Principles of General Anaesthesia Flashcards Preview

Y2 LCRS 1 - Pharmacology and Therapeutics - Laz COPY > Principles of General Anaesthesia > Flashcards

Flashcards in Principles of General Anaesthesia Deck (23)
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1
Q

What are the five clinically desirable effects of general anaesthetics? State which two effects are caused by ALL general anaesthetics.

A
  • Loss of consciousness at low concs(ALL)
  • Suppression of reflex responses at high concs (ALL)
  • Pain relief
  • Muscle relaxation
  • Amnesia
2
Q

Name 4 inhalational general anaesthetics

A
  1. Nitric oxide
  2. Diethyl ether
  3. Halothane
  4. Enflurane
3
Q

Name 2 IV general anaesthetic

A
  1. Propofol
  2. Etomidate
4
Q

1) What is the Meyer/Overton correlation?

A

1)

  • For a long time it was believed that anaesthetic potency increases in direct proportion with the oil/gas partition coefficient
  • In other words: anaesthetic potency is directly correlated with lipid solubility
5
Q

1) What was the proposed explanation for the Meyer / Overton correlation?
2) What were the problems with this explanation?

A

1)

  • The drugs disturbed the lipid bilayer

2)

  • At therapeutic doses, the changes to the lipid bilayer were minute
  • How would the change in membrane impact on membrane proteins anyway?
  • You get the same effect on the membrane that you get with general anaesthetic as when you increase temperature
6
Q

What are the two real mechanisms of action of general anaesthetics?

A
  • Reduced neuronal excitability
  • Altered synaptic function
7
Q

Describe the difference in the selectivity of IV and inhalational agents

A
  • IV agents are more selective for GABA-A
  • Inhalational agents are far less selective
8
Q

Which specific subunits of the GABA-A receptor do IV agents that alter synaptic function target and what are their effects?

A
  • Beta 3 – important in suppression of reflex responses
  • Alpha 5 – important in amnesia
9
Q

What are the two main targets of inhalational agents that alter synaptic function?

A
  • GABA-A receptors (specifically selective alpha-1 containing GABA-A receptors)
  • Glycine receptors
10
Q

Which subunit of the GABA-A receptor do inhalational agents seem to be more selective for and what role of general anaesthesia is it important in?

A
  • Alpha 1 – important in suppression of reflex responses
11
Q

Explain how nitrous oxide induces its anaesthetic effect

A
  • Nitrous oxide competes for the glycine-binding site on NMDA receptors (glutamate receptors)
  • Glycine is an important coagonist of NMDA receptors – it allows the full receptor response to be transduced
12
Q

What is the effect of blocking neuronal nicotinic acetylcholinereceptors with regards to general anaesthesia?

A
  • Blocking nAChR leads to reduced nerve conduction
  • This is important for amnesia and relief of pain
13
Q

Which channels are important in reducing neuronal excitability via the action of inhalational agents?

A
  • TREK – background leak K+ channels
  • These lead to hyperpolarisation of neurones and inhalational agents facilitate the opening of these channels
14
Q

Inhalational agents are less selective than IV agents. What effect does this have on the dose needed to induce general anaesthesia?

A
  • Generally speaking, a higher dose of inhalational agents is required
15
Q

Explain how general anaesthetics cause a loss of consciousness.

A
  • Loss of consciousness is caused by depressing the excitability of thalamocortical neurones
  • This is mediated by TREK channels and GABA-A
  • NOTE: the reticular activating system is also involved
16
Q

Explain how general anaesthetics suppress reflex responses

A
  • Depression of reflex pathways in the dorsal horn of the spinal cord
  • This is done by anaesthetics that enhance GABA-A and glycine function
17
Q

Explain how general anaesthetics cause amnesia

A
  • There are a lot of GABA-A receptors in the hippocampus that have the alpha-5 subunit
  • General anaesthetics stimulate these receptors to decrease synaptic transmission in the hippocampus
18
Q

Explain how blood: gas partition coefficient affects the speed at which the general anaesthetic penetrates the brain

A
  • If you have a GA that dissolves really well in the blood, then there is less GA in the gas phase in blood and hence less GA penetrates the blood-brain barrier and reaches the brain
  • It is only anaesthetic that remains in the gas phase that diffuses easily into the brain
19
Q

Would a general anaesthetics with a high or low blood: gas partition coefficient be useful for anaesthetics and why?

A
  • LOW
  • This means that less of the GA will dissolve in the blood so more will be left in the gas phase
  • Hence more of the drug will penetrate the blood-brain barrier and reach the brain
20
Q

What are the benefits of inhalation anaesthetics?

A
  • Rapidly eliminated
  • Good control of the depth of anaesthesia
21
Q

What are the benefits of IV anaesthetics?

A
  • Fast induction
  • Less coughing/excitatory phenomena
22
Q

What types of drugs can be used to achieve:

1) Relief of pain
2) Muscle relaxation
3) Amnesia

A

1) Relief of pain - Opioids
2) Muscle relaxation - Neuromuscular blockers
3) Amnesia - Benzodiazepines

23
Q

When using GA for a surgical procedure, what might you use to induce the loss of consciousness and then what else might you use to maintain the GA and what other effect must this have and give an example of an agent that might be used for both of these steps?

A
  1. Induction of loss of consciousness: Propofol
  2. Maintenance + inhibition of reflexes: Enflurane