Theme 2 - Genetic and environmental cause of disease: Part 1

Question 1

What is an atheroma?

Answer 1

Intimal lesion that protrudes into a vessel wall. It consists of a raised lesion with a soft core of lipid and is covered by a fibrous capsule

Question 2

What does the fibrous cap of an atheroma consist of?

Answer 2

Smooth muscle cells, macrophages, foam cells, lymphocytes, collagen, elastin

Question 3

What does the necrotic centre of an atheroma consist of?

Answer 3

Cell debris, cholesterol crystals, foam cells, calcium

Question 4

What are foam cells?

Answer 4

Lipid macrophages that contain cholesterol

Question 5

What is the inner most and middle layer of an artery?

Answer 5

inner most - endothelium

middle - smooth muscle

Question 6

Which vessels are commonly affected by atheroma?

Answer 6

• bifurcations (sites of turbulent flow)
• abdominal aorta
• coronary arteries
• popliteal arteries
• carotid vessels

Question 7

What are the 9 risk factors for HDL?

Answer 7

• age
• male gender
• family history
• genetic abnormalities
• hyperlipidaemia (LDL:HDL)
• hypertension
• cigarette smoking
• diabetes
• C-reactive proteins

Question 8

How does atherosclerosis start?

Answer 8

-chronic inflammatory response to damage or injury to the inner layer of an artery

Question 9

What can cause damage to the inner layer of an artery?

Answer 9

• High BP
• high cholesterol
• an irritant, such as nicotine
• certain diseases e.g diabetes

Question 10

What is the response to injury hypothesis?

Answer 10

1. Chronic endothelial injury
2. Endothelial dysfunction (e.g increased permeability, leukocyte adhesion) and emigration
3. Smooth muscle emigration from media to intima. Macrophage activation
4. Macrophages and smooth muscle cells engulf lipid
5. Smooth muscle proliferation, collagen and other ECM deposition, extracellular lipid

Question 11

What are the two events leading up to atherosclerosis?

Answer 11

1. Fatty streak
   - earliest lesion
   - composed of lipid filled foamy macrophages
   - begin as minute flat yellow spots that coalesce into streaks
   - not all fatty streaks are destined to progress to atheromatous plaques
2. Atherosclerotic plaque
   - intimal thickening and lipid accumulation
   - thrombus on plaque appears red

Question 12

What are the sequelae of atherosclerosis?

Answer 12

• Rupture, ulceration or erosion
• haemorrhage into plaque
• atheroembolism
• aneurysm formation

Question 13

What is a thrombus?

Answer 13

• A solid mass of blood constituents formed within the vascular system
• a blood clot inside a vein or artery

Question 14

What is the sequence of events from an initial lesion to a complicated lesion?

Answer 14

1. Initial lesion
2. Fatty streak
3. Intermediate lesion
4. Atheroma
5. Fibroatheroma
6. Complicated lesion

Question 15

What is stasis and turbulence?

Answer 15

both abnormal blood flow
stasis - reduced blood flow
turbulence - increased flow

Question 16

What are the 3 causes of thrombosis?

Answer 16

Vircows triad

• abnormal blood flow
• endothelial injury
• hypercoagulability

Question 17

What is coagulation?

Answer 17

Blood clotting

Question 18

What is claudication?

Answer 18

pain on walking due to reduced blood flow to the legs

Question 19

What are the differences between arterial thrombosis and venous thrombosis?
Think about mechanism, location, diseases, composition, treatment

Answer 19

Arterial thrombosis:

• typically from rupture of atheromatous plaque
• left heart chambers, arteries
• ishaemic stroke, claudication
• mainly platelets
• anti-platelet agents (clopidogrel)

Venous thrombosis:

• typically from combination of factors from Virchow triad
• muscle and valves of veins
• DVT, PE
• mainly fibrin
• anticoagulants (heparin, warfarin)

Question 20

What is polycythemia?

Answer 20

Increase in number of red blood cells in the body. Increase in number causes blood to be thicker, which can cause clots

Question 21

What are the differences between clots and thrombus ?

Answer 21

Clots:

• platelets not involved
• occurs outside vessel
• red
• gelatinous
• not attached to vessel wall

Thrombus:

• platelets involved
• occurs only inside vessel
• red (venous), pale (arterial)
• firm
• attached to vessel wall

Question 22

What is an embolus?

Answer 22

• A thrombus that breaks loose and travels from one location in the body to another
• becomes lodged in a vessel and blocks its lumen
• most common is a PE derived from DVT

Question 23

What are some sequelae of thrombosis?

