Pre-medication Drugs

Question 1

Opioid Examples

Answer 1

Methadone - Mu agonist
Fentanyl - Mu agonist
Pethidine - Mu agonist
Morphine - Mu agonist
○ Not licensed in veterinary
Buprenorphine - Partial Mu agonist (kappa antagonist)
Butorphanol - Mu antagonist, Kappa agonist

Question 2

Opioid Licensing

Answer 2

Morphine - Not licensed
Methadone - Licensed in dogs/cats
Pethidine - Licensed in dogs. cats, horses

Question 3

What schedule are Opioids?

Answer 3

Schedule 2
Except Buprenorphine (schedule 3)

Question 4

What do opioids do?

Answer 4

Sedation
Analgesia
Used in sicker animals
Used for painful surgeries

Question 5

Pharmacodynamics of Opioids

Answer 5

Act peripherally and in CNS on 4 main receptor types:
○ Mu - most profound analgesic effects
○ Kappa
○ Delta
○ Nociceptin

Question 6

Mu Agonist Examples

Answer 6

Methadone
Fentanyl
Pethidine
Morphine
Buprenorphine - Partial Mu agonist (lesser effects)

Question 7

What is important to remember about Butorphanol

Answer 7

Mu antagonist and Kappa agonist
Good sedation but poor short-lived analgesia
Might use for non-painful procedures
Birds have high proportion of kappa receptors so could be good analgesic in birds

Question 8

Effects of opioids on Cardiovascular system

Answer 8

Generally considered to cause minimal cardiovascular depression
○ Some vagally mediated bradycardia can be seen at high doses

Question 9

Effects of opioids on Respiratory system

Answer 9

Respiratory depression usually minimal at clinical doses
○ Might be seen with fentanyl or high doses of methadone given IV
○ Sometimes if given intraoperatively you might see apnoea

Question 10

Effects of opioids on Gastrointestinal system

Answer 10

Opioids reduce gastrointestinal motility and decrease gastric emptying
○ Morphine may also induce emesis, but not very commonly used (other than in a CRI)
Methadone is licenced and doesn’t seem to cause nausea and sickness

Question 11

Can you antagonise opioids?

Answer 11

Yes
Reversed by naloxone

Question 12

Alpha-2 Agonist Examples

Answer 12

Medetomidine (faster acting and more effective)
Dexmedetomidine
Xylazine
Detomidine
Romifadine

Question 13

Alpha-2 agonist Licensing

Answer 13

Medetomidine - small animals (most common)
Dexmedetomidine - small animals
Xylazine - Small animals, cows and horses
Detomidine - Horses and cows
Romifadine - Horses

Question 14

What are alpha-2 agonists used for?

Answer 14

Sedation
Often used in combination with opioid
Short lived analgesia
Useful in lively/aggressive patients

Question 15

How do Alpha-2 agonists affect balanced anaesthesia

Answer 15

Selective alpha-2 agonists reduce the amount of anaesthetic drug required to induce and maintain anaesthesia
Reduce MAC - less isoflurane needed

Question 16

How do Alpha-2 agonists work?

Answer 16

Bind to presynaptic Alpha-2 receptors
Sympathetic nervous system activity decreases
This reduces the release of noradrenaline and ACh
Therefore HR and BP drop

Question 17

Effects of Alpha-2 agonists on Cardiovascular system

Answer 17

Can cause significant cardiovascular depression
DO NOT USE IN PATIENTS WITH CARDIOVASCULAR DISEASE
Not used in sick patients
Effects are biphasic
Initially peripheral vasoconstriction results in an increase in blood pressure
In response there is a reflex bradycardia and reduction in cardiac output
After something like 15-20 minutes blood pressure and heart rate return to normal

Question 18

Effects of Alpha-2 agonists on Respiratory system

Answer 18

Minimal respiratory depression
Can cause upper respiratory tract obstruction in brachycephalic

Question 19

Effects of Alpha-2 agonists on Gastrointestinal system

Answer 19

Can cause emesis in cats if used alone
Reduce endogenous insulin production
DON’T USE IN UNSTABLE DIABETIC
Increases urine production as a result of reduced renin and vasopressor secretion
DON’T USE IN BLOCKED ANIMALS

Question 20

Can you reverse Alpha-2 agonists?

Answer 20

Yes
Atipamezole
Antagonises sedative, drug sparring and analgesic properties

Question 21

Properties of Alpha-2 agonists

Answer 21

Marked sedative, muscle relaxant and analgesic properties
Associated with marked bradycardia/hypotension
Rapid onset
Short duration

Question 22

Examples of Phenothiazines

Answer 22

Acepromazine (ACP) - only one licensed for veterinary use
Common component in premedication
Often combined with Alpha-2 agonist

Question 23

Acepromazine Licensing

Answer 23

Cats
Dogs
Horses

Question 24

What are phenothiazines agonists used for?

Answer 24

Contributes to sedation or tranquillisation (mild-moderate)
Provides anxiolysis
No analgesia
Relatively slow to take effect (30-40 minutes)
Long acting (6-8hrs)
Not suitable for:
Sepsis
Hypovolaemia
Cardiovascular compromise
Dogs with MDR1 mutations can be more sensitive

Question 25

What are the pharmacokinetics of ACP?

