SNS Antagonists

Question 1

Describe the effects of each type of adrenoceptor. 
Alpha 1
Alpha 2
Beta 1
Beta 2
Beta 3

Answer 1

Alpha 1
 Vasoconstriction 
 GI tract relaxation 
Alpha 2
 Inhibition of transmitter release 
 Contraction of vascular smooth muscle  
 CNS actions  
Beta 1
 Heart – increased heart rate + contractility 
 Kidneys – increased renin release 
 GI tract relaxation  
Beta 2
 Bronchodilation 
 Vasodilation 
 Relaxation of visceral smooth muscle  
 Hepatic glycogenolysis  
Beta 3
 Lipolysis

Question 2

What is defined as hypertension?

Answer 2

Sustained diastolic blood pressure greater than 90 mm Hg

Question 3

What is the main control of blood pressure?

Answer 3

Sympathetic drive to the kidneys via beta 1 receptors

This triggers renin release from the kidneys (leads to an increase in angiotensin II and aldosterone)

Question 4

What can precipitate or aggravate arrhythmias?

Answer 4

An increase in sympathetic drive to the heart via beta 1 receptors

Question 5

State some of the problems with non-selective alpha blockers (e.g. phentolamine).

Answer 5

Alpha 1 blockade will cause vasodilation and a fall in TPR and blood pressure
But the alpha 2 blockade will mean that you take away the negative effect of alpha 2 on the synthesis and release of noradrenaline so more noradrenaline will be released from the nerve terminal
This enhances the reflex tachycardia
Side effects include increased GIT motility and diarrhoea
Phentolamine is no longer used

Question 6

State four conditions in which you would not give a patient a betablocker. Explain each of them.

Answer 6

Asthma – blockade of beta 2 receptors in the lungs can take away the beta 2 mediated bronchodilation, which can be fatal in asthmatics
Cardiac Failure – these patients rely on a certain degree of sympathetic drive to the heart to maintain adequate cardiac output
COPD – same reason as asthma
Diabetes – beta blockade masks the symptoms of hypoglycaemia (e.g. tremors, palpitations, sweating) and beta 2 blockade also inhibits hepatic glycogenolysis

Question 7

What class of drugs are beta-blockers?

Answer 7

Class II anti-arrhythmics

Question 8

What is the main mediator of total peripheral resistance?

Answer 8

Alpha 1 mediated vasoconstriction

Question 9

What are arrhythmias usually caused by and why?

Answer 9

Myocardial ischaemia – damage to the heart muscle can result in re-entry of impulses that messes up the heart rhythm

Question 10

Define angina.

Answer 10

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

Question 11

State four main clinical uses of SNS antagonists and false transmitters.

Answer 11

Hypertension
Angina
Arrhythmia
Glaucoma

Question 12

What are the effects of alpha blockade?

Answer 12

Vasodilation causing a fall in TPR and hence a fall in blood pressure
NOTE: blocking the sympathetic drive can cause postural hypotension

Question 13

Describe the mechanism of action of methyldopa.

Answer 13

Methyldopa is taken up by noradrenergic neurones and is decarboxylated and hydroxylated for form alpha-methyl noradrenaline
This is not deaminated by MAO so accumulates more than noradrenaline in the synapse
Alpha-methyl noradrenaline displaces NA from the synaptic vesicles
It is less effective than NA on alpha 1 receptors so does not cause as much vasoconstriction
It is more effective than NA on alpha 2 receptors thus reducing noradrenaline release
It also affects the CNS by inhibiting sympathetic outflow

Question 14

What is the effect of presynaptic beta 1 receptors?

Answer 14

They have a positive facilitation effect on the synthesis and release of neurotransmitter

Question 15

State five adrenoceptor antagonists including the receptors that they block.

Answer 15

Labetalol = alpha 1 + beta 1 (more beta 1 (4:1)) 
Phentolamine = alpha 1 + alpha 2 
Prazosin = alpha 1 
Propranolol = beta 1 + beta 2  
Atenolol = beta 1

Question 16

What are the effects of labetalol?

Answer 16

Acts more on beta 1 than alpha 1
It lowers blood pressure by reducing total peripheral resistance and it induces a change in heart rate and cardiac output (beta 1 mediated)

Question 17

How does the effect of beta-blockers on the heart change?

Answer 17

The effect of beta blockade on the heart disappears with chronic treatment as the heart begins to reset itself

Question 18

State some adverse effects of beta-blockers.

Answer 18

Fatigue 
Insomnia 
Dizziness 
Sexual dysfunction 
Bronchospasm 
Bradycardia 
Heart block  
Hypotension  
Decreased myocardial contractility

Question 19

What dictates the amount of aqueous humour produced?

