SNS Antagonists

Question 1

Difference between metabolism of NT in PSNS and SNS?

Answer 1

NA is reuptaken into tissue for metabolism, whereas ACh is broken down in the synapse

Question 2

Which adrenoceptor is primarily responsible for increased cardiac rate and force

Answer 2

B1

Question 3

Which adrenoceptor is primarily responsible for relaxation of the GIT

Answer 3

A1 and B1

Question 4

Which adrenoceptor is primarily responsible for renin release from the kidney

Answer 4

B1

Question 5

Which adrenoceptor is primarily responsible for bronchodilation

Answer 5

B2

Question 6

Which adrenoceptor is primarily responsible for vasodilation

Answer 6

B2

Question 7

Which adrenoceptor is primarily responsible for relaxation of visceral smooth muscle

Answer 7

B2

Question 8

Which adrenoceptor is primarily responsible for hepatic glycogenolysis

Answer 8

B2

Question 9

Which adrenoceptor is primarily responsible for lipolysis

Answer 9

B3

Question 10

Which adrenoceptor is primarily responsible for CNS actions

Answer 10

A2

Question 11

Which adrenoceptor is primarily responsible for contraction of vascular smooth muscle

Answer 11

A2

Question 12

Which adrenoceptor is primarily responsible for inhibition of NT release

Answer 12

A2

Question 13

Which adrenoceptor is primarily responsible for vasoconstriction

Answer 13

A1

Question 14

What selectivity does this drug have: carvedilol

Answer 14

A1 and B1 antagonism

Question 15

What selectivity does this drug have: phentolamine

Answer 15

A1 and A2 antagonism

Question 16

What selectivity does this drug have: prazosin

Answer 16

A1 antagonism

Question 17

What selectivity does this drug have: propranolol

Answer 17

B1 and B2 antagonism

Question 18

What selectivity does this drug have: atenolol

Answer 18

B1 antagonism

Question 19

Drug that has antagonistic selectivity for: A1 and B1

Answer 19

carvedilol

Question 20

Drug that has antagonistic selectivity for: A1

Answer 20

prazosin

Question 21

Drug that has antagonistic selectivity for: A1 and A2

Answer 21

phentolamine

Question 22

Drug that has antagonistic selectivity for: B1

Answer 22

atenolol

Question 23

name 5 adrenoceptor antagonists

Answer 23

carvedilol, phentolamine, prazosin, propranolol, atenolol

Question 24

Main uses of SNS antagonists?

Answer 24

• Hypertension
• Cardiac Arrhythmias
• Angina
• Glaucoma

Question 25

What adrenoceptor controls the heart sympathetically

Answer 25

B1

Question 26

What adrenoceptor controls renin release sympathetically

Answer 26

B1

Question 27

Tissue Targets for Anti-hypertensives (5)

Answer 27

Sympa nerves, kidneys, heart, arterioles, and CNS

Question 28

How is the CNS involved in BP

Answer 28

baroreceptors setting BP

Question 29

which receptor blockade has positive and which has negative of B1 and 2

Answer 29

most of the POSITIVE effects are from Beta 1 blockade and most of the NEGATIVE effects are from Beta 2 blockade

Question 30

Which adrenoceptors are found in Sympa nerves, kidneys, heart, arterioles, and CNS

Answer 30

The heart has B1 receptors, sympa nerves have B1 and B2, kidney has B1 and CNS has B1 and B2. Arterioles have no B receptor

Question 31

Blockade of what where has the biggest impact on reducing BP and why

Answer 31

B1 in the kidneys as renin secretion falls reducing TPR

Question 32

How do BB’s work to reduce BP (30

Answer 32

• Act in the CNS to reduce sympathetic drive
• Act on the beta 1 receptors in the heart to reduce heart rate and reduce cardiac output but this effect disappears with chronic treatment - the heart resets itself
• Acts on the KIDNEYS on the beta 1 receptors to REDUCE RENIN PRODUCTION

Question 33

`What are Presynaptic Beta 1/2 Receptors, how common are they?

Answer 33

These presynaptic beta receptors have a positive facilitation effect on the synthesis and release of a neurotransmitter. These receptors are not found in all nerve endings but they can have a major effect.

Question 34

What effect does interfering with Presynaptic Beta 1/2 Receptors have

Answer 34

If you block the beta 1 then you remove this positive facilitation effect and reduce the amount of noradrenaline coming from the nerve terminal.

Question 35

What has superseded BB as antihypertensives and why

Answer 35

ACE inhibitors have superceded beta blockers as there are less side effects.

Question 36

Unwanted effects of Beta blockers? (6)

Answer 36

BRONCHOCONSTRICTION, CARDIAC FAILURE, HYPOGLYCAEMIA, FATIGUE, COLD EXTREMITIES, BAD DREAMS

Question 37

Which preexisting conditions mean you do not prescribe BBs (4)

Answer 37

o ASTHMA
o COPD
o CARDIAC FAILURE
o DIABETES

Question 38

Drug that is beta non-selective?

Answer 38

Propranolol

Question 39

when is the effect of propranolol particularly evident

Answer 39

when exercising

Question 40

What is a cardioselective BB

Answer 40

Atenolol

Question 41

Main areas that atenolol affects?

Answer 41

Heart and kidneys beta1 receptors

Question 42

Carvedilol is most selective for, and then followed by?

Answer 42

B1 and then A1

Question 43

How does carvedilol lower BP

Answer 43

This lowers blood pressure by blocking the alpha1 receptors in the arterioles to lower the total peripheral resistance

Question 44

Main adrenoceptor linked to TPR?

