General anaesthetics

Question 1

What does NO do in terms of pain?

Answer 1

Reduced RESPONSE to pain

Question 2

What does ether do in terms of pain?

Answer 2

Reduced RESPONSE to pain

Loss of consciousness

Question 3

What does Chloroform do in terms of pain?

Answer 3

Reduced RESPONSE to pain

Loss of consciousness

Question 4

What is the structure of ether and chloroform?

Answer 4

Volatile liquids that turn to gas at room temperature

Question 5

How are general anaesthetics described?

Answer 5

Into 2 categories - by the route of administration

1) Chemical
2) Physical

Question 6

What are chemical general anaesthetics?

Examples?

Answer 6

1) Inhalational
- NO

2) Intraveous
- Steroids
- Barbiturates
- Halogenated hydrocarbons

Question 7

What are the physical general anaesthetics?

Answer 7

• Low-pressure

- Hypothermia

Question 8

What do general anaesthetics do/not do?

Answer 8

• Reduces the RESPONSIVENESS to pain

- NOT the FEELING of pain

Question 9

How do we know that anaesthetics don’t work by working on a specific receptor?

Answer 9

• The structure of general anaesthetics is VERY DIVERSE

- If work on a specific receptor - normally have a CONSERVED structure

Question 10

How easily do general anaesthetics enter into membranes?

Why?

Answer 10

Easily

They are very lipophilic

Question 11

What is the potency of general anaesthetics depends upon?

Answer 11

Closely related to the oil:gas partition coefficient (how easily they enter into the lipids)

Question 12

What is MAC?

Answer 12

Minimum alveolar concentration

The amount of the drug needed to achieve a state of anaesthesia in 50% of proteins

Question 13

Which anaesthetics have the highest potency?

Answer 13

Anaesthetics with the highest lipid solubility

Question 14

How does temperature impact on anaesthesia?

Answer 14

Decrease temperature –> anaesthetic effect

Question 15

What is the lipid theory of anesthetic action?

Answer 15

‘Molecules exert their action in the nervous system by entering into the plasma membrane

Question 16

What are the 2 ideas of the ‘lipid theory’?

Answer 16

1) Membrane expansion

2) Increase in lipid fluidity

Question 17

What is the ‘membrane expansion’ component of the lipid theory?

Answer 17

Lipids enter into the membrane

Causing:

• Fat molecules in the membrane to be pushed apart
• Altering the property of the neurons
• Altering neuronal excitability –> entering the state of anaesthesia

Question 18

What is the ‘increase in lipid fluidity’ component of the lipid theory?

Answer 18

Lipids enter into the membrane

Causing:

• Lipids to become more ‘floppy’
• Activity of the proteins within the lipids are impacted
• Effect neuronal excitability –> entering the state of anaesthesia

Question 19

What are the 3 arguments for the ‘lipid theory’?

Answer 19

• Obey the Meyer-Overton rule
• Obey the pressure effect
• Support drug diversity

Question 20

What is the Meyer-Overton rule?

Answer 20

Correlation between the oil:gas coefficient and the potency of the drug as a general anaesthetic

Question 21

What is the pressure effect on general anaesthetics?

Answer 21

• Reducing the atmospheric pressure INCREASES the potency of general anaesthetics
• As reduce pressure - support a more fluid membrane

Question 22

How does the lipid theory support drug diversity?

Answer 22

• All general anaesthetics have a diverse structure

- Therefore the only thing that would affect how well they work would be how well they enter the lipid membrane

Question 23

What are the 4 arguments against the the ‘lipid theory’?

Answer 23

1) Temperature effect
2) Binding sites
3) Loss of activity with homologous series of lipophilic compounds
4) Some drugs increase GABAa receptor affinity for agonists

Question 24

Why does the temperature effect oppose the lipid theory?

Answer 24

• When the temperature decrease - membranes become LESS fluid
• But decrease temperature –> has anaesthetic effect
• Counteracts the effect that general anaesthetics work by increasing membrane fluidity

Question 25

How do ‘binding sites’ counteract the ‘lipid theory’?

Answer 25

• Can see SATURATION of effect when drugs are administered

- Saturation is a classic indication of a drug that is working on a RECEPTOR, where there is a limited amount

Question 26

What did the oppositions of the ‘lipid theory’ give rise to?

Describe this theory

Answer 26

The ‘protein theory’ of general anaesthetics

There is a RECEPTOR that the drugs must bind to to exert their action

Question 27

Which receptors do some anaesthetics bind to?

What do they do here?

Answer 27

GABAa receptors

They alter the function of the GABAa receptors

Question 28

Why is the lipid solubility of the drug so important?

Answer 28

The amino acids present that the general anaesthetics interact with are part of the channel within the transmembrane domain - buried deep within the plasma membrane

Question 29

Where do gaseous anaesthetics tend to bind?

Answer 29

At the INTERFACE between 2 subunits of the GABAa receptor

Question 30

Where do intravenous anaesthetics tend to bind?

Answer 30

Bind just the beta subunit

Question 31

As well as GABAa receptors, where else can general anaesthetics bind?

Answer 31

• Low concentrations can activate the TwoPoreDomain K channels
• NDMA glutamate receptors

Question 32

What are the TwoPoreDomain K channels involved in?

What happens when these channels are activated by GAs?

