week 2

Question 1

define atheroma

Answer 1

the accumulation of intracellular and extracellular lipids in the intima of large and medium sized arteries

Question 2

name the 3 macroscopic features of an atherosclerotic plaque

Answer 2

fatty streak
simple (fibrous) plaque
complicated plaque

Question 3

what is a fatty streak and what causes it

Answer 3

a slightly elevated zone on the arterial wall caused by accumulation of (a small number of) lipid cells

Question 4

what is a simple (fibrous) plaque

Answer 4

accumulation of lipids both free and in cells
smooth muscle cells migrate from the media
fibrosis develops around the lipid and forms a cap over the lesion

Question 5

what is a complicated plaque and what can it lead to

Answer 5

ulcers and fissures of the fibrous can expose plaque contents
can result in thrombosis

Question 6

what is atherosclerosis

Answer 6

thickening and hardening of arterial walls as a consequence of atheroma
results from accumulation of lipid, connective tissue, inflammatory cells and smooth muscle cells in the intima

Question 7

which layer of the artery has the most mechanical strength

Answer 7

medial (middle) layer

Question 8

how does plaque develop

Answer 8

not fully understood thought to be a response to injury- initiated by endothelial dysfunction

Question 9

name the 3 main components of plaques

Answer 9

lipid containing macrophages
extracellular matrix
cells, proliferating smooth muscle

Question 10

describe how LDL is removed from circulation

Answer 10

• removed by LDL receptors and scavenger cells (macrophages)
• 70% is removed via LDL receptor pathway

Question 11

where are most LDL receptor located- why is this significant

Answer 11

hepatocytes
hence liver is very important in LDL metabolism

Question 12

what do scavenger cells do to LDL
when do they do this?

Answer 12

oxidise it
this happens when the patients diet contains a high level of trans fats, they smoke or have poorly controlled diabetes

Question 13

how is hyperlipidaemia related to plaque formation

Answer 13

• when LDL becomes oxidised it enters the endothelium and may alter endothelium permeability
• this promotes accumulation of lymphocytes, dendritic cells and macrophages
• platelets can stick to areas of inflammation and cause hardened areas- called plaques
• oxidised cholesterol loaded macrophages forms a ‘foam cell’ and the plaque gets thicker
• macrophages release growth factors which recruit smooth muscle- these may form a cap around the plaque

Question 14

non drug prevention of plaque formation

Answer 14

• smoking cessation
• reduce fat intake
• high intake fruit+veg
• alcohol in moderation
• regular exercise and weight management

Question 15

MOA of aspirin

Answer 15

thromboxane A2 - platelet agonist produced by platelets
- aspirin bocks production of thromboxane A2 by inhibiting the platelet enzyme responsible for its synthesis- COX1
- action of aspirin on COX1 is permanent- lasting the lifetime of platelet (7-10 days)

Question 16

clopidogrel mode of action

Answer 16

clopidogrel is an irreversible inhibitor of ADP (a platelet agonist produced and released by platelets) receptor on platelets (P2Y12 receptors) and so prevents ADP from activating platelets

Question 17

statin MOA

Answer 17

HMG-coA reductase inhibitors- HMG-coA is involved in the synthesis of cholesterol
so statins reduce cholesterol synthesis in the liver and increase LDL-cholesterol clearance from the blood

(- given at bedtime because cholesterol synthesis is cyclical with greatest production during fasting states)

Question 18

antiplatelet antithrombotic functions (3)

Answer 18

adenosine diphosphatase (degrades ADP from platelets)
prostacyclin (produced by the enzyme cyclooxygenase)
nitric oxide

Question 19

anticoagulant antithrombotic functions (3)

Answer 19

heparin-like molecules (activate antithrombin 3)
thrombomodulin (activates protein C)
protein S

Question 20

fibrinolytic antithrombin functions

Answer 20

prevents blood clots from growing
t-PA

Question 21

procoagulant functions (3)