Answer 44

A1

Question 45

What can cause postural hypotension?

Answer 45

Alpha antagonists blocking sympathetic drive

Question 46

a non-selective alpha antagonist ?

Answer 46

Phentolamine

Question 47

What does phentolamine do

Answer 47

non-selective alpha antagonist.

Causes vasodilation and a fall in blood pressure due to blockade of alpha-1 adrenoceptors
However, blockade of presynaptic alpha-2 receptors removes the inhibitory effect of the alpha-2 receptors on noradrenaline release and so you get an increase in noradrenaline release which leads to competitive drug-receptor interactions.
Phentolamine is outcompeted by NA as there is more of NA.

This makes reflex tachycardia stronger

Question 48

Special effect of prazosin?

Answer 48

• Unlike other anti-hypertensives, alpha-1 antagonists cause a decrease in LDL and an increase in HDL cholesterol.

Question 49

What does prazosin antagonise

Answer 49

A1 selective

Question 50

A1 selective antagonist?

Answer 50

Prazosin

Question 51

Why is an A1 selective antagonist less tachycardic?

Answer 51

There is less tachycardia than non-selective antagonists since they do NOT increase noradrenaline release from nerve terminals (no alpha-2 actions

Question 52

methyldopa synthesis and metabolism?

Answer 52

taken up by the noradrenergic neurons
form the false transmitter - alpha-methyl noradrenaline
It is NOT well metabolised within the neuron by MAO and tends to accumulate in larger quantities than noradrenaline.
It displaces noradrenaline from the synaptic vesicles when taken up

Question 53

MOA methyldopa?

Answer 53

(alpha-methyl noradrenaline) is released in the same way as noradrenaline into the synapse.
It is less active than noradrenaline on alpha-1, beta-1, and beta-2 receptors - LESS EFFECTIVE AT CAUSING VASOCONSTRICTION (as it is shit on alpha 1) so there will be a fall in BP.
it is more active on presynaptic alpha-2 receptors (the ones that mediate the negative feedback and release of NA shut down the synthesis and release).
• This means that the auto-inhibitory feedback mechanism operates more strongly and reduces noradrenaline release below normal levels
• It also has some CNS effects, it stimulates the vasopressor centre in the brainstem to inhibit sympathetic outflow

Question 54

What is the active form of methyldopa

Answer 54

alpha-methyl noradrenaline

Question 55

Other benefits to methyldopa? (3)

Answer 55

o Improves blood flow greatly.
o Renal and CNS blood flow is well maintained so it is widely used in patients with renal insufficiency or cerebrovascular disease
o It is also the recommended anti-hypertensive in pregnant women because it has no adverse effects on the foetus despite crossing the blood-placenta barrier

Question 56

Adverse effects of methyldopa (4)

Answer 56

dry mouth, sedation, orthostatic/postural hypotension (problem in the elderly), male sexual dysfunction

Question 57

Class II antiarrhythmics AKA …

Answer 57

BB

Question 58

Why are BB used as antiarrhythmics

Answer 58

sympathetic drive and b1 receptors controls the pacemaker current so beta blockers are a good way of controlling arrhythmias in patients

Question 59

main cause of arrhythmias?

Answer 59

Myocardial ischaemia

Question 60

How does a BB help control arrhythmias

Answer 60

The refractory period of the AV node is increased by beta antagonists
This interferes with AV conduction in atrial tachycardias and slows down ventricular rate

Question 61

Drug that is used antiarrhythmically?

Answer 61

Propranolol

Question 62

What is angina

Answer 62

Pain that occurs when the oxygen supply to the myocardium is insufficient for its needs

Question 63

Types of angina?

Answer 63

Stable, unstable, variable

Question 64

Stable angina, pain when? Why? Heart effect?

Answer 64

o Pain on exertion
o Due to a fixed narrowing of the coronary vessels e.g. atheroma
o There is increased demand on the heart

Question 65

Unstable angina, pain when? Peak pain? Why? Risks of?

Answer 65

o Pain with less and less exertion
o Culminates with pain at rest
o The atheromatous plaque is starting to rupture and breaks away.
o You get a platelet-fibrin thrombus associated with the ruptured atheromatous plaque but without complete occlusion of the vessel
o High risk of infarction

Question 66

Variable angina, when? why? association?

Answer 66

o Occurs at rest
o Caused by coronary artery spasm not so much atherosclerosis
o It is associated with atheromatous disease

Question 67

How do BB help angina? (brief)

Answer 67

• Beta blockers do nothing about the cause of the angina (atherosclerosis) they simply lower the work the heart has to do

Question 68

How do BB help angina? (specific, 3)

Answer 68

• Decrease heart rate
• Decrease systolic blood pressure
• Decrease cardiac contractile activity

Question 69

BB should not be used to treat patients with angina if they have:

Answer 69

Bradycardia, bronchospasm, hypotension, AV block

Question 70

Where is aqueous humour produced and how

Answer 70

Ciliary body by carbonic anhydrase

Question 71

What is the amount of humour produced in the eye directly related to

Answer 71

Blood flow in the ciliary body

Question 72

What SNS antagonists can be used to treat glaucoma

Answer 72

o Adrenaline can act on the alpha-1 receptors to cause vasoconstriction and reduce blood flow through the ciliary body –> this reduces the amount of aqueous humour.

There are also drugs that can act on the beta-1 receptors which drives the action of carbonic anhydrase to produce bicarbonate, , blocking these receptors reduces carbonic anhydrase activity