L16: Drugs and Surgery

Question 1

What was the first anaesthetic used for general anaesthesia? Why is it no longer used?

Answer 1

Diethyl ether was an anaesthetic that was administered through inhalation. No longer in use because it is highly flammable and they came out with a safer and non-flammable option: halothane.

Question 2

What does general anaesthesia have to do to the body? What needs to be done to make a safe and effective anaesthetic?

Answer 2

1. Blockage of sensation (pain) and consciousness
2. Needs to cause amnesia (no memories of operation)
3. Relaxation of skeletal muscles and suppression of reflexes
   - In order to repress all of these things at once, the dose of the anaesthetic would be too high to be safe. Therefore, a mixture of general anaesthetics and other drugs are combined to increase the effectiveness and the safety of the anesthesia.

Question 3

What are the drugs used in general anaesthesia?

Answer 3

1. Pre-medication
2. Induction agents
3. Anaesthetic gases and volatile agents
4. Analgesics
5. Muscle relaxants
6. Reversal agents

Question 4

What is pre-medication used for in general anaesthesia?

Answer 4

Drugs given to patients ahead of surgery to:

• Minimize their pain
• Relax them if they are nervous

Question 5

What is an induction agent in general anaesthesia?

Answer 5

A drug that induces unconsciousness

Question 6

What are anaesthetic gases and volatile agents in general anaesthesia?

Answer 6

They induce and/or maintain unconsciousness (anaesthesia). Used if the procedure is long.

Question 7

What are Analgesics in general anaesthesia? Muscle relaxants?

Answer 7

Analgesics: Abolish pain.

Muscle relaxants: relax muscles

Question 8

What are reversal agents in general anaesthesia?

Answer 8

Reverse muscle relaxation so the patient isn’t paralyzed when they wake up.

Question 9

What are inhalational anaesthetics? Give examples.

Answer 9

Inhalational anesthetics are inhaled by the patient and  are named so that they end in -ane. 
Ex:
1. diethyl ether
2. Halothane
3. Isoflurane (major one used today)
4. Nitrous oxide
5. Sevoflurane

Question 10

Why is it important to monitor the patient’s vitals when they are under general anaesthetics? What vitals are monitored?

Answer 10

We have sophisticated equipment in order to monitor the patient’s brain activity, blood gas levels, and cardiovascular functions because general anesthetics suppress cardiovascular function.

Question 11

What are intravenous anaesthetics used for?

Answer 11

For induction of anaesthesia and are often used in short procedures because they may build up if used for a prolonged period of time.

Question 12

What are intravenous anaesthetics composed of?

Answer 12

Benzodiazepines (Midazolam: useful in combination with other drugs), barbiturates (Thiopental), opioids (meperidine, fentnyl, remifentanil), Propofol.

Question 13

What is Propofol?

Answer 13

It’s the most commonly use anesthetic worldwide to induce anaesthesia: it’s safe and the person becomes unconscious very quickly.

Question 14

Why is the inhalation of anaesthetic drugs efficient?

Answer 14

The lungs are very efficient for absorbance because they are designed for gas exchange and thus have a huge surface area of alveoli.

Question 15

What determines the rate of anaesthetic delivery via inhalation? Why?

Answer 15

It is determined by the partial pressure of the anaesthetic in the gas. This is because the partial pressure of a gas in a mixture is directly proportional to its concentration. Also, it is the partial pressure of the gas that drives the gas into the blood vessels and into the brain.

Question 16

What is the path the inhaled gas with anaesthetics takes once inhaled?

Answer 16

During induction, the gas is transported from the alveoli to the blood vessels, to the main arterial blood, where a large fraction of the blood from the heart goes to the brain.

Question 17

What is the path the inhaled gas with anaesthetics takes once you stop administering them?

Answer 17

When you stop administering the anaesthetic, recovery takes place: most of the drug is coming out of the brain then into the venous system and will then be expired from the lungs. Some of the anesthetic goes to other tissues so the longer it’s administered for, the more the anesthetic goes to other tissues. Very little of the anesthetic is metabolized in the body. And in sum, most is unchanged and breathed out.

Question 18

How does solubility of the anaesthetic affect its ability to get into the brain? Give examples.

