PBL Topic 2 Case 5

Question 1

Identify two adhesion molecules involved in the development of an atheroma

Answer 1

• ICAM-1

- E-Selectin

Question 2

What causes expression of adhesion molecules in the development of an atheroma?

Answer 2

• Damage to the vascular endothelium

- For example increased blood pressure

Question 3

What is the effect of adhesion molecules in the development of atheroma?

Answer 3

• Decrease nitric oxide release

- Increased adhesion of particles

Question 4

Identify how foam cells are produced and explain their effect in the development of an atheroma

Answer 4

• Adhesion of monocytes and LDLs
• Differentiation of monocytes into macrophages
• Macrophages engulf LDL to form foam cell
• Which form a visible fatty streak

Question 5

How does the formation of a visible fatty steak result in vessel occlusion?

Answer 5

• Proliferation of fatty streak to form a plaque

- Plaque bulges into lumen

Question 6

How does hardening of the arteries occur in atherosclerosis?

Answer 6

• Fibroblasts deposit connective tissue

- Calcifications

Question 7

Explain how the presence of the plaque may result in thrombus or embolus formation

Answer 7

• Rupturing of plaque causes rough surface
• Which attracts platelets
• Deposition of fibrin
• Trapping of red blood cells

Question 8

How is cholesterol transported from the liver?

Answer 8

• As low density lipoproteins

- Composed of 50% cholesterol and 20% protein

Question 9

How is cholesterol transported back to the liver?

Answer 9

• As high density lipoproteins

- Composed of 50% protein and 20% cholesterol

Question 10

Explain the process by which cells take up cholesterol

Answer 10

• Receptor Mediated Endocytosis
• LDL binds to receptors
• Clathrin coated pits pinch off to form clathrin coated vesicles
• Vesicles are delivered to endosomes

Question 11

Identify five risk factors for atherosclerosis

Answer 11

• Hypertension
• Familial Hypercholesterolemia
• Smoking and Alcohol Consumption
• Diet and Physical Inactivity
• Family History

Question 12

What is an aneurysm?

Answer 12

• Permanent dilation of a vessel

- Due to loss of elastic tissue

Question 13

Where are atherosclerotic aneurysms typically located?

Answer 13

• Lower abdominal aorta

- Iliac arteries

Question 14

What are the clinical effects of atherosclerotic aneurysms?

Answer 14

• Pulsatile abdominal mass
• Lower limb ischaemia
• Rupture, with massive retroperitoneal haemorrhage

Question 15

When does ischaemia occur?

Answer 15

• When there is an imbalance between the supply of oxygen and the metabolic demands of the tissues

Question 16

Identify three causes of ischaemic heart disease

Answer 16

• Atherosclerosis
• Shock
• Stenosis

Question 17

When does coronary heart disease develop?

Answer 17

• When the vessel is more than 75% occluded

Question 18

When does reversible ischaemia of coronary vessels develop?

Answer 18

• When ATP levels are low and anaerobic glycolysis has ceased

Question 19

When does angina occur?

Answer 19

• Lack of blood supply

- Results in lack of contractility

Question 20

Identify three characteristics of stable angina

Answer 20

• Central chest pain
• Precipitated by exertion
• Relived by rest

Question 21

Identify two characteristics of angina on an ECG

Answer 21

• ST depression

- T wave inversion

Question 22

Identify five pieces of lifestyle advice for a patient suffering from angina

Answer 22

• Smoking cessation
• Regular exercise
• Avoiding severe unaccustomed exertion
• Aim for ideal bodyweight
• Sublingual nitrates

Question 23

Identify an example of a potassium channel activator

Answer 23

• Nicorandil

Question 24

Identify three examples of calcium channel antagonists

Answer 24

• Nicardipine
• Nifedipine
• Verapamil
• Diltiazem

Question 25

Explain the mechanism of action of calcium channel antagonists

Answer 25

• Inhibit L-type calcium channels
• Reducing myocardial contractility and blood pressure
• Reducing oxygen demand of myocardium

Question 26

Identify three side effects of calcium channel antagonists

Answer 26

• Flushing
• Peripheral Oedema
• Headache and Dizziness

Question 27

Identify an example of an If channel antagonist and explain its effect

Answer 27

• Ivabradine

- Induces bradycardia by modulating ion channels in the sinus node

Question 28

When is PCI carried out?

