ILAs

Question 1

What is atherogenesis?

Answer 1

The formation of fatty deposits in the arteries

Question 2

What are the four steps of atherogenesis?

Answer 2

1. Endothelial cell injury
2. Lipoprotein deposition
3. Inflammatiory reaction
4. Smooth muscle cell cap formation

Question 3

List some factors that can result in endothelial cell injury

Answer 3

Tobacco, uncontrolled diabetes, hyperlipidaemia, hypertension

Question 4

How does lipoprotein deposition cause a fatty streak?

Answer 4

The endothelium is injured or disrupted, causing lipoprotein molecules to gain entry, where they are then modified by oxidation of glycation. The LDL is inflammatory and able to be ingested by macrophages, creating foam cells and causing a fatty streak in the arterial wall

Question 5

How does the fibrous cap of a plaque form?

Answer 5

Smooth muscle cells migrate to the surface of the plaque, forming the fibrous cap.

Question 6

Are thin or thick capped plaques more likely to cause thrombosis?

Answer 6

Thin capped plaques are thought to be more prone to rupture or erosion, causing thrombosis

Question 7

List some modifiable risk factors for atherosclerosis

Answer 7

High LDL cholesterol, and low HDL cholesterol, High blood pressure, obestiy, smoking, diabetes

Question 8

List some non-modifiable risk factors for atherosclerosis

Answer 8

Family history, high blood pressure, being a post-menopausal woman, being over 45 for a man, diabetes

Question 9

How does high LDL cholesterol promote plaque formation?

Answer 9

LDLs enter the artery walls and then can be phagocytosed by macrophages to form foam cells that promote inflammation.

Question 10

How does low HDL cholesterol promote plaque formation?

Answer 10

HDLs remove cholesterol from foam cells, inhibit oxidation of LDLs, and limit the inflammatory response underlying atherosclerosis.

Question 11

How does hypertension promote plaque formation?

Answer 11

In hypertension, there is increased dilation and contraction of arteries, damaging the endothelium. This endothelium is then scarred and thus thicker causing a narrower lumen and increased liklihood of atherosclerosis.

Question 12

How does obesity promote plaque formation?

Answer 12

There is generally an increase in blood pressure as a result of higher demands in obesity

Question 13

How does smoking promote plaque formation?

Answer 13

Toxins in tobacco smoke lower HDLs and raise LDLs. The nicotine and carbon monoxide also damage the endothelium. Nicotine is also a vasoconstrictor

Question 14

How does uncontrolled diabetes promote plaque formation?

Answer 14

Diabetes drives inflammation and slows blood flow, dramatically accelerating atherosclerosis. Diabetes is also liked to obesity

Question 15

How does increasing age promote plaque formation?

Answer 15

Arteries stiffen with age

Question 16

How does being post-menopausal promote plaque formation?

Answer 16

A decline in oestrogen may be a risk factor in heart disease. Oestrogen is believed to have a positive effect on the inner layer of the artery wall, keeping vessels flexible

Question 17

List some preventative measures that could be done to reduce risk of atherosclerosis

Answer 17

Reduce BMI, Reduce cholesterol intake, Lower blood pressure through medications, statins, Smoking cessation

Question 18

What medications can be used to reduce the risk of atherosclerosis

Answer 18

Aspirin, statins, beta blockers

Question 19

What is a co-benefit?

Answer 19

Additional benefits that arise from cutting greenhouse gas emissions, specifically health related events

Question 20

What is anaphylaxis?

Answer 20

Anaphylaxis is a type 1 hypersensitibity reaction that causes a severe and potentially life-threatening reaction to a trigger such as an allergy

Question 21

What are common triggers for anaphylaxis

Answer 21

Medication
Food
Insect stings
General anaesthetic
Contrast Agents
Latex

Question 22

What are some symptoms of anaphylaxis?

Answer 22

Feeling lightheaded or faint
Breathing difficulties and wheezing
Low blood pressure due to vasodilation
A fast heartbeat= to combat low bp
High temp= massive vasodilation
Skin changes= Inflammatory process
Low oxygen saturation= Bronchoconstriction
Nausea and vomitting

Question 23

What is the main chemical released in anaphylaxis?

Answer 23

Histamine

Question 24

How is anaphylaxis treated?

Answer 24

Airways, circulation, breathing
Stop trigger
IM adrenaline
IV fluids
Chlorphenamine
Hydrocortisone
Oxygen

Question 25

What does adrenaline do in anaphylaxis?

Answer 25

It targets blood vessels (alpha-1), the heart (beta 1) and bronchus (beta 2), causing vasoconstriction, positive inotropic effects and bronchodilation

Question 26

Why are IV fluids administered in anaphylaxis?

Answer 26

To raise fluid levels to raise blood pressures

Question 27

Why is chlorphenamine administered in anaphylaxis?

