126 - Angina

Question 1

Define stable angina

Answer 1

Reversible ischaemia to the myocardium brought on by increased work load. It is relieved by rest.

Question 2

What presenting complaint might someone with angina have?

Answer 2

Retrosternal pain
Tight, crushing over chest
Radiation to arm/jaw
Lasts minutes

Question 3

When suspecting angina, what serious conditions must you be careful not to miss?

Answer 3

MI (pain longer?)
PE (pain when breathing)
Tension Pneumothorax (pain when breathing)
Dissecting aneurysm

Question 4

Someone comes in with pain in their chest in the early afternoon, he works in an office and usually eats lunch with colleagues. What might you suspect?

Answer 4

Reflux not angina?

Question 5

Someone presents with chest pain and tightness of breath. They mention they have had a bit of a rash. What might it be?

Answer 5

Varicella Zoster

Question 6

What routine investigations would you begin with when investigating for angina?

Answer 6

ECG
Routine bloods
Chest X ray

Question 7

If you wanted to learn more about the anatomical issues going on in someones angina, what investigations could you do?

Answer 7

CT
Coronary angiogram
Invasive angiogram with IVUS
Functional Flow Reserve
Virtual histololgy

Question 8

To stimulate angina and see how someones heart reacts, what type of tests would you suggest, name some examples?

Answer 8

Functional tests:

• ETT : exercise tolerance test
• Dobutamine stress + echo
• Adenosine stress + nuclear imagine/MRI/PET

Question 9

What race of people are at a higher risk of angina?

Answer 9

South west asians

Question 10

In the 65-75 year old population, what proportion of men and women have angina?

Answer 10

14% of men

8% of women

Question 11

Why are coronary angiograms performed?

Answer 11

They are the gold standard technique at investigating coronary artery disease.
Help plan treatment - crucial before surgery

Question 12

Where is access usually made for a coronary angiogram?

Answer 12

Femoral artery or vein
Brachial or radial artery (easy to get to)
Internal jugular or subclavian - eg. obese patient, hard to get jugular.

Question 13

What are the key areas of focus in management of angina?

Answer 13

Lifestyle advice
Medical management
Revascularisation - percutaneous or surgically

Question 14

What two first line drugs would you give in angina?

Answer 14

Nitrates - eg. GTN

B-blockers - eg. Bisoprolol

Question 15

If B-blockers were contraindicated in a patient with angina, what 2nd line alternative could you use?

Answer 15

Calcium channel blockers - eg. Amlodipine or Verapamil

Question 16

There are 4 3rd line drugs that can be used in angina, if symptoms persist of patients have many contraindications. What are they?

Answer 16

Longer acting Nitrates - eg. isosobide mononitrate

Potassium channel activators eg. Nicorandil

Ivabradine (blocks pacemaker channel in SA node)

Ranolazine (add on by cardiologist only)

Question 17

As well as GTN and a B blocker, what else may you prescribe someone with angina?

Answer 17

Statins - stabalise plaques
ACE inhibitors - reduce BP
Antiplatelets - eg. asprin

Question 18

What acronym + drugs would use use int he initial management of someone with suspected acute coronary syndrome?

Answer 18

MONA
Morphine
Oxygen therapy
Nitrates
Antiplatelets

Question 19

What acronym and drugs should all patients post MI be given?

Answer 19

MI 5 drugs:
Aspirin
Clopidogrel
ACE inhibitor
B-Blocker
Statin

Question 20

What does aspirin do?

Answer 20

It inhibits COX1 and COX2 enzymes, inhibiting platelet aggregation

Question 21

What does clopidogrel do?

Answer 21

It is an antiplatelet

It blocks P2Y12 part of adenosine receptor on platelet surfaces

Question 22

What do ACE-inhibitors do?

Answer 22

The lower BP by prefenting angiotensin I becomeing angiotensin II, which prevents vasoconstriction. IT also prevents aldosterone production which reduces sodium and water retention.

Question 23

What side effect may you get on ramipril?

Answer 23

A ACE-inhibitor. Dry cough

Question 24

How do B-Blockers work?

Answer 24

They reduce HR and contractility by reducing the sympathetic drive to the heart.

Question 25

How do statins work?

Answer 25

They reduce lipid and slow cholesterol production. They stablise plaques.

Question 26

What drink is contraindicated if you are taking statins?

Answer 26

Grapefruit juice!

Question 27

Define hypoxia

Answer 27

Lack of O2, causes reduced aerobic respiration causing cell injury

Question 28

Define ischaemia

Answer 28

Lack of blood supply means there is a lack of O2 and essential metabolites - causing cell injury (more rapidly than just hypoxia)

Question 29

What is infarction?

Answer 29

Irreversible cell damage and death due to ischemia and hypoxia

Question 30

What 4 changes occur in cell injury pathophysiology?

Answer 30

Decreased ATP
Membrane damage
Increased intracellular Ca
Increased O2 derived free radicles

Question 31

What is ischaemia-re-perfusion injury?