Answer 32

Maintaining the resting, hyper polarised state of the neurons

When activated - hyper polarise the channels –> less likely to fire action potentials

Question 33

What blocks NDMA glutamate receptors?

Answer 33

NO and Ketamine

Question 34

What blocks NDMA glutamate receptors?

Answer 34

NO and Ketamine

Question 35

What type of anaesthetic is Ketamine?

Answer 35

A dissociative anaesthetic (member in its own family)

Question 36

What is the aim of all GA targets?

Answer 36

To decrease neuronal excitability

Question 37

What do electrophysiology of voltage gated Na+ channel show when GAs are applied?

Answer 37

As the concentration of the drugs increase, the current the current through the Na+ channels gets smaller

Question 38

What happens to the size of the action potential as GAs are applied?

Answer 38

Size of the action potential decreases

Question 39

How do GA affect the fusion of vesicles in the presynaptic terminal?

What does this show?

How does this impact the post synaptic site?

Answer 39

Reduced

GA may DIRECTLY interfere with synaptic transmission at the pre synaptic site

Impact at the post synaptic site:

• Less excitation
• Action potentials more spread out

Question 40

Where are the effects of GA at therapeutic (low) dose?

Answer 40

In the CNS and not the PNS

Question 41

Where do low concentrations of GAs act?

What does this cause?

Answer 41

• Decrease synaptic transmission in the CNS
• Reticular formation - unconsciousness
• Hippocampus - reduced neuronal activity –> long term amnesia
• Analgesia
• Inhibition of spinal reflexes

Question 42

What do high concentrations of GAs do?

Answer 42

Loss of:
- Motor control

• Reflexes
• Central control of respiration
• Regulation of the cardiovascular system

Question 43

What are the stages of anaesthesia?

What happens at each stage?

Answer 43

1) Analgesia
- Reduced responsiveness to painful stimuli

2) Excitation
- Dangerous stage (want to see through as quickly as possible)
- Exaggerated response of reflexes (even though unconscious)

3) Surgical anaesthesia
- Unconsciousness
- Loss of response to painful stimulation
- Loss of exaggerated reflexes
- Short-term amnesia (no memory of the procedure

4) Medullary paralysis
- Desperately try to avoid this stage
- Loss of cardiovascular reflexes and respiratory paralysis -cause death

Question 44

Why is it difficult to form surgery on obese patients?

Answer 44

Drugs enter the fat and NOT the CNS

Question 45

What are the advantages of intravenous anaesthetics?

Answer 45

• Easy to administer
• Rapid induction

-

Question 46

Why is there a rapid induction with intravenous anaesthetics?

Answer 46

• Delivery straight into the blood
• Brain is HIGHLY perfused –> rapidly distributed to the CNS
• Easy to cross the BBB (lipophilic)
• Rapid metabolism –> good induction for anaesthesia, rapid recovery (quick wear off)

Question 47

What are the disadvantages of intravenous anaesthetics?

Answer 47

• Pain at the site of injection
• Complex pharmacokinetics
• Short duration of action due to redistribution
• ‘Hangover’ effect due to accumulation in the body fat
• Peripheral side effects

Question 48

What receptors does Ketamine block?

Answer 48

NDMA receptors

Question 49

What are the positive effects of Ketamine?

Answer 49

• NOT a complete loss of consciousness
• Sensory loss
• Powerful analgesic
• Amnesia
• NO respiratory depression

Question 50

What are the negative effects of Ketamine?

Answer 50

No use on humans, as:
- Increased inter cranial pressure (hazard)

• Can cause hallucinations, delirium
• Irrational behaviour on recovery

Question 51

What are the gaseous anaesthetics?

Answer 51

NO, Isoflurane, Desflurane, Sevoflurane

Question 52

When are gaseous anaesthetics used?

IV?

Answer 52

Gaseous used to MAINTAIN surgical anaesthesia

After originally giving IV until the loss of conciousness

Question 53

How can the concentration of GA in the blood in the brain?

Answer 53

By altering:
1) The RATE of VENTILATION

2) CONCENTRATION of the drug in the inspired air

Question 54

When is there a problem with controlling the concentration of GA in the blood in the brain?

Answer 54

When the lungs are diseased or damaged

Question 55

What are the advantages of the gaseous GA?

Answer 55

1) Can easily change the concentration in the blood and brain (don’t have to wait metabolism)
2) Well tolerated, less side effects
3) Easily cross the alveolar membrane (small lipid soluble molecules)

Question 56

What do the differences between gaseous A come from?

Answer 56

The solubility of the different agents in the blood and fat

Question 57

What does the speed of induction and recovery from GA depend upon

Answer 57

Drug solubility and fat

Question 58

Describe the passage of inhaled drugs around the body?

Answer 58

1) Drug INTO the lungs
2) RAPIDLY equilibriate across the alveolar membrane
3) Blood takes the drug rapidly to the brain and any LEAN tissue (highly perfused)
4) Very quick to equilibriate between the inspired air and the tissues
5) Solubility of the drug in the blood is very low (partitions quickly into the lipids

Question 59

Do drugs bind well to proteins?

Answer 59

NO

Question 60

What can be triggered by halogenated GAs?

Answer 60

Malignant hyperthermia:

• Body temperature increase due to rapid contraction of the muscles
• Problems with the heart