Answer 27

It is a histamine receptor blocker, meaning the effects of histamine will be less severe. H1 receptor antagonist

Question 28

Why is hydrocortisone administered in anaphylaxis?

Answer 28

It is an agonist of the glucocorticoid and mineralocorticoid receptors meaning that there will be less inflammation= suppresses prostaglandins and causes vasoconstriction.

Question 29

Why may adrenaline have to be administered twice after anaphylaxis?

Answer 29

It has a short half life

Question 30

What test can be done to confirm anaphylaxis?

Answer 30

Mast cell tryptase
(Tryptase protein is released by basophils)
Also do FBC to rule out anaemia and rule out underlying infection

Question 31

What factors are linked to an increased risk of anaphylaxis?

Answer 31

Certain medications 
Alcohol
Exposure to new allergens 
Change in season
Predisposition to asthma and eczema

Question 32

What characteristics should a drug have in terms of protein binding and lipid solubility to work quickly?

Answer 32

• Low protein binding as binding lowers the free conc of a drug
• High lipid solubility so it can readily cross BBB

Question 33

During anaesthesia, why must a drug be given throughout the procedure?

Answer 33

If not, the initial drug will diffuse into muscle, so plasma conc will lower and the patient will wake up

Question 34

What is an agonist?

Answer 34

A drug that binds to and activates a receptor in the same way that the normal binding chemical would

Question 35

What are the three types of agonists?

Answer 35

Full agonist
Partial agonist
Inverse agonist

Question 36

Give an example of a full agonist drug

Answer 36

Opioids activate opioid receptors in the brain, resulting in the full opioid effect

Question 37

What is an antagonist?

Answer 37

A ligand that prevents an agonist from binding to a receptor and thus prevents its effects

Question 38

Give an example of an antagonist drug

Answer 38

Propranolol is a beta-adrenoceptor antagonist

This therefore prevents tachycardia

Question 39

What is a competitive antagonist?

Answer 39

Binds to the same site as the agonist but does not activate it, thus blocking the agonist’s action.
It is reversible and surmountable

Question 40

What is a non-competitive antagonist?

Answer 40

Binds to an allosteric (non-agonist) site on the receptor to prevent activation of the receptor.
It is irreversible and insurmountable

Question 41

Give an example of a competitive antagonist drug

Answer 41

Naloxone (Antagonist of opioid receptor= used for opioid overdose)

Question 42

What are the 4 types of drug targets?

Answer 42

Receptors
Enzymes
Transporters/ carrier proteins
Ion channels

Question 43

Give an example of a drug that targets a receptor

Answer 43

ARB= Angiotensin II receptor blockers

Prevent RAAS system so reduces blood pressure

Question 44

Give an example of a drug that targets an enzyme

Answer 44

ACE Inhibitors

Prevents RAAS system, causing vasodilation and reducing blood pressure

Question 45

Give an example of a drug that targets a transporter

Answer 45

Proton pump inhibitor (Lansoprazole)

Prevents production of stomach acid by inhibiting proton pump mechanism in parietal cells

Question 46

Give an example of a drug that targets an ion channel

Answer 46

Calcium channel blockers (Nifedipine)

Targets calcium channel which leads to arterial vasodilation improving coronary artery blood flow relieving angina

Question 47

What is bioavailability?

Answer 47

The amount of drug that reaches the circulation unaltered (IV drugs therefore have 100% bioavailability)

Question 48

What is first pass metabolism?

Answer 48

Rapid uptake and metabolism of an agent into inactive compounds by the liver

Question 49

What would the oral dose of morphine be compared to IV?

Answer 49

Oral dose is twice the IM/ IV dose

E.G. IV is 5mg, oral is 10mg

Question 50

A patient has just had an invasive surgery. She is 80, and has history of hypertension and renal failure. Her doctor prescribes a lower than normal dose of Morphine, and it is given at longer intervals. Why is this?

Answer 50

Morphine is metabolised in the liver to morphine 6 glucuronide which is more potent than morphine. It is excreted by the kidneys therefore if a patient has renal failure it will not be as readily excreted.
This requires the dose and frequency of administration to be reduced.

Question 51

What are the ideal physical properties for an IV drug?

Answer 51

Stable in solution
Long shelf life
No pain on injection
Cheap

Question 52

What are arterial thrombosis normally formed of?

Answer 52

Platelets= white thrombus

Question 53

What are venous thrombosis normally formed of?

Answer 53

Coagulation factors and RBC= Red thrombus

Question 54

What are some possible complications of arterial thrombus?

Answer 54

MI/STROKE

Question 55

What are some possible complications of venous thrombus?

Answer 55

DVT/ PE

Question 56

How are arterial thrombosis treated?

Answer 56

Anti-platelets e.g. aspirin, clopidogerel

Question 57

How are venous thrombosis treated?

Answer 57

Anti-coagulants e.g. warfarin, heparin, NOACs (Rivaroxaban)

Question 58

What are the clinical features of arterial thrombus?

