Opioid Agonists/antagonists

Question 1

Opioid receptor

Answer 1

Serpentine molecule embedded in cell membrane
- 1 terminal ending exposed to extracellular envi
- other terminus is intracellular

Question 2

Types of opioid receptors

Answer 2

Mu, Kappa, Delta, Sigma

Question 3

Presynaptic function of opioid receptors

Answer 3

Inhibits neurotransmitter release (ACh, Dopamine, norepinephrine, substance P, GABA)

Question 4

postsynaptic function of opioid receptors

Answer 4

Decreases neuronal excitability through hyperpolarization of cell membranes

Question 5

Mu receptor subtypes

Answer 5

Analgesia (supraspinal & spinal)
Euphoria, ventilatory depression, bradycardia, urinary retention, physical dependence

Question 6

Kappa subtype receptors

Answer 6

Analgesia (supraspinal & spinal)
Dysphoria, sedation, miosis

Question 7

Delta subtypes receptors

Answer 7

Analgesia (supraspinal & spinal)
Ventilatory depression, urinary retention, modulation of Mu activity

Question 8

Tissues for receptor distribution

Answer 8

Brain
Spinal cord
GIT
UIT
Synovium
Leukocytes
Uterus

Question 9

Pure opioid agonist binding affinity

Answer 9

Produces dose-dependent increase in effect until max stimulation of receptor achieved
Effect increases as dose (or plasma concentration) increases until it plateaus at max effect

Question 10

Partial opioid agonist binding affinity

Answer 10

Binding at given receptors causes an effect that is less pronounced than that of a pure agonist
Produces dose-dependent increase in effect, but plateaus at max effect less than max effect of full agonist

Question 11

Opioid agonist-antagonist binding affinity

Answer 11

Causes stimulators effect at one receptor but blocks effect or causes less pronounced effect at another
Effects of these drugs depends on previous opioid exposure

Question 12

Opioid antagonist affinity

Answer 12

Binds to receptor with high affinity & produces no effect
- reverses receptor mediated effects of agonists by inhibiting binding of agonist & displacing previously bound agonist due to greater receptor affinity of antagonist (competitive binding)

Question 13

Full agonist classifications

Answer 13

Morphine, hydromorphone , methadone, oxymorphone, fentanyl

Question 14

Partial agonist classifications

Answer 14

Buprenophine

Question 15

Agonist-antagonist classifications

Answer 15

Butorphanol

Question 16

Antagonist classifications

Answer 16

Naloxone, nalmefene, naltrexone

Question 17

Different potency

Answer 17

Ex fentanyl and morphine have different potency meaning one will act quicker with less drug

Question 18

Different efficacy

Answer 18

Ex morphine and buprenophine
Drugs given at same amount will have greater or less effect than the other

Question 19

PD absorption considerations

Answer 19

Lipophilic /absorption rate
Bioavailability via SQ & IM
Low oral bioavailability
Transdermal absorption - fentanyl bypasses GIT and skips first pass hepatic effects
Transmucosal absorption - buprenorphine by passes first pass metabolism, variable absorption

Question 20

PD considerations - distribution

Answer 20

Morphine is hydrophilic
P-glycoprotein efflux pumps limit CNS effects
- limit BBB crossing
- ex loperamide ->reduced central effects

Question 21

PD considerations - mutations

Answer 21

Homozygous mutation in MDR1 gene
- BC, Aussie, GS, shetlands, sheepdogs, whippets
- significant central effects
- morphine, methadone, fentanyl, buprenophine, oxycodone

Question 22

PD considerations - metabolism & elimination

Answer 22

Metabolized through hepatic microsomal enzyme
Morphine - phase III glucuronidation to morphine-3-glucuronide (EXCEPTION, poor glucur, rapidly metabolizes morphine through sulfate conjugate
Elim through biliary or renal
^ elim time in geriatric
Remifentanil met is via plasma esterase

Question 23

Which of the following best describes the opioid & classification?
Buprenophine - full Mu agonist
Methadone - partial Mu agonist
Fentanyl - Mu antagonist & K agonist
Oxymorphone - full Mu agonist

Answer 23

Oxymorphone - full mu agonist

Question 24

CNS effects - analgesia

Answer 24

Inhibition of presynaptic NT release & post hyperpolarization of neuronal membranes = v excitability = v transmission within spinal cord
^^regulation of supraspinal descending antinociception pathways
- epidural = saturate spinal opioid receptors = effects on C-fibers & A-delta fiber nociceptors

Question 25

Which opioid is more hydrophilic ?