Answer 28

• Single vessel disease
• Multi-vessel < 65 years
• Suitable anatomy

Question 29

Outline the procedure of PCI

Answer 29

• Guidewire passed across stenosis
• Ballon inflation to dilate stenosis
• Stent insertion to maximise dilation

Question 30

Identify three drugs that are combined with PCI to improve patient outcome

Answer 30

• Aspirin
• Heparin
• IIB/IIIa Receptor Antagonists

Question 31

Identify two examples of drug-eluting stents

Answer 31

• Cypher Stent, contains sirolimus, an immunosuppressant agent
• Taxus Stent, contains paclitaxel, a mitotic inhibitor

Question 32

Identify the main complication of PCI

Answer 32

• Occlusion

Question 33

Outline the evidence base of PCI

Answer 33

• Stents (drug-eluting) result in lower rates of stenosis
• More effective in alleviating angina than medical therapy
• Does not reduce mortality
• Carries risk of procedure-related MI

Question 34

When is CABG carried out?

Answer 34

• Unsuitable anatomy
• Multi-vessel > 65 years
• Diabetes

Question 35

Outline the procedure of CABG

Answer 35

• Bypassing coronary stenosis

- Using internal mammary arteries, radial arteries of reversed segments of saphenous vein

Question 36

Identify three drugs that are combined with CABG to improve patient outcome

Answer 36

• Aspirin

- Clopidogrel

Question 37

Which type of graft is more patent following surgery?

Answer 37

• Arterial grafts

Question 38

Outline the evidence base of CABG

Answer 38

• Superior to medical treatment in terms of survival
• Most effective in left main coronary artery
• Reduced need for repeat procedure compared to PCI
• Better survival rates in patients with diabetes compared to PCI

Question 39

Briefly outline unstable angina

Answer 39

• Deterioration of stable angina

- Symptoms occurring at rest

Question 40

Briefly outline refractory angina

Answer 40

• Revascularisation is not possible

- Angina is not controlled by medical therapy

Question 41

Briefly outline variant (Prinzmetal’s) angina

Answer 41

• Angina without provocation
• Characteristic ST elevation
• More common in women

Question 42

Briefly outline Cardiac Syndrome X

Answer 42

• Angina of unknown cause (normal exercise test and angiography)
• More common in women

Question 43

Identify four classes of angina

Answer 43

• Class 1: Angina with strenuous activity
• Class 2: Angina with normal activity
• Class 3: Angina with gentle activity
• Class 4: Angina at rest

Question 44

Outline the pathophysiology of myocardial infarction

Answer 44

• Cessation of blood flow with exception of collateral flow
• Stagnant Blood
• Engorged vessels and bluish-brown hue due to de-oxygenation
• Fluid leak and oedema
• Death of cardiac muscle cells

Question 45

How many millilitres of oxygen is required for each 100 grams of cardiac muscle?

Answer 45

• 1.3 ml

Question 46

Identify four causes of death after MI

Answer 46

• Decreased cardiac output resulting in shock
• Damming of blood resulting in pulmonary oedema
• Sudden ventricular fibrillation
• Rupture of the infarcted area resulting in cardiac tamponade

Question 47

What is a STEMI?

Answer 47

• Myocardial Infarction with ST elevation

- Occlusion involves entire thickness of the myocardium

Question 48

What is an NSTEMI?

Answer 48

• Myocardial Infarction without ST elevation

- Occlusion involves subendocardial zone of myocardium

Question 49

What is the difference between unstable angina and NSTEMI?

Answer 49

• In NSTEMI there is an occluding thrombus
• Resulting in myocardial necrosis
• And a rise in serum troponin or CK-MB

Question 50

Identify the five types of myocardial infarction

Answer 50

• Type 1: Ischaemia due to primary coronary event such as a plaque erosion/rupture
• Type 2: Ischaemia due to increased oxygen demands such as coronary embolism, anaemia, hypertension
• Type 3: Sudden cardiac death
• Type 3: PCI
• Type 5: CABG

Question 51

Identify signs and symptoms of a STEMI

Answer 51

• Chest pain that radiates to left arm, neck or jaw
• That does not respond to GTN
• Autonomic symptoms such as paleness and clamminess
• Thready pulse with hypotension, bradycardia or tachycardia

Question 52

How would you identify an anterior wall MI using ECG?

Answer 52

• ST elevation in V1-V3

Question 53

How would you identify an inferior wall MI using ECG?

Answer 53

• ST elevation in leads II, III and aVF

Question 54

How would you identify a posterior wall MI using ECG?

Answer 54

• ST depression in V1-V3
• Dominant R wave
• ST elevation in V5-V6

Question 55

How would you identify a lateral wall MI using ECG?

