed, lips, and tongue.
• It is caused by blood 🩸 with low levels of O2 tension
• In people with darker skin this discolouration will appear grey or purple instead of blue

Question 25

What is central cyanosis where does it occur?

Answer 25

• Occurs when there is more then 59ml/dl of reduced deoxygenated Hb in the capillary blood 🩸 vessels
• detected when the O2 seats is less the 85%

Question 26

What is peripheral cyanosis and where does it occur?

Answer 26

• Occurs when there is adequate O2 circulating blood, but when there is poor circulation of that blood to the extremities.
• Occurs in people with reynauds

Question 27

Why can asthma cause cyanosis?

Answer 27

Anybody in severe respiratory distress and develop cyanosis