Answer 19

Blood flow in the ciliary body (and blood pressure)

Question 20

Why would you still not give a cardioselective beta-blocker to anasthmatic patient?

Answer 20

Selectivity is dependent on concentration

Question 21

What are beta-1 selective blockers called?

Answer 21

Cardioselective Beta-blockers

Question 22

What effect does propranolol have on heart rate, cardiac output and blood pressure?

Answer 22

It has little effect on these parameters at rest

It decreases all of these parameters when exercising

Question 23

What are the effects of prazosin?

Answer 23

Highly selective alpha-1 antagonist
Leads to vasodilation and a fall in blood pressure
You get less tachycardia than with non-selective alpha blockers because the negative effect of alpha 2 on noradrenaline release has not been removed
NOTE: postural hypotension is troublesome
Prazosin also increases HDL and decreases LDL so is becoming more popular as an anti-hypertensive

Question 24

How can adrenaline affect intraocular pressure?

Answer 24

Adrenaine can act on alpha-1 receptors to cause vasoconstriction and reduce blood flow through the ciliary body

Question 25

State three elements that contribute to hypertension.

Answer 25

Blood volume Peripheral vascular tone Cardiac output

Question 26

State some other unwanted actions of beta-blockers.

Answer 26

Fatigue | Cold extremities

Question 27

State some benefits and adverse effects of methyldopa in its use as an anti-hypertensive.

Answer 27

It does not have any adverse effects on foetus’ despite crossing the placenta It maintains renal and CNS blood flow so it is used in patients with renal insufficiency or cerebrovascular disease Adverse effects: dry mouth, sedation, postural hypotension, male sexual dysfunction It is RARELY used

Question 28

What effect do beta antagonists have on the refractory period of the AV node? How does this help in dealing with arrhythmia?

Answer 28

Beta-blockers INCREASE the refractory period of the AV node It can interfere with AV conduction in atrial tachycardias and slow downventricular rate

Question 29

Where does the aqueous humour drain?

Answer 29

It drains into the trabecular meshwork in the canals of Schlemm

Question 30

What controls the pacemaker current in the heart?

Answer 30

Sympathetic drive

Question 31

State some other circumstances in which you would not give a beta-blocker.

Answer 31

Hypotension Bradycardia Bronchospasm AV block or severe congestive heart failure

Question 32

State some other uses of beta antagonists.

Answer 32

``` Anxiety states (to control somatic symptoms associated with sympathetic ove reactivity such as palpitations and tremor) Migraine prophylaxis – maintain good blood supply within the CNS so reduces the risk of migraines Benign essential tumour ```

Question 33

Blockade of which receptors cause the positive effects and thenegative effects of beta-blockers?

Answer 33

Beta 1 blockade = positive effects | Beta 2 blockade = negative effects

Question 34

What is propranolol particularly effective at treating?

Answer 34

It is particularly successful in arrhythmias that occur during exercise or mental stress

Question 35

Describe the three different types of angina.

Answer 35

Stable  Pain on exertion due to a FIXED narrowing Unstable  Pain with less and less exertion culminating with pain at rest  Atheromatous plaque begins to rupture  Platelet-fibrin thrombus associated with the ruptured plaque without complete occlusion of the vessel  High risk of infarction Variable  Occurs at rest  Caused by coronary artery spasm  Associated with atheromatous disease

Question 36

Describe how beta-blockers can help prevent angina attacks.

Answer 36

They decrease heart rate, decrease contractility and decrease systolic blood pressure meaning that it will reduce the oxygen demand of the heart whilst maintaining the same degree of effort This means that you are less likely of getting to a situation where theoxygen supply to the myocardium is insufficient for its needs (angina)

Question 37

Describe the use of beta antagonists in treating glaucoma.

Answer 37

They reduce the rate of aqueous humour formation by blocking the receptors on the ciliary body Examples: carteolol hydrochloride, levobunolol hydrochloride, timilol maleate

Question 38

Where is aqueous humour produced?

Answer 38

They are produced by the blood vessels in the ciliary body via the actions of carbonic anhydrase

Question 39

What effect is responsible for most of the anti-hypertensive effect of beta-blockers?

Answer 39

Beta 1 blockade in the kidneys – this reduces renin release from the kidneys

Question 40

What part of the heart’s electrical circuit depends heavily on sympathetic activity?

Answer 40

AV conductance depends heavily on sympathetic activity

Question 41

What effect does beta-1 blockade have on the heart?

Answer 41

Decrease in heart rate | Decrease in cardiac output

Question 42

What reflex will be triggered by alpha blockade?

Answer 42

It triggers a baroreceptor mediated reflex tachycardia to increase heart rate and cardiac output