Answer 23

• occlusion of vessel- causing ischaemia or infarction
• dissolution
• incorporation into vessel wall
• recanalisation
• embolisation

Question 24

What is hypoxia?

Answer 24

When the oxygen supply to tissues is impaired. Other metabolites e.g glucose are still available

Question 25

What is ischaemia?

Answer 25

• the interruption / disturbance of blood flow to cells and tissues
• this reduces oxygen supply AND metabolites

Question 26

What is individual cell death in ischaemic injury called?

Answer 26

necrosis

Question 27

What is infarction?

Answer 27

Ischaemia (inadequate blood supply) leading to cell death (necrosis)

Question 28

What are the mechanisms of ischaemic cell injury?

Answer 28

• decrease ATP
• increase lactate
• failure of Na pump –> accumulation of Na+
• membrane damage
• leakage of intracellular proteins (creatine kinase, troponin, transaminases)
• failure of Ca pump –> accumulation of Ca2+
• decrease protein synthesis

Question 29

So how can we detect ischaemia?

Answer 29

• lactate levels

- intracelular proteins

Question 30

What are the 6 causes of ischaemia?

Answer 30

1. Vascular occlusion (atherosclerosis, thrombosis, embolism, hyper viscosity)
2. Vasospasm
3. Vascular damage
4. Extrinsic compression e.g tumour
5. Mechanical interruption e.g torsion
6. Hypoperfusion e.g cardiac failure

Question 31

Why does the nature of the blood supply have an impact on the outcome of ischaemia?

Answer 31

-an alternative blood supply means less damage
-tissues with dual vascular supply are generally resistant to infarction
e.g lungs: pulmonary and bronchial veins
liver: hepatic artery and portal veins
Kidneys, spleen, testes have one artery to supply the region and are hence more vulnerable to infarction

Question 32

What factor decides whether ischaemia causes reversible or irreversible cell injury?

Answer 32

duration of ischaemia

Question 33

Why does a slower rate of developing vascular occlusion make it less likely to infarct tissue?

Answer 33

Allows time for development of alternative perfusion pathways (collateral supply)

Question 34

What are the 5 variables that affect whether ischaemia is reversible or irreversible?

Answer 34

1. nature of blood supply
2. duration of ischaemia
3. rate of vascular occlusion
4. tissue vulnerability
5. blood oxygen content

Question 35

What are the two types of necrosis seen in ischaemia?

Answer 35

1. Coagulative necrosis

2. Liquefactive / colliquative necrosis

Question 36

How does coagulative necrosis work?

Answer 36

• denaturation of enzymes means they are unable to break down cell structure
• basic outline of cell is preserved for a few days (eosinophillic ‘ghost cells’)
• tissue remains firm

Question 37

How does liquefactive necrosis work?

Answer 37

• mode of injury is enzyme digestion
• cells complete digested and broken down within hours
• tissue is liquified which creates a cavity or cyst within the brain

Question 38

What colour are infarcts in organs with a single blood supply?

Answer 38

white

Question 39

What colour are infarcts in organs with a dual blood supply?

Answer 39

red

Question 40

What are the order of processes in irreversible cell injury?

Answer 40

1. Biochemical alteration –> cell death
2. Ultrastructural changes
3. Light microscopic changes
4. Gross morphologic changes

Question 41

Why would there be yellowing of a myocyte undergoing coagulative necrosis?

Answer 41

neutrophil infiltration

Question 42

How do you treat ischaemia clinically?

Answer 42

therapeutic repercussion of ischaemia

Question 43

How might repercussion augment tissue damage?

Answer 43

• generation of reactive oxygen species by sudden repercussion of ischaemic tissue
• heart might be salvaged but not function correctly

Question 44

what is the commonest cause of ischaemia?

Answer 44

vascular occlusion

Question 45

What is shock?

Answer 45

• A state of reduced systemic tissue perfusion due to cardiovascular collapse / reduced mean artery pressure
• This hypo perfusion leads to ischaemia, multi-organ failure and eventually death

Question 46

What are the 3 types of shock?

Answer 46

1. Hypovolaemic
2. Cardiogenic
3. Distributive

Question 47

How does hypovolaemic shock occur?

Answer 47

• intravascular fluid loss
• decreased venous return to heart (pre load)
• decreased stroke volume
• decreased cardiac output

Question 48

How does patient compensate for hypovolaemic shock?

Answer 48

• increase heart rate

- patient will become tachycardic to increase MAP

Question 49

What are the causes of hypovolaemic shock?