Answer 18

Partial pressure of the gas is what drives the gas into the brain, but if the drug is very soluble in the blood it’s not so readily available to get into the brain and it takes longer to leave the blood as opposed to a less soluble drug. Furthermore, the gas is able to cross the blood-brain barrier very quickly because it’s lipid-soluble.

For example:

• Nitrous oxide gets into the brain much more quickly than methoxyflurane.
• It takes a larger amount of halothane to get an effective concentration in the brain as opposed to nitric oxide.

Question 19

How does blood flow affect the rate of anesthetic uptake?

Answer 19

The regions with higher blood flow (Cardiac output) get the anaesthetic the fastest and in the highest concentrations.

• Most of the anesthetic go to the vessel rich group even though they make up a very small portion of the total body (heart and the Brain mainly). An equilibrium is reached very quickly with drugs that easily get into the brain because of this high blood flow to the brain.
• It takes longer for muscle even if they compose 50% of body mass because they only receive a small amount of the cardiac output. Therefore, it will take a longer time to equilibrate there and in other places where the blood flow is even less.

Question 20

What factors affect the rate of induction of the anaesthetic?

Answer 20

1. Increased rate with an increase in concentration of the anaesthetic in the inspired gas mixture (more concentration=unconscious faster)
2. Increased rate with an increase in alveolar ventilation
3. Decreased rate with an increased solubility in the blood (higher blood-gas partition coefficient)
4. Decreased rate with an increased cardiac output (a greater fraction goes to other tissues compared to the brain).

Question 21

How does the anesthesiologist determine how much anaesthetic to administer?

Answer 21

For each anaesthetic gas, there is a minimum alveolar concentration (MAC) that is analogous to the EC50. It is the amount of the drug that produces anaesthesia in 50% of patients. MAC is a useful reference level but you don’t want only half of your patients anaesthetized, so higher than 1 X the MAC level is given. In most situations 1.3 times the Mac level is administered. The MAC is not related to sex or body size it can be altered by other drugs and diseases. Furthermore, anesthesiologist need to keep in mind that different anesthetics are additive, so knowing the MAC of each gas component in the mixture allows them to add them to get an appropriate total MAC.

Question 22

What happens when respiration is depressed by anaesthetics? How is this handled?

Answer 22

The partial pressure of carbon dioxide increases and the minute ventilation decreases this can be handled by artificial respiration by intubation.

Question 23

What is anaesthesia’s effect on the cardiovascular system? Why is this important?

Answer 23

Cardiovascular depression: Blood pressure declines with all of these anesthetics, but some of them, like Sevoflurane, are less powerful depressants of blood pressure. Cardiac output is more variable, it’s less affected by some drugs than others.
- The cardiovascular status of the particular patient can influence the choice of which anesthetics to administer. Ex: isoflurane does not cause a fast build up of pco2 and it is not too bad in terms of respiratory depression. It lowers the blood pressure quite significantly, but the cardiac output is not so badly affected which is why Isoflurane is often the anesthetic of choice.

Question 24

What does having a high MAC indicate? Give an example of a drug with this characteristic. What is it usually combined with?

Answer 24

A high MAC indicates that it’s not possible to administer that drug as the sole anesthetic.
An example for this Is nitrous oxide, since it has such a high MAC it is mixed with other drugs in the gas mixture because it’s a very good analgesic but it can’t be used alone.
It is often combined with isoflurane, which allows to decrease the levels of isoflurane and allows to minimize the bad side effects of decreased blood pressure caused by isoflurane.

Question 25

Why is nitrous oxide a good adjuvant in anaesthetics?

Answer 25

When used as an adjuvant it causes amnesia, behavioural disinhibition, unconsciousness, rapid onset and recovery, and has minimal side effects compared to opioids.

Question 26

What are 2 side effects to be aware of when choosing the right anaesthetic?

Answer 26

1. Stimulation of nausea and vomiting during the recovery period
2. Negative effects on the liver due to (small amount) of metabolism of anaesthetics.

Question 27

Why was halothane replaced as an anaesthetic?

Answer 27

Because part of it was metabolized in the liver and gave unwanted effects. It also caused sensitization of the cardio-vascular system.

Question 28

Why is Isoflurane a widely used anaesthetic in terms of side effects?

Answer 28

Because it causes no cardiac sensitization meaning it doesn’t sensitize the heart to Adrenaline (epinephrine), it’s a good muscle relaxant, and there are no toxic metabolites formed.