Answer 55

• ST elevation in leads I, aVL and V5-V6

Question 56

How would you identify an anterolateral wall MI using ECG?

Answer 56

• ST elevation in leads I, aVL and V2-V6

- Inverted T waves in leads I, aVL and V3-V6

Question 57

Identify the different types of troponin

Answer 57

• Troponin T: attaches complex to tropomyosin
• Troponin C: Binds calcium during excitation-contraction coupling
• Troponin I: Inhibits myosin binding site on actin

Question 58

What limits the accuracy of CK-MB as a biochemical marker in MI?

What is its alternative use as a biochemical marker?

Answer 58

• Low levels of CK-MB in the serum of normal individuals and in patients with significant skeletal muscle damage,
• Reinfarction as levels drop back to normal after
  36–72 hours.

Question 59

What is the Killip classification used for?

Answer 59

• To assess patients with heart failure post MI

Question 60

Describe the Killip Classification rankings

Answer 60

• 1: No crackles and no third heart sound
• 2: Crackles in <50% of the lung fields or a third heart sound
• 3: Crackles in >50% of the lung fields
• 4: Cardiogenic Shock

Question 61

Identify three causes of mitral regurgitation following MI

Answer 61

• Left ventricular dysfunction and dilation
• MI of inferior wall causing dysfunction of papillary muscle
• MI of papillary muscles

Question 62

What is the TIMI score?

Answer 62

• Used to determine likelihood of ischaemic events in patients with unstable angina or NSTEMI
• Risk factors include age, coronary artery disease, aspirin use, severe angina, ST deviation

Question 63

What is the GRACE score

Answer 63

• Used to predict mortality risk in STEMI and NSTEMI

- Based on age, heart rate, systolic pressure, serum creatinine and Killip score

Question 64

What is the role of aspirin

Answer 64

• Anti platelet

- NSAID

Question 65

Explain how aspirin results in platelet actication

Answer 65

• Inhibition of COX-1

- Inhibited production of thromboxane A2 and platelet activating factor

Question 66

Identify adverse effects of aspirin

Answer 66

• Gastrointestinal effects
• Postural encephalitis (Reye’s syndrome)
• Risk of bleeding if given with warfarin

Question 67

What is the role of ticagrelor?

Answer 67

• Anti-platelet

Question 68

Outline the mechanism of action of ticagrelor

Answer 68

• Blocks ADP receptors

- As ADP is used in activation of platelets

Question 69

Identify two side effects of ticagrelor

Answer 69

• Dyspnoea

- Bleeding

Question 70

Identify the mechanism of action of atorvastatin

Answer 70

• Inhibition of HMG-CoA reductase
• Reduced hepatic cholesterol synthesis
• Increased LDL receptor synthesis

Question 71

Identify three adverse effects of atorvastatin

Answer 71

• Gastrointestinal disturbance
• Myalgia
• Raised concentrations of liver enzymes in the plasma

Question 72

What is the active principle in Glyceryl Trinitrate?

Answer 72

• Nitric Oxide

Question 73

Explain how GTN results in vasodilation

Answer 73

• Activation of Guanylyl Cyclase
• Conversion of GTP to cGMP
• Activation of protein Kinase G
• Phosphorylation of proteins
• Inhibition of Ca2+ induced smooth muscle contraction

Question 74

Identify three effects of GTN

Answer 74

• Decreased afterload and preload
• Dilation of collateral vessel
• Antiatherosclerotic characteristics

Question 75

How is GTN administered and why?

Answer 75

• Sublingual spray

- To avoid first-pass metabolism

Question 76

Identify two side effects of GTN

Answer 76

• Headache

- Postural hypotension

Question 77

What is referred pain?

Answer 77

• Pain felt in a part of the body that is remote from the tissue causing the pain

Question 78

Where pain of acute myocardial ischaemia referred to?

Answer 78

• Skin areas supplied by intercostobrachial nerve (T2)
• Neck and jaw
• Epigastrium (T7,T8,T9 dermatomes)

Question 79

Chest Pain:

How would this present in: Acute coronary syndrome?

Answer 79

• Central crushing chest pain
• Radiating to left arm / jaw
• Duration of more than 20 minutes
• Associated with sweating / clamminess / nausea / shortness of breath
• Symptoms are worsened by expiration and improved with GTN spray

Question 80

Chest Pain:

How would this present in: Stable angina?