Answer 21

• production of vWF
• production of tissue factor
• binding of factors IXa and Xa

Question 22

platelet adhesion and activation

Answer 22

• adherent platelets release ADP and thromboxane A2
• ADP and thromboxane A2 are platelet agonists, activate more platelets and recruit them to site of vascular injury

Question 23

how long can a prescriber take to give a physical Rx after an emergency supply done over the phone, email or fax

Answer 23

72h

Question 24

what is the maximum quantity a prescriber can give via an emergency supply

Answer 24

any quantity

Question 25

which CD schedules can be given via emergency supply- prescriber request

Answer 25

schedule 4 (ie zopiclone) and 5 (ie co-codamol)

Question 26

what is the max quantity that can be given via a emergency supply- patient request

Answer 26

30 days treatment

Question 27

POM register requirements

Answer 27

• entry to be made day of supply or next day
• prescription date
• medicine details
• prescriber details
• patient details inc why supply was needed (if patient request)
• must be kept for 2 years from last entry
• if CD - only needs to go in CD register
• don’t need to put oral contraceptives in it

Question 28

CPUS - patient eligibility (4)

Answer 28

• registered with Scottish GP practice - even if temp
• item has previously been prescribed
• if second supply in a row- shouldn’t really do it
• can give up to 1 repeat cycle so if patient normally gets 2 months - we can give this

Question 29

define ischaemia

Answer 29

insufficiency in blood supply- coronary arteries are the only source of blood for heart muscle- if these are blocked the blood supply to the heart will reduce- resulting in chest pain called angina

Question 30

what is the cause of angina

Answer 30

angina is the result of ischema caused by an imbalance between myocardial blood supply and oxygen demand

Question 31

when does stable angina occur

Answer 31

occurs when coronary perfusion is impaired by fixed or stable atheroma or coronary arteries

Question 32

name the 6 different stable anginas

Answer 32

• exertional angina
• anginal equivalent syndrome
• syndrome x
• silent ischemia
• decubitus angina
• nocturnal angina

Question 33

exertional angina

Answer 33

*Arises from an increase in myocardial oxygen demand during exertion or emotion. Relief occurs by rest and nitroglycerine.
*Coronary artery obstructions are not sufficient to result in resting myocardial ischemia.

Question 34

anginal equivalent syndrome

Answer 34

• Caused by myocardial ischemia
• Symptoms= shortness of breath or pain at a site- other than the chest (eg arm/ jaw)

Question 35

syndrome x

Answer 35

• Typical, exertional angina with positive exercise stress test
• Anatomically normal coronary arteries
• Reduced capacity of vasodilation in microvasculature
• Long term prognosis is very good

Question 36

silent ischemia

Answer 36

• very common
• More episodes of silent than painful ischemia in the same patient
• Difficult to diagnose
• Holter monitor (records heart rate and rhythm over a 24-hour period )
• Exercise testing

Question 37

decubitus angina

Answer 37

• chest pain only occurs while lying down
• Usually associated with impaired left ventricular function
• Patient usually has severe coronary artery disease
• Occurs because gravity redistributes fluid in the body- which makes the heart work harder

Question 38

nocturnal angina

Answer 38

• Awakes patient from sleep
• May be provoked by vivid dreams
• It may occur due to coronary artery spasm

Question 39

unstable angina

Answer 39

• Is characterised by rapidly worsening chest pain on minimal exertion or rest
• Is associated with an ulcerated atheroma and thrombus formation- this produces a greater reduction of coronary blood flow to produce angina at rest

Question 40

Prinzmetals

Answer 40

• Coronary artery spasm- sudden involuntary contraction of smooth muscle tissue of coronary artery
• Spasm temporarily narrows the coronary artery
• Causes transient impairment of coronary blood supply
• Not due to atherosclerosis or platelet aggregation
• Usually occurs at rest
• Majority of patients have an atherosclerotic plaque but is it often minor when compared to extent of pain
• Long term prognosis is very good