Question 29

What are the advantages of intravenous anaesthetics?

Answer 29

1. They give less respiratory and cardiovascular depression,
2. They can be used without a lot of complicated equipment, they’re very stable, don’t need to inject a large volume,
3. Rapid onset of action, good for short procedures because some have a very short duration of action,
4. Wide margin of safety when used properly, non-toxic metabolites,
5. Less variability between patients in terms of the effects so we can predict what will happen from one patient to the next,
6. Non-allergenic and non-toxic to tissues.
7. There are many variations therefore you can choose specific ones for certain patients and circumstances.

Question 30

Describe the distribution of Thiopental, its half life, and how that affects what it is used for.

Answer 30

It gets into the brain and other vessel rich groups first and then comes out of the brain and is redistributed to skeletal muscle and skin. The redistribution terminates the action of Thiopental very quickly. Thiopental is very effective in making the patient unconscious but the plasma concentration declines very quickly. If it’s administered for a long period of time it can build up in adipose tissue and it has a very long half life, which is why it cannot be given for maintenance of anaesthesia. It is good for induction of anaesthesia because it can cause unconsciousness within 30 seconds.

Question 31

Compare propofol to thiopental.

Answer 31

Propofol has a rapid onset and a much shorter Half-Life than Thiopental, as it is metabolized quicker, which has made it a more popular choice than Thiopental in most circumstances.
Also, Thiopental’s half life increases if it is administered for a long period of time because it gets deposited in tissues so it takes longer to eliminate from the body. Propofol has a short half life even if it is administered for longer.

Question 32

What can change the half life of IV anaesthetics?

Answer 32

The duration of infusion. Higher duration=higher half life because it can accumulate in tissues and take longer to be removed from body.

Question 33

What Benzodiazepines can be used as IV anaesthetics? why?

Answer 33

1. Diazepam is not a popular choice because it has a slow induction
2. Midazolam can be used in induction as it is effective in a few minutes and has a short duration.
3. Midazolam produces amnesia so it can be combined with an opioid to get a phenomenon called conscious sedation.

Question 34

Why would conscious sedation need to be used in surgery?

Answer 34

If you don’t want the patient to remember the surgery but you need them to cooperate with certain movements during the surgery then Conscious Sedation can be used. For example, is a person is having a colonoscopy and the surgeon has to ask them to move around they can respond but they’re in a haze and they don’t remember much of what happened.

Question 35

What happens when opioids are given as IV anaesthetics? What happens when you combine opioids and an anaesthetic agent?

Answer 35

They are given as analgesics but they also act on the brain stem, depress respiration, and can cause nausea and vomiting. When opioids are administered in combination with anaesthetic agents, respiratory is depressed even more than when an anaesthetic agent is given alone. They allow for the relief of pain and anxiety reduction.
Ex: fentanyl

Question 36

Describe a possible drug cocktail to get a patient through a short term procedure using intravenous anaesthesia.

Answer 36

1. Propofol for induction
2. Add opioid like Remifentanil
3. Add Midazolam for amnesia
4. Add a short-acting muscle relaxant

Question 37

What is neurolept amnesia? and when is it used?

Answer 37

Relieves anxiety and pain but the patient is not completely unconscious. Used in diagnostic procedures or minor surgeries.

Question 38

What can be used to induce neurolept amnesia?

Answer 38

Giving the patient an opioid (Fentanyl) and an antipsychotic to block stressful reactions (Droperidol). Nitrous oxide can be added as well.

Question 39

What is Ketamine? What is an unpleasant side effect?

Answer 39

It’s the only intravenous anesthetic that stimulates the cardiovascular system rather than depressing it. Its unpleasant side effects are dissociative anaesthesia or dysphoria. The dysphporia can be really negative: can get intense hallucinations, anxiety, and memories of the surgery. So it’s not the favourite Drug to use

Question 40

When can Ketamine be life-saving?

Answer 40

1. Burn patient that has to be anesthetized repeatedly but their cardiovascular system is very fragile because intense burns can cause plasma leaks such that their blood pressure is very low. Since ketamine wouldn’t further depress the cardiovascular system it would be very useful and is very safe.
2. Ketamine is also used in short-term procedures in young children with cardiovascular concerns.
3. It is currently under investigation because some of its effects are thought to be able to counteract serious suicidal depression

Question 41

Why are general anaesthetics dangerous?

