S7) Introduction to Anaesthetics

Question 1

Outline the different types of anaesthetic techniques

Answer 1

Question 2

What is conscious sedation?

Answer 2

Conscious sedation is the use of small amounts of anaesthetic or benzodiazepines to produce a ‘sleepy-like’ state

Question 3

In 7 steps, describe the process of administering anaesthesia

Answer 3

⇒ Premedication e.g. benzodiazepine

⇒ Induction (IV/ inhalation)

⇒ Intraoperative analgesia (opioid, usually)

⇒ Muscle paralysis (facilitate intubation, ventilation, etc)

⇒ Maintenance (IV/ inhalation)

⇒ Reversal of muscle paralysis (postoperative analgesia)

⇒ Provision for PONV (post-op nausea and vomiting)

Question 4

why is pre medication given in anaesthetics

Answer 4

to reduce anxiety, control pain, decrease the risk of aspiration pneumonitis

Question 5

Provide four examples of intravenous anaesthetics

Answer 5

• Propofol (rapid)
• Barbiturates (rapid)
• Ketamine (slower)

Question 6

Provide four examples of inhalational anaesthetics

Answer 6

• Nitrous oxide
• Xenon
• Chloroform
• Cyclopropane

Question 7

What is the term given to the range of effects on the CNS produced during general anaesthesia?

Answer 7

Guedel’s signs

Question 8

Identify and describe the four stages in Guedel’s signs

Answer 8

• Stage 1: analgesia and consciousness
• Stage 2: unconscious, breathing erratic but delirium could occur, leading to an excitement phase
• Stage 3: surgical anaesthesia, with four levels describing increasing depth until breathing weak
• Stage 4: respiratory paralysis and death

Question 9

General anaesthesia is a combination of which four events?

Answer 9

• Analgesia
• Hypnosis (loss of consciousness)
• Depression of spinal reflexes
• Muscle relaxation (insensibility and immobility)

Question 10

How might one determine the volatile anaesthetic potency?

Answer 10

Volatile anaesthetic potency is described by the minimum alveolar concentration (MAC)

Question 11

What is the anatomical substrate for MAC?

Answer 11

The anatomical substrate for MAC is the spinal cord

Question 12

What is MAC?

Answer 12

• MAC is the [alveolar] at 1 atm, at which 50% of subjects fail to move to surgical stimulus (unpremedicated breathing air)

which is defined as the concentration of the anesthetic in the alveoli of the lungs required to prevent movement in 50% of patients in response to a standardized surgical stimulus.

• At equilibrium [alveolar] = [spinal cord]

Question 13

Explain how partition coefficients (solubility) affect the induction and recovery of general anaesthesia

Answer 13

• Blood:Gas partition (in the blood) – low value fast induction and recovery e.g. desflurane
• Oil:Gas partition (in fat) – determines potency and slow accumulation due to partition into fat e.g. halothane

Question 14

what is the blood:gas partition

Answer 14

→ solubility constant describing distribution of inhaled anaesthetic between blood and alveolar gas

the lower, the faster the anaesthetic moves between the alveolar and the blood to the brain

Question 15

what is oil: gas partition

Answer 15

used to estimate the distribution of lipophilic drugs or compounds in biological systems.

ratio of the concentration of the drug or compound in oil to its concentration in gas at equilibrium.

A high oil-gas partition coefficient indicates that the drug or compound is more soluble in oil than in gas: so lipophilic drugs tend to be absorbed more readily across cell membranes, including the blood-brain barrier, and are more likely to accumulate in fatty tissues.

Question 16

Identify five factors which affect MAC by increasing it

Answer 16

• Age (high in infants, low in elderly)
• Hyperthermia
• Pregnancy
• Alcoholism
• Central stimulants

Question 17

Identify three factors which affect MAC by decreasing it

Answer 17

• Age (high in infants, low in elderly)
• Other anaesthetics and sedatives
• Opioids

Question 18

Describe the relationship between anaesthetic potency, lipid solubility and GABA_A activity

Answer 18

Anaesthesia potency correlates with lipid solubility and GABA_A activity,

The more lipid soluble an anastehtic is the faster it will pass across the lipid membrane, this means it will enhance activity of GABA and so increase potency of anaesthetic

Question 19

Describe the role of the GABA receptors in general anaesthesia

Answer 19

• GABA_A receptors are a critical target and act as major inhibitory transmitter for Cl^- conductance
• All anaesthetics (except for 3) potentiate GABA_A mediated Cl^- conductance to depress CNS activity

Question 20

What are the three effects which arise from potentiating GABA activity?

Answer 20

• Anxiolysis
• Sedation
• Anaesthesia

Question 21

Which three general anaesthetics do not potentiate GABA_A activity?

Answer 21

• Xe
• N₂O
• Ketamine

Question 22

Briefly, explain how general anaesthetics modulate consciousness in the brain

Answer 22

• In the brain consciousness is a balance between excitation (Glutamate) and inhibition (GABA)
• Anaesthetics modulate this balance

Question 23

In four steps, describe the effects of general anaesthesia on the brain circuity

Answer 23

⇒ Reticular formation (hindbrain, midbrain and thalamus) depressed and connectivity lost

⇒ Hippocampus depressed (memory)

⇒ Brainstem depressed (respiratory and some CVS)

⇒ Spinal cord – depressed dorsal horn (analgesia) and motor neuronal activity (MAC)

Question 24

What is involved in regional anaesthesia?

Answer 24

- Local anaesthesia involves selectively anaesthetising a part of the body

• It is the ‘block’ of a nerve and hence the patient remains awake and uses local anaesthetic / an opioid

Question 25

Provide four examples of nerves blocked in the regional anesthesia in the upper extremity

Answer 25

• Interscalene nerve
• Supraclavicular nerve
• Infraclavicular nerve
• Axillary nerve

Question 26

Provide four examples of nerves blocked in the regional anesthesia in the lower extremity

Answer 26

• Femoral nerve
• Sciatic nerve
• Popliteal nerve
• Saphenous nerve

Question 27

Identify five circumstances where local and regional anaesthesia are used

Answer 27

• Dentistry
• Obstetrics
• Regional surgery (patient awake)
• Post-op (wound pain)
• Chronic pain management (PHN)

Question 28

Provide four examples of local anaesthestics

Answer 28

• Lidocaine
• Bupivacaine
• Ropivacaine

Question 29

Describe the characteristics of local anaesthestics in terms of the following:

• Lipid solubility-potency
• Dissociation constant
• Chemical link
• Protein binding duration

Answer 29

• Lipid solubility-potency – higher greater potency
• Dissociation constant (pK_a) – lower pK_a, faster onset
• Chemical link – metabolism
• Protein binding – higher for longer duration)

Question 30

Describe the mechanism of action of wound analgesia

Answer 30

Bupivacaine infiltration for wound analgesia:

• Block small myelinated (afferent) nerves in preferance hence nociceptive and symp block
• Adrenaline ↑ duration

Question 31

What are the side effects of general anaesthesia?

Answer 31

• PONV (opioids) - post op nausea and vomiting
• CVS
• Hypotension
• POCD (post-op cognitive dysfunction)
• Chest infection

Question 32

What are the side effects of local anaesthesia?

Answer 32

Local and regional – depends on the agent used, locals are Na⁺ channel blockers so cardiovascular toxicity

Question 33

why do you give a local anasthetic with a vasoconstrictor

Answer 33

1. reduces peak plasma conc of local anasthetic
2. increases duration of the anasthesia
3. reduces minimum effective dose

Question 34

what are important measurements you need for a patient

Answer 34

BMI
renal or liver function