Question 41

what are the 3 common causes of angina

Answer 41

• atherosclerosis with blood clot
• atherosclerosis
• spasm

Question 42

cause of prinzmetal’s angina

Answer 42

coronary spasm

Question 43

cause of syndrome X- microvascular angina

Answer 43

abnormal contraction or deficient endothelial- dependent relaxation of resistant vessels associated with diffuse vascular disease

Question 44

define class one angina

Answer 44

angina only during strenuous or prolonged physical activity

Question 45

define class two angina

Answer 45

light limitation with angina only during vigorous physical activity

Question 46

define class three angina

Answer 46

moderate limitation - symptoms with everyday living activities

Question 47

define class four angina

Answer 47

severe limitation
inability to perform any activity without angina or angina at rest

Question 48

define exercise testing of angina

Answer 48

goal- is to induce a controlled, temporary ischemia state during clinical ECG observation (ST segment depression occurs with ischemia and reverses after ischemia disappears

normally treadmill/ bicycle - incline+ speed increase every 3 min

Question 49

unstable angina characteristics

Answer 49

• angina at rest, not responding to therapy
• recent onset, less than 1 month
• increased frequency and duration of episode
• may be a serious indicator of an impending heart attack

Question 50

why do plaques rupture

Answer 50

interplay between plaque vulnerability and external stresses
depends on plaque composition rather than plaque size
plaques rich in soft extracellular lipids are vulnerable to rupture- presence of smooth cells may provide resistance to rupturing

Question 51

SIGN guidlines- first line for angina

Answer 51

beta blocker - bisoprolol 5mg once daily

can also give GTN spray too - to be used for immediate relief or before activities known to trigger

Question 52

SIGN guidelines- second line for angina

Answer 52

if B blocker maxed out or in-tolerated - add or swap to calcium channel blocker ie nicorandil- 5mg 2x daily

Question 53

how do beta blockers work

Answer 53

decrease oxygen demand of myocardium by lowering both rate and force of contractility of the heart

Question 54

how do calcium channel blockers work?

Answer 54

stop calcium entering the cell
calcium influx is increased in ischemia because of the membrane depolarisation that hypoxia produces
calcium is essential for muscle contraction

Question 55

how do nitrates work (GTN)?

Answer 55

nitrates relax coronary arteries by decreasing coronary vasoconstriction or spasm and increase perfusion of the myocardium
they also relax veins, decreasing preload and myocardial oxygen consumption
nitrates donate nitric oxide which stimulates cyclic guanosine monophosphate cGMP cyclase that can release calcium in muscle

Question 56

how do potassium channel activators work?

Answer 56

(nicorandil)
activation of K+ATP channels on smooth muscle cells hyperpolarises the membrane and decreases calcium entry
K+ATP channels in the mitochondria in the myocardium may be involved in response to nicorandil

Question 57

what is the definition of an myocardial infarction (MI)?

Answer 57

heart attack- the interruption of blood supply to part of the heart - causing some heart cells to die

Question 58

where does most thrombus formation occur (relating to an MI)?

Answer 58

site of an atherosclerotic lesion - this obstructs the blood flow to the myocardial tissues

Question 59

what is thought to be the triggering mechanism for the development of thrombus in patients with an MI?

Answer 59

plaque rupture

Question 60

how does plaque rupture cause an MI ?

Answer 60

when a plaque ruptures, a thrombus is formed at the site- this can occlude blood flow- thus resulting in an MI

Question 61

what causes a plaque to rupture?

Answer 61

• what they are made of (plaques rich in soft extracellular lipids are vulnerable to rupture)
• extracellular lipid accumulation (lipid core formulation) and cap weakening predispose the plaque to rupture

Question 62

what is NSTEMI?

Answer 62

non ST segment elevation myocardial infarction
- occurs by developing a complete occlusion of a minor artery previously by atherosclerosis
- this causes a partial thickness damage of the heart muscle

Question 63

what is STEMI?