Answer 31

When blood is restored to a ischaemic tissue is may resolve, or the cells may die despite the damage being reversible - as cells have high levels of O2 free radicals, complements and inflammation.

Question 32

What is an atheroma?

Answer 32

an accumulation of lipid and fibrous tissue within the intima of arteries - form plaques

Question 33

What are the characteristics of a stable plaque?

Answer 33

Concentric shape
High proportion of fibrous stroma
Lots of smooth muscle

Question 34

What are the characteristics of an unstable plaque?

Answer 34

Eccentric shape
Lots of lipid, macrophages and inflammation
Endothelial cell injury.

Question 35

What is in the core of an atheroma plaque?

Answer 35

Lipid, cholesterol, cellular debris, crystals, foam cells

Question 36

What covers the core of an atheroma plaque?

Answer 36

A fibrous cap - made of collagen, elastin, smooth muscle and stroma (supportive tissue of epithelial tissue)

Question 37

What is found between the layers of an atheromatous plaque?

Answer 37

A cellular area of T lymphocytes and macrophages

Question 38

What are the complications of atherosclerosis?

Answer 38

Gradual narrowing of the artery
Ulceration of the plaque
Rupture and fissuring of the plaque - emboli
Superimposed thrombus

Plaque could rupture - thrombosis - occlusion of the coronary artery - MI

Question 39

What complications are there from having an MI?

Answer 39

Death!
Arrhythmias
Left ventricular failure
Ventricular wall rupture
Aneurysms

Question 40

What is blood flow driven by?

Answer 40

Pressure difference

Question 41

What is darcy’s law?

Answer 41

Flow is proportional to change in pressure / resistance

Question 42

What type of flow does darcy’s law apply to? Where is this flow found?

Answer 42

Laminar flow - in arteries, veins.

Not in the heart or diseased vessels - turbulant flow

Question 43

What causes resistance in vessels?

Answer 43

Depends on the viscosity of fluid and the radius of the vessel.

No-slip condition
- The speed of flow depends on how close to the edge of the vessel you are, with the layer directly touching the wall being static, and the middle section moving fastest with least resistance.

Question 44

When darcy’s law is combined with the variables of resistance, what is it called?

Answer 44

Poiseuilles law

Question 45

What is the Fahraeus-Lindquist effect?

Answer 45

The viscosity of blood depends on the width/radius of the vessel - at the width of a capillary the viscosity is lowest, as the width increases or decreases from that side it gets more viscous.

Question 46

Why does the Fahraeus-Lindquist effect occur?

Answer 46

Due to axial streaming
There is a cell free zone on the edge of fluid in vessels, so cells can go quickly down the middle.
In capillaries there is bolus flow, which reduces friction.

Question 47

What is the sheer rate?

Answer 47

The rate of change of velocity between teo fluid layers moving over the top of each other

Question 48

How is viscosity related to sheer rate?

Answer 48

Increase sheer rate - decrease viscosity
Decrease sheer rate - increase viscosity
As RBC form rouleux piles at slower speeds, so become more viscous

Question 49

How is haemocrit involved in viscosity?

Answer 49

Increasing heamocrit increases the bloods viscosity - so must be careful in anaemia, as reduced heamocrit, reduced viscosity, so need to increase cardiac output for BP to remain stable.

Question 50

Describe 3 ways to measure local blood flow

Answer 50

Kety’s tissue clearance - inject radioactive material, see how levels fall.
Venous occlusion plethysmography - Inflate a cuff, occlude the vein, use a strain gauge to measure swelling - estimate arterial supply.
Flick’s principle: of pulmonary blood flow can be adapted to any organ.

Question 51

What extrinsic and intrinsic methods does the body have to regulate blood flow?

Answer 51

Extrinsic = nerves, hormones, human altering response

Intrinsic = Autoregulation, active hyperaemia, NO

Question 52

How does autoregulation of local blood flow work?

Answer 52

The heart, kidneys and brain are able to stablise blood flow despite a rnage of BPs.

Direct response in arterioles to increased pressure - stretch vessel - Ca released - they vasoconstrict
- If blood flow flass, metabolic waste builds up, which dilates vessels

Question 53

How does active hyperaemia of local blood flow work?

Answer 53

Flow is dependant on metabolic rate of an organ, so cardiac output is spread amongst organs. Due to vasodilator metabolites eg. CO2, O2, Lactate, adenosine, H+, K+, Po4-.
Autacoids (lik local enzymes) from damaged tissue also causes dilation

Question 54

How does the human alerting response work? How did they test it?

Answer 54

Shows extrinsic can override intrinsic. The ANS vasomotor nerves cause dilation or constriction.

• sympathetic vasoconstrictors - innervate vessles, noradrenaline acts on alpha1 vascular smooth muscle, which dilates or constricts.
• Parasymphathetic vasoconstrictors and vasodilatoes also act.

Test: told a man he was having a massive blood leak from his arm during a procedure (despite there not really being one). Blood flow increased to this arm.