Opiods

Question 1

Full agonist analgesics

Answer 1

Methadone
Heroin
Fentanyl
Morphine
Codeine

Question 2

Partial and “mixed” agonists

Answer 2

Buprenorphine
Nalbuphine

Question 3

Antagonists

Answer 3

Naloxone
Naltrexone
Methylnaltrexone

Question 4

What is an analgesic

Answer 4

drug that relieves pain

Question 5

Endorphins

Answer 5

“endogenous morphines”
begin with an enkephalin motif (Tyr-Gly-Gly-Phe-) (required for activity at the opioid receptors)

Question 6

enkephalins

Answer 6

Derived from preproenkephalin and proopiomelanocortin
Act at delta and mu receptors
Actions similar to morphine, both analgesia and addiction
Short-lived, having mainly the minimal required structure
Found in brain, adrenal medulla, gut, immune system
Regulate pain pathways, emotions (particularly anxiety), GI tract, immune system

Question 7

dynorphins

Answer 7

Dynorphin A and B and neoendorphins α and β, larger peptides
Derived from prodynorphin
Act at mu, kappa, and NOP receptors
CNS localization and released in response to pain
Longer-acting analgesia than the enkephalins

Question 8

endorphins

Answer 8

Mainly β-endorphin
Larger peptide, 31 amino acids
Derived from proopiomelanocortin (POMC)
Acts at kappa, mu, delta receptors
Found in brain, pituitary, adrenal medulla
The longest-acting of the endogenous peptides

Question 9

Endomorphins and Nociceptin/Orphanin FQ

Answer 9

The other members of this peptide family Physiological roles not yet clear

Question 10

The spectrum of opioid effects

Answer 10

All mediated by morphine

Question 11

CNS effects

Answer 11

a. Analgesia, spinal or supra-spinal
b. Euphoria
c. Sedation
d. Respiratory depression (a limiting side effect)
e. Cough suppression (another use)
f. Miosis (very useful for diagnosis of overdose)
g. Truncal rigidity (chest and abdominal muscles)
h. Nausea and vomiting
i. Body temperature changes
j. Sleep effects

Question 12

Peripheral organ effects

Answer 12

a. CV system – some bradycardia
b. GI system – constipation
c. Biliary tract – constriction, biliary colic
d. Renal – decreased function, multiple components
e. Uterus – may prolong labor
f. Endocrine
- increased ADH (decreased urine output)
- increased prolactin, somatostatin
- decreased LH (low T in males, dysmenorrhea or amenorrhea in females)
g. Skin – pruritis; flushing, itching; in part due to histamine release
h. Immune system – one source of opioids endogenously; very complex effects

Question 13

Opiate

Answer 13

a compound purified from the juice or resin of the opium poppy

Question 14

Opioid

Answer 14

any compound with actions similar to the opiates and act at opioid receptors

Question 15

Narcotic

Answer 15

from the word for sleep; often used in connection with opioids; but now generally refers to illegal use and/or addiction; of opioids or most any other addictive and/or illegal drugs

Question 16

Opioid receptors, mechanisms, effects

Answer 16

All are agonists at specific G protein-coupled receptors, termed the opiate receptors

Question 17

Mu receptors

Answer 17

Mediate morphine-like actions
- analgesia, sedation, anti-anxiety, euphoria, dependence
- respiratory depression, slowed GI transit
Expressed in CNS, spinal cord, periphery
.

Question 18

Kappa receptors

Answer 18

Mediate pentazocine-like actions
- analgesia, sedation, dependence
- dysphoria, hallucinations, miosis
Expressed in CNS, spinal cord

Question 19

Delta receptors

Answer 19

Mediate dynorphin-like actions
- analgesia, euphoria, dependence, tolerance
Expressed in CNS, periphery

Question 20

NOP receptors

Answer 20

Nociceptin/orphanin FQ receptors, the “newest” set of receptors
Respond to the endogenous peptide nociceptin, aka orphanin FQ
But only weakly to most opioid analgesics
Not currently a clinical target, but much research

Question 21

Morphine mainly acts at

Answer 21

mu and kappa receptors

Question 22

All full agonist opioid analgesics act at

Answer 22

mu receptors

Question 23

Mechanisms for opioid analgesia

Answer 23

1. Inhibition of pain signaling
   
   • Acts at both peripheral and spinal levels to block pain transmission
2. Pro-analgesic effects
   - Acts at higher brain levels to block response to pain
3. Multiple specific neuronal pathways and brain regions involved
   