Answer 63

ST segment elevation myocardial infarction
- occurs by development of a complete occlusion of a major coronary artery previously affected by atherosclerosis- this causes a thickness damage of heart muscle

Question 64

is a shorter time between coronary occlusion and coronary perfusion better? why?

Answer 64

yes- less damage and greater amount of myocardial tissue that may be saved

Question 65

how early can irreversible damage occur after blood flow is interrupted

Answer 65

20-40 mins

Question 66

where may cellular death occur after an MI

Answer 66

subendocardial layer- it can then spread through the thickness of the wall of the heart

Question 67

how long do we have to restore blood flow in order to save a substantial amount of myocardial tissue

Answer 67

6 hours from the onset of coronary occlusion

Question 68

name 3 cellular changes associated with the initial MI

Answer 68

• development of infarct extension (new myocardial necrosis)
• infarct expansion (a disproportionate thinning and dilation of the infarct zone)
• ventricular remodelling (a disproportionate thinning and dilation of ventricle) resulting in an enlarged heart

Question 69

name 5 symptoms of an MI

Answer 69

• chest pain (may radiate to neck, left arm or jaw)
• sweating
• nausea/ vomiting (may arise from severity of pain and resulting vagal stimulation)
• breathing difficulty (squeezing, choking or smothering sensations)
• heavy feeling in the chest- like someone is sitting on them

Question 70

name 4 biochemical markers of an MI

Answer 70

• development of pathologic Q waves on ECG
• development of ST segment elevation or depression on ECG
• a rise and gradual fall in troponin
• rapid rise and fall of creatine kinase MB

Question 71

what is troponin ?

Answer 71

• troponin T and troponin I- components of the myofilamet troponin complex- released from damaged muscle- release prolonged with actin and myosin damage

Question 72

when do troponin I levels rise, how long are the elevated for, when do they peak?

Answer 72

rise in about 3 hours, peak at 14 to 18 hours, and remain elevated for 5 to 7 days

Question 73

when do troponin T levels rise, how long are the elevated for ?

Answer 73

3 to 5 hours and remain elevated for 10 to 14 days

Question 74

what is high sensitivity troponin used for

Answer 74

to detect OR rule out an MI

Question 75

what does an elecsys look for?

Answer 75

troponin T

Question 76

what does an architect stat look for?

Answer 76

troponin I

Question 77

what is myoglobin?

Answer 77

an oxygen- binding protein found in skeletal muscle and cardiac muscle
its release from ischemic muscle occurs earlier than release of CK (creatine kinase)

Question 78

when do myoglobin levels rise and when do they peak?

Answer 78

can elevate within 1 to 2 hours of acute MI and peaks within 3 to 15 hours

Question 79

why is elevated myoglobin not specific to an MI?

Answer 79

because it is also found in skeletal muscle - therefore its use in diagnosing an MI is limited

Question 80

what does creatine kinase do (CK)?

Answer 80

catalyses the conversion of creatine and utilises ATP to create phosphocreatine and ADP
the CK enzyme reaction is reversible and thus ATP can be generated from PCr and ADP

Question 81

what is LDH?

Answer 81

• lactate dehydrogenase
• a tertraeric protein and made up of 2 types of subunit- H=heart and M=muscle
• exists as 5 different isoenzymes

Question 82

what is LDH elevated in? (2)

Answer 82

MI
blood disorders

Question 83

what are the cells that make up the stratum corneum? (3)

Answer 83

• keratinocytes
• melanocytes
• langerhans

Question 84

what are the 3 routes drugs use to penetrate the stratum corneum ?

Answer 84

• shunt route
• transcellular route
• intracellular route

Question 85

name 5 physiochemical properties that affect transdermal drug delivery

Answer 85

• ability to cross lipid bilayers (especially corneocytes)
• diffusion through aqueous environments (viable epidermis)
• Mw- under 500 Da
• log P between 1-4
• max daily dose 10mg

Question 86

how does alcohol help with transdermal drug delivery?