Answer 41

All general anaesthetics are dangerous drugs with small margins of safety. What it takes to make someone unconscious isn’t far from what it takes to stop their heart and breathing. This is why they are administered by experts in a controlled setting.

Question 42

What are adverse responses to anaesthetics that need to be treated with other drugs? what are the other drugs?

Answer 42

1. Nausea and vomiting can be treated. by Ondanseron and 5HT blockers
2. Cough can be treated by Dexomethorphan
3. Bradycardia (cardiovascular depression) can be treated by various stimulants
4. Muscle relaxation (which is caused by anitcholinergics) can be reversed by muscarinic agonists.

Question 43

Where do anaesthetics act in the brain?

Answer 43

Multiple locations: frontal cortex (consciousness), brainstem, cardiovascular and respiratory centers.

Question 44

What does the lipid solubility of the anaesthetic tell you?

Answer 44

It tells you how fast the drug can be distributed but it does NOT tell you how potent the drug is. Even if it is less soluble and there is a high distribution rate, it does not mean that it is a good anaesthetic.

Question 45

Where is the main site of action of anaesthetics?

Answer 45

At the synapse: presynaptically, post-synaptically, and extra-synaptically, and on the synaptic cleft itself. Mainly acting on the GABA-A receptor.

Question 46

How do anaesthetics act pre-synaptically? Give an example of a drug that does this.

Answer 46

• Decrease transmitter release and vesicle docking by blocking calcium channels
  Ex:
  Isoflurane does both of these presynaptic mechanisms. It acts better at high-frequency synapses (receive and transmit a lot of APs) which explains its differential action at different synapses.

Question 47

How do anaesthetics act post-synaptically?

Answer 47

Effect on ligand gated ion channels by mainly increasing inhibition by increasing Cl- influx (GABA & Glycine) and decreases excitation [NMDA (glutamate), nACh, 5HT].

Question 48

How is Ketamine different from other anaesthetics in terms of its action on receptors? What about Propofol? Barbiturates?

Answer 48

Most anaesthetics increase inhibition by acting on the GABA-A receptor, but Ketamine is not very good at that. Instead, it blocks glutamate (excitatory) transition by blocking NMDA receptors. It mostly acts on spinal cord.
Propofol and barbiturates greatly enhances inhibitory transmission (GABA-A and glycine-R) but does not inhibit excitation.

Question 49

Why are neuromuscular blocking agents useful during surgery?

Answer 49

1. Eliminates reflexes.
2. Allows for endotracheal intubation and ventilation so the patient isn’t fighting the respirator.
3. Reduces muscle fasciculations and motions that can occur when body parts are being manipulated during surgery.
4. They’re safe because they permit lower levels of anesthetics as you don’t need to administer as much general anesthetic for muscle relaxation purposes.

Question 50

What happens at a neuromuscular junction when it receives an AP?

Answer 50

An action potential comes down the axon of a motor neuron and causes a calcium influx. Neurotransmitter acetylcholine is released into the synaptic cleft and binds to post synaptic cholinergic receptors.

Question 51

What are the 2 types of blocking agents for nACh receptors in the neuromuscular junction?

Answer 51

1. Competitive non-depolarizing (main one)

2. Competitive depolarizing agent

Question 52

What do competitive non-depolarizing agents do?

Answer 52

• Can be identified by their ending in “-ium”
• They compete with acetylcholine for binding at the nicotinic cholinergic receptors in the muscular junction. When bound, the channel stays closed and ACh cant bind.
• Reversible

Question 53

How many of the nACh receptors in the neuromuscular junction have to be blocked to paralyze the patient?

Answer 53

80%

Question 54

How are competitive non-depolarizing agents metabolized?

Answer 54

Non-depolarizing agents are metabolized in different ways:
There are short, intermediate, and long-acting varieties of non-depolarizing agents. The duration of action is determined by the means of excretion. The short-acting ones are broken down by plasma pseudocholinesterase when the drugs diffuse from the synapse into the plasma. Some are broken down in the liver while some are directly excreted by the kidney.

Question 55

What do competitive depolarizing agents do? Give an example.