Answer 25

1. Oral absorption can be erratic and unpredictable
   Hence IM or IV preferable
2. Rapid distribution and will cross BBB and placenta
3. Absorbed in fat and released slowly
4. High plasma protein binding
   Not active when bound
5. Slow elimination with half-life of 24-28 hours
   Longer duration of action

Question 26

How do phenothiazines work?

Answer 26

Centrally acting by antagonising:
○ D1 and D2 receptors
○ Alpha-1 receptors
○ Muscarinic receptors
○ H1 receptors

Question 27

Effects of Phenothiazines on Cardiovascular System

Answer 27

Causes vasodilation - can result in hypotension and hypothermia
Giant breeds are more susceptible to these effects
Considered antiarrhythmic

Question 28

Effects of Phenothiazines on Respiratory System

Answer 28

Minimal depression in healthy patients

Question 29

What is Neuroleptanalgesia?

Answer 29

Combination of an opioid and a tranquilizer/sedative
Reduces amount of each required
Results in improved sedation
E.g. Opioid + ACP

Question 30

Examples of Benzodiazepines

Answer 30

Diazepam (IV only)
Midazolam (IV and IM but stings)

Question 31

Licensing of Benzodiazepines

Answer 31

Diazepam - dogs/cats
Midazolam - horses

Question 32

What are Benzodiazepines used for?

Answer 32

Not analgesic
Anxiolysis
Sedation - often poor and can result in disinhibition
Hyponosis
NOT normally used in healthy patients
Used in ‘Quad’ for cats IM
Midazolam lowers dose of propofol needed
Sometimes used in sick patients as co-induction agent
Contributes to muscle relaxation
USE IN SEIZURING ANIMAL - anticonvulsant

Question 33

How do Benzodiazepines work?

Answer 33

Centrally acting via GABA-A receptor
Binds to alpha subunit (GABA binds to beta)
Enhances effect of GABA binding
More CL- ions released post-synaptically preventing AP

Question 34

Pharmacokinetics of Benzodiazepines

Answer 34

High lipid solubility - aids oral and IM absorption
Widely distributed in body
Metabolised by liver

Question 35

Effects of Benzodiazepines on Cardiovascular System

Answer 35

Minimal cardiovascular depression - useful in sick patients with opioid or ketamine

Question 36

Effects of Benzodiazepines on Respiratory System

Answer 36

Minimal cardiovascular depression - useful in sick patients with opioid or ketamine

Question 37

Can Benzodiazepines be reversed?

Answer 37

Yes
Flumazenil - compete for receptor without producing effects
Short lived and doses may need repeating
Expensive

Question 38

Examples of NMDA Receptor Agonists

Answer 38

Ketamine

Question 39

Licensing of Ketamine

Answer 39

Dogs
Cats
Horses
Cows

Question 40

What is ketamine used for?

Answer 40

Dissociative anaesthetic at high doses
*Depresses thalamocortical system and activates limbic system
* Profoundly reduces the amount of induction agent and inhalation anaesthetics you might otherwise need
Sedation at lower Doses
Only analgesic induction drug
Analgesia at even lower doses - Infusion
Short acting
When used alone it’s a poor muscle relaxant
○ Often used in combination with something that causes good muscle relaxation
E.g. midazolam or alpha-2.
Common combination would be ketamine and midazolam in a sick cat

Question 41

How does Ketamine work?

Answer 41

Blocks NMDA receptor activity
Blocks signal transduction of Na and Ca ions going through channel
Blocks glutamate action (excitatory neurotransmitter)
Not totally selective
○ Weak Mu opioid agonist
○ Weak GABA-A agonist
○ Anti-cholinergic effects

Question 42

How does Ketamine effect the Cardiovascular System?

Answer 42

Good cardiovascular stability
Transient increase in Cardiac output and BP
In some sick patients administration has caused a reduction in blood pressure probably due to myocardial depression in the presence of altered sympathetic tone

Question 43

How does ketamine effect Respiratory System?

Answer 43

Dose dependent respiratory suppression
More concern at pre-med doses

Question 44

Examples of Anticholinergic Drugs

Answer 44

Atropine
Glycopyrrolate
(AKA parasympatholytic/vagolytic drugs)

Question 45

Licensing of Atropine

Answer 45

Dogs
Cats
Horses

Question 46

How does Atropine effect the Cardiovascular System?

Answer 46

Reduces bradycardia
Often used intraoperatively to combat bradycardia
DON’T use in presence of Alpha-2s

Question 47

How does Atropine effect the Gastrointestinal System?

Answer 47

Anti-emetic

Question 48

When is atropine used?

Answer 48

To combat bradycardia during anaesthesia
Not routinely used in pre-med:
○ Mydriasis
○ Reduced gut motility
○ Bronchodilation

Question 49

How does Atropine affect respiratory system?

Answer 49

Bronchodilation - improve ventilation

Question 50

What is alfaxalone?

Answer 50

Neuroactive steroid

Question 51

What is alfaxalone used for?

Answer 51

Induction agent via IV
General anaesthetic agent
Can be used to sedate sick patients
Occasionally given if robust pre-med didn’t provide enough sedation

Question 52

Alfaxalone effects on Cardiovascular system

Answer 52

Few adverse effects
Mild vasodilation following IV
Cardiac output and tissue perfusion maintained

Question 53

Alfaxalone effects on Respiratory system

Answer 53

Apnoea reported when IV