Answer 86

partitions into skin
sets up a transient reservoir for drug to partition into
drives maximum thermodynamic activity

Question 87

how does occlusion increase transdermal drug delivery ?

Answer 87

• hydrates skin by blocking transdermal water loss
• hydration increases permeability of the skin
• EMLA cream applied under occlusive dressing

Question 88

what does Franz diffusion measure?

Answer 88

skin permeation

Question 89

name 4 advantages of transdermal drug patches

Answer 89

• avoids harsh GIT environment
• avoids first pass metabolism
• patches can be easily applied and removed
• high patient compliance

Question 90

why can we not cut patches?

Answer 90

cutting the patch damages the membrane that controls drug release

Question 91

name 2 limitations of transdermal drug delivery

Answer 91

• low dose of drug only
• drug needs to meet specific physiochemical property criteria

Question 92

what is first generation transdermal delivery?

Answer 92

transdermal patches

Question 93

name one limitation of first generation transdermal delivery

Answer 93

barrier function of stratum corneum

Question 94

what is second generation transdermal drug delivery ?

Answer 94

uses skin permeability enhancers - improves delivery for small Mw drugs

Question 95

what are the requirements for second generation TDD?

Answer 95

• Increase skin permeability
• Reversibly disrupting stratum corneum structure
• Provide an added driving force for transport into the skin
• Avoid injury to deeper, living tissues
• Non-toxic
• Non-irritant
• Compatibility with drugs and excipients
• Patient acceptability

Question 96

how does oelic acid enhance drug delivery?

Answer 96

causes fluidisation

Question 97

how does dimethylsulfoxide enhance drug delivery?

Answer 97

interacts with polar head groups of lipids- causes fluidisation

Question 98

how does azone enhance drug delivery?

Answer 98

• Polarity alteration
• Phase separation
• Makes more fluid
• Rearranges lipids

Question 99

what’s third generation transdermal drug delivery?

Answer 99

disruption of the stratum corneum

Question 100

what is micro needle assisted drug delivery?

Answer 100

3rd generation
- small needles that make holes in stratum corneum to improve drug delivery
- long enough to reach epidermis but short enough to avoid pain receptors in the dermis

Question 101

what is electrically assisted drug delivery?

Answer 101

3rd generation
- example- radio frequency electrical cell ablation- makes small holes in the stratum corneum due to thermal ablation- helps drug get through

Question 102

which 2 groups of patients are less likely to have severe chest pain with an MI?

Answer 102

• diabetic patients
• women

Question 103

what is the cause of pain associated with an MI?

Answer 103

lack of oxygen

Question 104

what should we give to a patient experiencing an MI? why?

Answer 104

300mg aspirin
reduces mortality by 21%- due to anti platelet effects

Question 105

in a patent with an MI- we should give GTN- what preparation should we use?

Answer 105

undiluted infusion
1mg/ hour
dose is dependent on pain and BP (can make BP too low)

Question 106

in a patent with an MI- we should give morphine- what preparation should we use? why?

Answer 106

• severe pain- needs to be strong
• also morphine reduces acute anxiety so helps the patient relax
• 5-10mg IV (quick)

Question 107

what is a common side effect of morphine and how to we combat it (MI management)?

Answer 107

nausea/ vomiting
- give metoclopramide - antiemetic 10mg IV

Question 108

when should we use oxygen treatment in MI management?

Answer 108

when patients oxygen saturation is less than 94%

Question 109

why do we give fondaparinux in MI management, what is the dose?

Answer 109

helps blood flow again (reperfussion)
2.5mg subcutaneous

Question 110

what tests do we need to do on an MI patient right away? why? (5)

Answer 110

full blood count- looking to measure haemoglobin- ensure patient is not anaemic – this can cause chest pain because it transports oxygen, need to know platelets are in normal range

kidney function- meds can affect kidney function

liver function - need to check before starting statin

cardiac enzymes - troponin, CK, LDH, NSTEMI, STEMI

cholesterol - important to do asap as can get a false low reading after starting meds

Question 111

why do we want to do a chest Xray on an MI patient?

