Neuromuscular blocking drugs

Question 1

What is ACh synthesised from and which enzyme does this?

Answer 1

acetyl CoA and choline

choline acetyltransferase (CAT)

Question 2

Where is CAT found?

Answer 2

only in cholinergic nerve terminals

Question 3

What happens to ACh after it has acted on the receptors?

Answer 3

its broken down by acteylcholinesterase into choline and acetic acid and then reuptaken into the presynaptic nerve terminal

Question 4

Where does the ACh bind at neuromuscular junctions?

Answer 4

Nicotonic acetylcholine receptors on the end plate (usually in the middle of the fibres)

Question 5

Describe how nicotinic receptors work

Answer 5

they are ion linked channels - when the receptor is stimulated sodium ions influx

Question 6

What is end plate potential?

Answer 6

Voltages which cause depolarization of skeletal muscle fibers caused by neurotransmitters binding to the postsynaptic membrane in the NMJ

Question 7

Where is the acetylcholinesterase bound?

Answer 7

to the basement membrane in the synaptic cleft

Question 8

What are the three main neuromuscular blockers?

Answer 8

tubocurarine
atracurium
suxamethonium

Question 9

What are the two main types of nicotinic receptors?

Answer 9

ganglionic (neuronal)

muscle (skeletal)

Question 10

Describe the structure of the nicotinic receptor

Answer 10

membrane spanning

• 5 subunits
• 2 alpha subunits
• these alpha subunits found on the top of the receptor either side must be activated for receptor activation

Question 11

How many molecules of ACh are needed to activate the nicotinic receptor?

Answer 11

2

Question 12

What is diazepam and how does it work?

Answer 12

a spasmolytic

• it facilitates GABA transmission
• useful in cerebral palsy and spasticity after strokes etc.

Question 13

Where do local anaesthetics work?

Answer 13

affect the conduction of AP down neurones

- unwanted SE caused when a motor neurone is affected and muscle weakness can occur

Question 14

What does botulinum toxin do?

Answer 14

It inhibits the release of ACh so blocks the contraction of respiratory skeletal muscle therefore can be lethal (neurotoxins)

Question 15

What are the two types of neuromuscular blocking drugs and where do they act?

Answer 15

Depolarising - Suxamethonium

Non-Depolarising - Tubocurarine

Question 16

Are neuromuscular drugs post or pre-synaptic acting?

Answer 16

post - they act on the nicotinic receptors on the motor end plate

Question 17

What are non-depolarising drugs and how do they work?

Answer 17

Competitive nicotinic receptor antagonist

Question 18

What are depolarising drugs and how do they work?

Answer 18

Nicotinic receptor agonists

Question 19

Do neuromuscular blocking drugs affect conciousness, pain? What should be done when they are given and why?

Answer 19

• NO
• NO
• Assist respiration as it affect respiratory muscles

Question 20

Describe the structures of non depolarising drugs

Answer 20

big, bulky with relatively restricted motion around the bonds

Question 21

Describe the structure of suxamethonium

Answer 21

made of two ACh molecules

• flexible and allows rotation
• one can stimulate the receptor alone

Question 22

How does suxamethonium work?

Answer 22

It causes an extended end plate depolarisation -> leads to a depolarisation block of the NMJ

This is called a phase 1 block

• If you give a patient suxamethonium, it will slowly seep into the muscle fibres
• It will stimulate the nicotinic receptors
• It isn’t metabolised as rapidly as acetylcholine
• So it will remain bound to the nicotinic receptors and very quickly these receptors will switch off
• This is a depolarisation block caused by overstimulation

Question 23

What can suxamethonium lead to?

Answer 23

Fasciculations: individual fibre twitches as the suxamethonium begins to stimulate nicotinic receptors

Question 24

Describe the pharmacokinetics of suxamethonium

Answer 24

Route: Intravenous (highly charged)

Duration of paralysis: 5 minutes (short-lived)

Metabolised by pseudocholinesterase in the liver and plasma

Question 25

What are the uses of suxamethonium?