Answer 80

• Central chest pain
• Radiating to left arm / jaw
• Duration less than 20 minutes with full resolution
• Associated with shortness of breath
• Often triggered by exertion and resolved with GTN spray / rest

Question 81

Chest Pain:

How would this present in: Pericarditis?

Answer 81

• Central chest pain
• Worsened by lying flat and improved leaning forwards
• Patient may have had multiple episodes in the past

Question 82

Chest Pain:

How would this present in: Aortic dissection?

Answer 82

• Central chest / abdominal pain that is ‘tearing’ in nature
• Radiating through to the back
• May have associated syncope/ dizziness due to haemodynamic instability

Question 83

Chest Pain:

How would this present in: Pneumonia

Answer 83

• Sharp chest pained worsened by inspiration

- Associated with cough, shortness of breath, fever, malaise

Question 84

Chest Pain:

How would this present in: Spontaneous Pneumothorax

Answer 84

• Sudden onset of sharp chest pain that is pleuritic in nature
• Associated with shortness of breath

Question 85

Chest Pain:

How would this present in: Pulmonary Embolism

Answer 85

• Sudden onset of chest pain associated with shortness of breath

Question 86

Chest Pain:

How would this present in: GI Reflux

Answer 86

• Epigastric chest pain that is burning in nature and worsened by lying flat

Question 87

Chest Pain:

How would this present in: Oesophageal Spasm

Answer 87

• Epigastric chest pain with no associated shortness of breath
• That is relieved by GTN spray, hence can be confused with ACS.

Question 88

Which genes are affected in FH?

Answer 88

• LDL Receptor Gene

- Apo B100

Question 89

How many people are estimated to be heterozygous for a mutation in the LDLR gene?

Answer 89

• 1 in 500

Question 90

Identify the four main classes of mutations of the LDL receptor

Answer 90

• Reduced biosynthesis
• Reduces transport to cell surface
• Abnormal binding of LDL
• Abnormal internalisation of LDL

Question 91

Identify two clinical features of FH

Answer 91

• Corneal arcus

- Xanthelasma (xanthoma when larger and nodular)

Question 92

When is FH diagnosed?

Answer 92

• Total cholesterol level greater than 7.5 mmol/L

- Family history (cascade testing)

Question 93

Outline the mechanism of action of ezetimibe?

Answer 93

• Reduces intestinal cholesterol absorption

- By inhibiting intestinal mucosal transporter NPC1L1

Question 94

What are healthy total cholesterol levels?

Answer 94

• < 5 mmol/L

Question 95

What are healthy LDL-C levels?

Answer 95

• < 3 mmol/L

Question 96

What are healthy HDL-C levels?

Answer 96

• > 1 mmol/L

Question 97

What should the ratio of total cholesterol to HDL be?

Answer 97

• 4.5

Question 98

What is the role of psychology in coronary heart disease assessed in terms of?

Answer 98

• Beliefs about CHD
• Psychological impact of MI
• Predicting and changing risk factors
• Patient rehabilitation

Question 99

How can the Health Belief Model be applied to CHD?

Answer 99

Susceptibility: Belief that they will not have a heart attack

Severity: Belief that lots of people recover from heart attack and thus heart attacks are not that severe.

Costs: Belief that interventions to reduce the risk of coronary heart disease, such as exercise, would require a lot of effort

Question 100

What are predictors of non-attendance in cardiac rehabilitation programmes?

Answer 100

• Age
• Income
• Poor Health Beliefs

Question 101

Stress management involves teaching individuals about what?

Answer 101

• Theories of stress
• Encouraging people to be aware of the factors that can trigger stress
• Teaching people to reduce stress, including ‘self-talk’, relaxation-techniques and general lifestyle approaches such as time management and problem solving.
• Stress management appears to reduce some of the risk factors for CHD, including raised blood pressure, blood cholesterol and type A behaviour.
• Stress management reduces angina, which in turn could reduce the occurrence of myocardial infarctions.

Question 102

Outline Leventhal’s Self-Regulatory Model

Answer 102

• Illness is dealt with in the same way as any other problem
• Interpretation, coping and appraisal
• Until equilibrium is attained

Question 103

What is Cardiac Rehabilitation?

Answer 103

• Sum of activities required to influence underlying cause of CHD
• To improve physical, mental and social conditions
• Using a multidisciplinary approach

Question 104

Briefly outline the Evidence Base for Cardiac Rehabilitation

Answer 104

• Reduction in cardiovascular mortality (besides those with recurrent MI)
• Reduction in acute hospital admissions (including those with recurrent MI)
• Different models of CR delivery are equally effective
• Importance of early CR