Answer 111

• to see if fluid in the lungs
• enlarged heart?? (long term hypertension)
• can rule out other things such as pneumonia

Question 112

can we diagnose an MI from an Xray?

Answer 112

nope- we use it to rule out other things

Question 113

what is the problem with using CK-MB?

Answer 113

not specific to having an MI
- elevated when doing other things - ie running a marathon

Question 114

what is the ejection fraction?

Answer 114

a percentage of how much blood the LV pumps out with each contraction

normal - 50-70%
moderate- 41-49%
poor <40%

Question 115

what trigger the release of angiotensin 1?

Answer 115

renin

Question 116

why are beta blockers not first line in hypertension?

Answer 116

no evidence to say they reduce risk of stroke

Question 117

state one example of an alpha adrenoreceptor blocker

Answer 117

doxazosin

Question 118

why is doxazosin used in Benign prostatic hyperplasia?

Answer 118

doxazosin is an alpha receptor blocker- High no of alpha receptors in prostate – adrenaline stimulates these to cause prostate enlargement and affect urinary output

Question 119

how long do we wait after starting an ACEi to increase dose?

Answer 119

need to wait 4 weeks then check BP again - then can increase dose if no/ not enough improvement
also need to check renal function 1-2 weeks after starting a new dose

Question 120

statin MOA

Answer 120

Reduce risk by- pleiotropic effect
* Makes plaque more flexible- reduced plaque fracture which reduces risk of blood clot and therefore reduces stroke+ MI risk

ESR (inflammatory marker)
* When started stain- this reduces- reduction in inflammation- lining of arterial blood vessels- reduces plaque fracture

(hydroxymethyl glutamate) HMG coA inhibitors = statins
* HMG coA- catalyses final step in cholesterol production
* Only reduce cholesterol by 10-20%- this is fine
* Cholesterol is essential in many processes

Question 121

why are NSAIDs not recommend in hypertensive patients

Answer 121

can exacerbate his high BP- increases sodium reabsorption, and therefore water reabsorption

Propryonic acid – base of NSAIDs- excreted by kidney- body gets confused between this and sodium- it prefers to excrete propryonic acid of sodium- therefore sodium retention

Question 122

why are soluble tablets not the best choice in a hypertensive patient?

Answer 122

they contain lots of sodium

Question 123

63-year-old white male, BP 160/95. No PMH (past med history) or DH (drug history)

what do we do? why?

Answer 123

start on a calcium channel blocker - over 55 so likely to be over stimulation of sympathetic drive

amlodipine 5mg once daily

Question 124

56-year-old south Asian female, BP 162/90. PMH: HBP; DH: enalapril 40mg daily

what do we do? why?

Answer 124

start calcium channel blocker- over 55 and south asian- so likely to be over stimulation of sympathetic drive

amlodipine 5mg once daily
40mg of enalapril is max dose

Question 125

what is the maximum dose of enalapril?

Answer 125

40mg daily

Question 126

52-year-old white female, BP 170/96. No PMH: Mean ABPH mean 130/66

what do we do? why?

Answer 126

nothing - no drug treatment required as this is whitecoat hypertension

Question 127

50-year-old white male, BP 146/88. no PMH or DH

what do we do? why?

Answer 127

lifestyle advice- see how that goes
if no improvement start on an ACEi - under 55 so likely to be angiotensin, aldosterone system defect
ramipril 2.5mg daily to start

Question 128

what are the functional groups of aspirin?

Answer 128

carboxylic acid
aromatic ester group

Question 129

describe aspirin degradation

Answer 129

Ester gets hydrolysed when water is present
gives salicylic acid and acetic acid (smells like vinegar)

Question 130

why is aspirin not recommended for children under 16 years old?

Answer 130

it can cause Reye’s syndrome