Answer 49

• haemorrhage (trauma, GI bleeding, fractures)

- non-haemorrhagic fluid loss (diarrhoea, vomiting, burns)

Question 50

How does cardiogenic shock occur?

Answer 50

-cardiac pump failure

Question 51

How do we compensate during cariogenic shock?

Answer 51

MAP drops so we increase total peripheral resistance through the sympathetic nervous system to compensate

Question 52

What are the 4 types of cardiogenic shock?

Answer 52

1. myopathic (heart muscle failure)
2. arrhythmia related
3. mechanical
4. extra-cardiac (anything outside the heart that impairs cardiac filing e.g PE)

Question 53

What is distributive shock caused by?

Answer 53

-decrease SVR due to severe vasodilation

Question 54

What are the subtypes of distributive shock?

Answer 54

septic shock, anaphylactic shock, neurogenic shock, toxic shock syndrome

Question 55

What criteria is used to decide if patient has a PE?

Answer 55

Wells criteria

Question 56

What causes a swollen, tender leg?

Answer 56

• outflow blocked
• increased hydrostatic pressure
• collateral blood flow

Question 57

What are the other symptoms of PAD?

Answer 57

• hair loss on legs and feet
• numbness/ weakness in legs
• ulcers on feet that don’t heal
• shiny skin
• erectile dysfunction
• changing skin colour on legs e.g blue
• gangrene

Question 58

What is ischaemic heart disease?

Answer 58

• inadequate blood supply to myocardium
• decrease coronary blood flow
• myocardial hypertrophy

Question 59

What are the majority of cases of IHD caused by?

Answer 59

a reduction in coronary blood flow due to obstruction of the coronary arteries by atheroma

Question 60

What is the NIH Framingham risk score calculation?

Answer 60

risk assessment tool for estimating your 10-year risk of having a heart attack

Question 61

What are 2 other risk calculators ?

Answer 61

• SCORE

- QRISK3

Question 62

What is angina pectoris?

Answer 62

paroxysmal attacks of chest pain - constricting, squeezing, choking
Typically 2 patterns:
-typical/stable
-crescendo/unstable

Question 63

What is acute ischaemia?

Answer 63

atheroma + acute thrombosis/ haemorrhage

Question 64

Explain the gross morphology of an MI

Answer 64

<24 hr: normal
1-2 days: pale, oedematous, myocyte necrosis
3-4 days: yellow with haemorrhage edge
1-3 weeks: red-grey to grey white, pale, thin
3-6 weeks: dense fibrous scar

Question 65

What is a subendocardial myocardium?

Answer 65

• A subendocardial infarct results in necrosis exclusively involving the innermost aspect of the myocardium
• relatively poorly perfused under normal conditions
• can infarct without any acute coronary occlusion

Question 66

What are the symptoms of an MI?

Answer 66

• pain or discomfort in chest
• light headedness, nausea or vomiting
• jaw, neck or back pain
• discomfort or pain in arm or shoulder
• shortness of breath

Question 67

What are the blood markers of cardiac myocyte damage?

Answer 67

• troponins T&I
• creatin kinase MB
• myoglobin
• lactate dehydrogenase isoenzyme 1
• aspartate transaminase

Question 68

What are the treatments for an MI?

Answer 68

1. M.O.N.A: Morphine, oxygen, nitrates, aspirin
2. Reperfusion: PCI (Percutaenous coronary intervention)
3. Thrombolysis - dissolving thrombolysis
4. Balloon angioplasty
5. coronary bypass grafting

Question 69

What is familial hypercholesterolaemia?

Answer 69

• mutation in genes involved in cholesterol metabolism

- commenest are low density lipoprotein receptor gene and apolipoprotein B

Question 70

What are the pathophysiological causes of congestive heart failure?

Answer 70

• decreased myocardial contractility
• increase afterload
• decrease cardiac compliance
• volume overload
• large increase in pre load
• decrease pre load

Question 71

What are the two main causes of left heart failure?

Answer 71

• decreased cardiac output

- pulmonary congestion

Question 72

What is the main causes of right heart failure?

Answer 72

congestion of peripheral tissues

Question 73

What is the most useful non-invasive test in assessment of left ventricular function?

Answer 73

echocardiography

Question 74

What is ascites?

Answer 74

build up of fluid in the abdomen - clinical feature of severe congestive heart failure

Question 75

What happens in atherosclerosis?

Answer 75

• endothelial injury
• lipids and macrophages leak into BV
• macrophages eat fat cells and lipids forming foamy cells
• fibrous cap is formed - gets bigger, narrowing lumen of BV
• blood struggle going through and getting to tissue