Answer 55

• Compete for acetylcholine’s binding site on the nACh receptors in the neuromuscular junction.
• When bound they cause the channel to open and the cell is depolarized (agonist). Then, they stay bound and the channel gets desensitized, hopefully for the length of the procedure.
• Reversible
• Rapid onset and short duration of action (short half life)
• Ex: Succinylcholine

Question 56

Do neuromuscular blocking agents cross the blood brain barrier?

Answer 56

No. This is good because we want them to stay and act in the periphery.

Question 57

What happens if a person has a defective plasma pseudocholinesterase when administered succinylcholine?

Answer 57

The patient will have increasing apnea as succinylcholine keeps being administered because they have less metabolism of the drug.

Question 58

What nerve fibers (axon) are most sensitive to local anaesthetics? why?

Answer 58

The A-delta and C-fibers that carry the sensation of pain. They are more sensitive because they are smaller.

Question 59

What are the effects of local anaesthetics?

Answer 59

Cause loss of sensation of pain, loss of sensation of deep pressure and touch, and of temperature.

Question 60

How can local anaesthetics be administered?

Answer 60

Injection (ex: epidural in spine)

Question 61

What is the difference between the target of local anaesthetics vs neuromuscular blocking agents?

Answer 61

Local anaesthetics blocks voltage gated sodium channels along the axon vs neuromuscular agents which act on ligand gated nACh ion channels.

Question 62

What is the role of voltage gated sodium channels?

Answer 62

Allow APs to propagate along nerves when the channels open and there is a sodium influx which causes depolarization.

Question 63

How do local anaesthetics affect neurons? Which neurons does it have a greater affect on and why?

Answer 63

They block sodium influx which blocks the propagation of the action potential through the Axon. Although it works at both the myelinated and un-myelinated nerves, it works better at the unmyelinated fibres. Since the local anesthetic blocks the sodium channels from inside the cell, it needs to cross the plasma membrane. Unmyelinated fibres have a larger surface area of free plasma membrane while myelinated fibres only have the nodes of ranvier freed of myelin.

Question 64

Why are local anaesthetics usually injected along with adrenaline?

Answer 64

Local anesthetics are often injected with adrenaline in order to prolong their action. They use adrenaline because it causes vasoconstriction of the blood vessels in that area which causes reduction in blood flow. Therefore, it will take longer before the local anesthetic reaches the systemic circulation (stays in local area for longer) and it is usually long enough for the procedure to take place. This is a way of altering pharmacokinetics by altering absorption of the local anaesthetic.

Question 65

What are the 2 types of local anaesthetic? give examples. How are the usually named?

Answer 65

1. Esters (Procaine)
2. Amides (Lidocaine)
   - Usually end in “-aine”

Question 66

What is the effect of inflammation on local anaesthetics?

Answer 66

Inflammation can lower a tissue’s pH. This can affect the local anesthetic because they are weak bases and therefore will become ionized if the pH of the tissue is lowered (more acidic). If the anesthetic is ionized it cannot go across the plasma membrane and bind the voltage-gated Ion channel from the inside of the cell. This leads to a decreased effect of the local anesthetic so you need to administer more to get the effective concentration that relieves pain.

Question 67

What is the difference in metabolism and structure of ester and amide local anaesthetics?

Answer 67

Local anaesthetics are made of a ring, a linker region, and an amine group. The linker region can be an ester link or an amide link. This affects their metabolism.
Local anaesthetics with ester links are metabolized by plasma pseudocholinesterase and have shorter half lives.
Amides are metabolized in the liver and have a longer half life, and thus have more potential systemic effects.

Question 68

Why is there a longer duration of action of esters in spinal fluid?

Answer 68

Because the spinal fluid is low in plasma pseudocholinesterase.

Question 69

What would happen if you continue to inject local anaesthetic in larger and larger amounts?

Answer 69

There will be more severe side effects as you’re interfering with vital neuronal activity and eventually you would get to respiratory and cardiovascular arrest.

Question 70

What is EMLA? When is it used?

Answer 70

• a Eutectic Mixture of Local Anaesthetics
• A mixture of these drugs in a cream form increases the absorption across the skin as it changes their solubility. Therefore there is local anaesthesia at the area of the patch.
• This is used by pediatricians to relieve pain associated with vaccination so that kids do not feel anything.