   • Beyond the scope of this course

Question 24

Tolerance

Answer 24

“desensitization” of opioid receptors
need increasingly larger amounts of drug for some effect

Question 25

Dependence

Answer 25

need drug to feel normal

Question 26

Withdrawal

Answer 26

the unpleasant responses that a drug-dependent person experiences if the
drug is NOT continuously available and used

Question 27

Addiction and abuse

Answer 27

“psychological dependence” in addition to “pharmacological” dependence

Question 28

“Opioid Abuse Epidemic”

Answer 28

“physician-driven” epidemic; opioids over-prescribed

Question 29

Morphine

Answer 29

gold standard drug
oral administration
pain relief in 5-15 min (primarily for acute pain)
max effect in 60-90 min
4-5 hour duration
contin= continued release
IR=immediate release
ER= extended release
blocks pain transmission at spinal levels
acts at higher levels to block response to pain
raises pain threshold
Overdose, nausea, vomiting, constipation (little or no tolerance), miosis (no tolerance), pruritus,
cannot be used in patients with decreased respiratory reserve, head injuries, CNS tumors, pregnancy
Drug interactions: CNS depressants

Question 30

Codeine

Answer 30

only given orally for mild to moderate pain (often given with acetaminophen)
also used for cough impression
less potent than morphine
metabolized by CYP2D6
analgesia
Converted to morphine
More likely to cause constipation than morphine
Less addicting than morphine (schedule II drug, mixed into soda)
some patients are ultra-rapid metabolizers (concerning in children)

Question 31

Fentanyl

Answer 31

synthetic opioid
extremely potent analgesic (chronic pain, anesthesia, CV surgery)
Schedule II drug
more rapid onset than morphine and longer duration
multiple routes of administration
no histamine release
truncal rigidity
high addiction/abuse potential

Question 32

Heroin

Answer 32

more potent than morphine
more rapid CNS entry
shorter acting
extremely high abuse and addiction potential
schedule I drug (no approved uses

Question 33

Methadone

Answer 33

synthetic opioid (long-lasting analgesic)
unrelated to morphine or codeine
oral or IM at low dose
slow metabolism by CYP2B6 and CYP3A4
Schedule II
CV effects (QT prolongation)
major use for opioid abuse
methadone maintenance therapy (slow onset, high oral potency, long duration

Question 34

Partial agonist opioids

Answer 34

agonists when given alone
act as antagonists when on board with full agonists

Question 35

Mixed agonist-antagonist

Answer 35

Agonists at one receptor type
antagonists at another receptor type
drug class unique to opioids

Question 36

Nalbuphine

Answer 36

kappa receptor agonist (analgesic component)
mu receptor antagonist (avoid respiratory depression)
no oral admin due to rapid first-pass metabolism
similar potency to morphine
15 minute onset with 4-5 hour duration

Question 37

Buprenorphine

Answer 37

partial agonist at mu receptors (celing on respiratory depression)
antagonist at kappa receptor
mu receptor analgesia without kappa receptor side effects
opposite of nalbuphine
Schedule III drug
no oral admin due to rapid first-pass metabolism
used to treat opioid dependence and cocaine abuse
precipitates withdrawal symptoms in people using full agonists

Question 38

Loperamide

Answer 38

anti-diarrheal
full agonist
orally admin
NO CNS action (not an analgesic)
not a scheduled drug

Question 39

Diphenoxylate

Answer 39

ainti-diarrheal
Schedule V
prescription-only (high doses may cause opioid effects)

Question 40

Dextromethorphan

Answer 40

used for cough (antitussive effects like codeine)
not an analgesic
acts on opioid receptors

Question 41

Naloxone

Answer 41

prototype opioid antagonist counteracts opioid effects such as respiratory depression (only due to opioids)
treatment of acute opioid overdose (respiratory depression, miosis, coma)
binds partial agonist agents
given IV (not potent orally)
rapid-acting but short duration
will cause withdrawal

Question 42

Naloxone

Answer 42

prototype opioid antagonist counteracts opioid effects such as respiratory depression (only due to opioids)
treatment of acute opioid overdose (respiratory depression, miosis, coma)
binds partial agonist agents
given IV (not potent orally)
rapid-acting but short duration
will cause withdrawal

Question 43

Naltrexone

Answer 43

more orally effective and longer duration of action than naloxone
used to treat opioid dependence
used to prevent effects of opioids so they won’t be used
used to treat alcohol dependence

Question 44

Methylnaltrexone

Answer 44

treatment of opioid-induced constipation

Question 45

drugs given with naloxone

Answer 45

morphine
oxycodone
buprenorphine