Answer 25

Morphine

Question 26

CNS effects - sedation

Answer 26

Dose-dependent sedation, more profound sedation w phenothiazines and alpha-2s

Question 27

CNS effects - excitation

Answer 27

High does or rapid IV= excitation (^ plasma concentration quickly achieved)
Cats & horses can exhibit Dysphoric /excitatory behavior lasting few hours

Question 28

CNS effects - dysphoria & euphoria

Answer 28

Vocalizing, thrashing, ataxia, hypersensitivity

Question 29

CNS effects - thermoregulation

Answer 29

Hypo response: dogs, rabbits, birds (more profound w phenothiazines/inhalants)
Hyper response: cats, horses, rum, pigs
Cats: hydromorphone, morphine, buprenophine, butorphanol, up to 5 hours post extubation

Question 30

Respiratory effects

Answer 30

Direct depression from brainstem
(Mediated by supraspinal Mu2 opioid receptors)
Decreased responsiveness to ^ CO2
Dose dependent resp depression
(Consider ICP, lung disease)
Antitussives effects
Panting
Opioids cross placenta = resp depression of neo

Question 31

Cardiovascular effects - Bradycardia

Answer 31

Opioid induced medullary vagal stim
2nd degree atrioventricular block
Anti-muscarinics block/reverse this effect
Caution in young patients
-minimal effects of myocardial contractility, C output, arterial blood pressure (at clinical doses)

Question 32

Peristaltic effects

Answer 32

Propulsion contractions decreased
- constipation, ileum, concerning in horses & rum
Non-propulsive contractions increased
- occasionally causing defecation
- dogs>cats

Question 33

Endocrine effects

Answer 33

Histamine release - morphine, meperidine
Nausea & vomiting - direct stim of CTZ, IV<IM

Question 34

Urinary effects

Answer 34

Mu effect - increases ADH & natriuretic peptide, v urine production
Kappa effect - decreases ADH, diuresis

Question 35

Immune system effects

Answer 35

Morphine, fentanyl, codeine, methadone = Immunosuppression

Question 36

Ocular effects

Answer 36

Dogs, rabbits, rats = miosis
Cats, horses, rum = mydriasis

Question 37

Potential for substance abuse

Answer 37

Regulated substance
Tolerance & physical dependence
Opioid induced hyperalgesia
Gene expression affecting opioid metabolism

Question 38

Process of selection opioids

Answer 38

Degree of pain
Duration of pain/procedure
Sedation requirement
Adverse effects
Specific species requirements/limits
Available routes of admin
Cost

Question 39

Morphine
Analgesia, sedation, peak onset, side effects, routes

Answer 39

Analgesia - severe pain
sedation - excellent sedation
peak onset - 15-30 minutes, duration 3-4 hrs
side effects - histamine release, mania in cats/horses, vomiting, renal disease may impair clearance
routes - SQ, IM, IV, epidural

Question 40

Hydromorphone
Analgesia, sedation, peak onset, side effects, routes

Answer 40

Analgesia - severe pain
sedation - good sedation
peak onset - 15 min, dur 4-6 hours
side effects - vomiting if IM, less histamine release, panting in dogs, hyperthermia in cats
routes - SQ, IM, IV

Question 41

Methadone
Analgesia, sedation, peak onset, side effects, routes

Answer 41

Analgesia - severe
sedation - good
peak onset - 15, dur 4-6hr
side effects - no histamine release, no vomit, panting in dogs
routes - SQ, IM, IV

Question 42

Fentanyl
Analgesia, sedation, peak onset, side effects, routes

Answer 42

Analgesia - severe
sedation - good
peak onset - 6-8 minutes, duration 30-60 minutes
side effects - no histamine, no vomiting, bradycardia, chest rigidity (v compliance)
routes - IM, IV, transdermal

Question 43

Buprenorphine
Analgesia, sedation, peak onset, side effects, routes

Answer 43

Analgesia - mild to moderate
sedation - minimal
peak onset - 45-90 minutes, dur 6-8 hrs
side effects - high affinity for receptor, plateau effect, not effectively reversed w antagonist
routes - PO, Transmucosal, IM, IV

Question 44

Butorphanol
Analgesia, sedation, peak onset, side effects, routes

Answer 44

Analgesia - mild
sedation - good
peak onset - 10-15 minutes, dur 1-2 hrs
side effects - high affinity for receptor, plateau effect, can reverser effect of pure Mu agonists
routes - SQ, IM, IV

Question 45

Which of the following opioids should be avoided in a dog diagnosed w cutaneous & visceral mast cell tumors?
Buprenorphine
Methadone
Morphine
Oxymorphone

Answer 45

Morphine
Because of histamine release

Question 46

Reasons and effects of reversing effects with antagonists

Answer 46

Opioid overdose or excessively sedated or obtunded from opioids
^ alertness, responsiveness, coordination, ^awareness of pain

Question 47

Naloxone

Answer 47

Prototypical Mu antagonist
Onset: 2-5 min
0.01-0.04 mg/kg IV -> lasts 20-40 min
Opioid effects could reoccur

Question 48

Nalmefene, naltrexone

Answer 48

4x as potent as Naloxone
Onset: 2-5 min
Duration: 1-2 hours

Question 49

Methlynaltrexone

Answer 49

Quaternary derivative of naltrexone
Controls GIT side effects of opioids (ileus) without effecting centrally mediated analgesia

Question 50

Considerations for clinical use

Answer 50

Systemic use
Regional or local admin
Parenteral sustained release
Injectable subcutaneous

Question 51

Which is the best option in a cat that needs an abdominal explore, but also presented w hepatic and renal dysfunction?
Buprenorphine
Remifentanil
Methadone

Answer 51

Remifentanil - metabolized by plasma esterases

Question 52

Oral opioids

Answer 52

Tramadol, codeine, hydrocodone

Question 53

Tramadol with dogs & horses

Answer 53

Metabolized by O-desmethyltramadol (M1) via P450 enzymes which determines the strength of analgesia
Dogs & horses produce less M1 = weak analgesia
Cats produce substantial M1 = effective analgesia