Answer 58

• Diminished or absent pulse
• Claudication
• Complications as presentation; MI, Stroke, TIA, critical limb ischaemia

Question 59

What are the clinical features of venous thrombus?

Answer 59

• Usually in the leg
• Pulse is present
• Dull aching pain
• Skin pigmentation
• Reddish/blue
• Stiffness and swelling

Question 60

What are the components of Virchow’s triad?

Answer 60

Stasis of blood flow
Hypercoagulability
Endothelial injury

Question 61

What are some common risk factors for arterial thrombus?

Answer 61

• Hypertension
• Diabetes
• Hypercholesterol
• Obesity
• Older age
• Smoking
• Family history of MI
• Thrombophilia
• Exogenous hormones

Question 62

What are some common risk factors for venous thrombus?

Answer 62

• Immobility
• Major trauma
• Surgery
• Active cancer
• Pregnancy
• Long distance travel
• Older age
• Obesity
• Family history of MI
• Smoking

Question 63

What is plasma D dimer and what does it show?

Answer 63

It is a type of fibrinogen degradation product that is released when a clot begins to dissolve. It is not diagnostic, but a normal result can exclude DVT.

Question 64

What is the action of heparin?

Answer 64

Activates antithrombin III (a serine protease inhibitor). It Inhibits factor Xa in the common pathway of the clotting cascade. Factor Xa is needed to convert prothrombin to thrombin, therefore LMWHs inhibit coagulation

Question 65

What is the action of Warfarin?

Answer 65

It competitively inhibits vitamin K epoxide reductase. It prevents post-translational gamma-carboxylation clotting factors II, VII, IX and X. This results in depletion of active clotting factors II, VII, IX and X; this produces a potent anticoagulant effect.

Question 66

What is the diagnostic criteria of AKI?

Answer 66

• A rise in serum creatinine of 26 mmol/L within 48 hr
• A 50% rise in serum creatinine in last 7 days
• A fall in urine output to less than 0.5 mL/Kg/Hour for more than 6 hrs

Question 67

What are the units of urine output?

Answer 67

mL/Kg/Hour

Question 68

What are the three major classes of AKI?

Answer 68

• Pre-renal
• Renal
• Post-renal

Question 69

What can cause pre-renal AKI?

Answer 69

Impaired perfusion of the kidneys= Diarrhoea, vomitting, hypotension, cardiac failure, sepsis

Question 70

What can cause renal AKI?

Answer 70

Damage to kidney apparatus= Glomerular disease such as nephritis, NSAIDs, glomerulonephritis

Question 71

What can cause post-renal AKI?

Answer 71

Urinary outflow obstruction= A blockage from something such as an enlarged prostate or kidney stones

Question 72

What is the minimum ml/ kg/hr of urine flow in a patient?

Answer 72

0.5

Question 73

What is normal urine output (mL/kg/hr)?

Answer 73

1-2

Question 74

How do NSAIDs cause kidney injury?

Answer 74

Inhibit prostaglandin synthesis (renal vasodilators)= reduced renal flow

Question 75

In AKI, what electrolyte may be raised?

Answer 75

Potassium (Hyperkalaemia)

Question 76

What ECG changes are seen in hyperkalaemia?

Answer 76

• Prolonged QRS interval
• Tall tented T waves
• Absent P waves

Question 77

In a patient with AKI and resulting hyperkalaemia, how should they be treated?

Answer 77

• Insulin and dextrose

Question 78

How does insulin correct hyperkalaemia?

Answer 78

Insulin shifts potassium into cells with glucose

Question 79

Why should dextrose be given at the same time as insulin in hyperkalaemia?

Answer 79

Insulin shifts potassium into cells with glucose

This corrects the hyperkalaemia but may cause hypoglycaemia. Dextrose prevents this

Question 80

What is a TIA?

Answer 80

A rapid onset of neurological dysfunction due to temporal focal cerebral ischaemia without infarct (Less than 24 hrs)

Question 81

How do you check the risk of stroke after TIA?

Answer 81

ABCD2

Question 82

What is amaurosis fugax?

Answer 82

Transient visual disturbance during TIA or stroke

Question 83

What causes amaurosis fugax?

Answer 83

Insufficient blood flow to one or both the eyes due to a clot

Question 84

What cardiac rhythm is atrial fibrillation?

Answer 84

Irregularly irregular

Question 85

What is cushing’s reflex?

Answer 85

When there is a raised ICP, there is systemic hypertension to reperfuse the brain

Question 86

What are the symptoms of a posterior circulation stroke?

Answer 86

Loss of consciousness
Cerebellar or brainstem syndrome
Isolated homonymous hemianopia

Question 87

What are the symptoms of an anterior circulation stroke?

Answer 87

Unilateral weakness and/or sensory deficit of the face and/or arms and/or legs
Homonymous hemianopia

Question 88

What is the most important criteria to consider when initiating a DNACPR?

Answer 88

Autonomy