Answer 25

Endotracheal Intubation: It relaxes the skeletal muscle of the airways

Muscle Relaxant for Electroconvulsive Therapy: This is a treatment for severe clinical depression

Question 26

What are some unwanted effects of suxamethonium?

Answer 26

Post-operative muscle pains – This is due to the initial fasciculations

Bradycardia – This is due to the direct muscarinic action on the heart. But this effects tends to be prevented by the fact that suxamethonium is generally given after general anaesthetic when patients would have had atropine (competitive muscarinic antagonist) in their pre-med

Hyperkalaemia

Raised Intraocular Pressure – avoid for eye injuries and glaucoma

Flaccid paralysis

Fasciculations

Question 27

Why does suxamethonium cause hyperkalaemia?

Answer 27

Soft tissue injury or burns can lead to ventricular arrhythmias/cardiac arrest. If there is a burn/soft tissue injury, you lose some of the neurones innervating the muscle and so you get upregulation of the receptors in the skeletal muscle = deinnervation supersensitivity. So if you give suxamethonium you will get an exaggerated response. You get bigger influx of sodium and bigger efflux of potassium

Question 28

What is tubocurarine?

Answer 28

Non-depolarising neuromuscular blocker

Naturally occurring ammonium compound (alkaloid) found in South American plant

Question 29

How does tubocurarine work?

Answer 29

Competitive nicotinic acetylcholine receptor antagonist

• You need about 70-80% block to achieve full relaxation of the muscles
• If you block this proportion of receptors, the end-plate potential generated won’t reach the threshold

Question 30

What are the effects of tubocurarine?

Answer 30

• The effects are the same as suxamethonium

- This also produces flaccid paralysis

Question 31

How does recovery of muscles occur following tubocurarine?

Answer 31

The skeletal muscles relax in a certain sequence and they get back to normal in the opposite order:

• Extrinsic eye muscles (relaxes first, gets back to normal last)
• Small muscles of the face, limbs, pharynx
• Respiratory muscles (relaxes last, gets back to normal first)

Question 32

What is the effect of tubocurarine on the NM transmission?

Answer 32

You get a little shoulder in the action potential which is the end-plate potential

If tubocurarine has been given, you get the beginning of the depolarisation but the depolarisation is too small to trigger an action potential

Question 33

What are the uses of tubocurarine?

Answer 33

Relaxation of skeletal muscles during surgical operations (less anaesthetic needed). This is because the NM blocker has taken the role of making the muscles relax so the dose of the GA can be lower

Permit Artificial Ventilation

Question 34

How can the effects of non-depolarising neuromuscular drugs be reversed?

Answer 34

anti cholinesterases e.g. neostigmine

(Giving neostigmine increases ACh conc in all other cholinergic synpases so give atroping with it to block muscarinic over stimulation)

Question 35

Describe the pharmacokinetics of tubocurarine

Answer 35

• All the neuromuscular blockers are given intravenously (highly charged)
• Does not cross the BBB or placenta
• Long duration of paralysis: 40-60 mins
• Not metabolised at all
• It is excreted in the urine (70%) and the bile (30%)
• If there is impairment in hepatic or renal function, the duration of action of tubocurarine is increas

Question 36

Which drug should be given in place of tubocurarine if the patients has liver or kidney impairment?

Answer 36

atracurium as not affected by liver or kidney function

It is chemically unstable molecule and
due to the pH of the plasma it gets hydrolysed into two inactive fragments

Question 37

What are the unwanted effects of tubocurarine?

Answer 37

• Ganglion block – it could block some of the nicotinic receptors in the ganglia
• Histamine release from mast cells
• Hypotension (due to ganglion blockade and histamine acting on the H1 receptors causing vasodilation)
• Tachycardia (May lead to arrhythmias, this is a reflex in response to the hypotension or could also be due to the blockade of vagal ganglia)
• Bronchospasm (caused by the histamine release)
• Excessive secretions (bronchial and salivary, caused by the histamine release)

Apnoea

Question 38

Which two mechanisms cause the majority of unwanted effects of tubocurarine?

Answer 38

ganglion blockade and histamine release from mast cells