Psychopharmacology of Addictive Behaviour (PYB260) 2024 Lecture Notes PDF

Summary

This document is a lecture covering the psychopharmacology of addictive behaviors, focusing specifically on opiates. It includes topics like the history, administration, effects, treatment, and withdrawal symptoms associated with opiate use.

Full Transcript

PYB260

PSYCHOPHARMACOLOGY OF
ADDICTIVE BEHAVIOUR
Sem 2, 2024

Week 12: Action & Effects of Opiates

Melanie White, QUT
 Lecture Outline
What are opiates?

History

Administration, distribution & excretion

Effects of opiates – physiological & performance

Conditioning, tolerance & withdrawal

Harmful effects

Pharmacotherapies for opiate/opioid disorders
 Reflection Questions (egs, not exhaustive)
Explain all the ways that heroin differs from morphine
How are the ‘opiate receptor like’ receptors (ORL1) similar & different to the other 3 types
of (typical) opiate receptors?
How do opiates have their effects upon binding to typical opiate receptors? How do the
effects differ by receptor type?
Which brain regions are thought to underlie the effects of opiates on a) reinforcement, b)
physical dependence & c) respiration?
What are some of the key differences in psychopharmacological properties of synthetic
opiates used to treat opiate addiction vs. other opiates
Describe some of the moderating factors affecting mood effects
Describe pattern of effects of opiates on unconditioned behaviour and conditioned behaviour
in rodents
What are opiates/opioids?
&
The history of their use
 What are opiates: overview?
Opium
Opiates/Opioids (opium-like substances)
Morphine & codeine (opium derivatives)
Heroin (modified (semi-synthetic) morphine derivative)
Synthetic opiates (e.g., meperidine/ pethidine (Demerol), methadone,
dextromethorphan)
Endogenous “opiates”
 What are narcotics?
Opiates aka narcotics or narcotic analgesics

Narcotic analgesics: sensitivity to pain & sleep

Opiates must meet the following criteria:
1. Sedative-hypnotic & analgesic properties
2. Acts on endorphin/enkephalin receptors
3. Actions antagonized by naloxone (Narcan)
 What are opiates?

Opium:
extracted from poppies
active ingredients in seedpod sap
2 main active ingredients:
1. Morphine
2. Codeine
 Table 11.1
Opioid Drug Formulations & Routes of Administration
Routes of
Opioid Drug Administration for Common Recreational
Pharmaceutical Routes of Administration
Formulations

Oral (tablet, capsule);
Morphine Rectal (suppository); Injected, swallowed,
Parenteral (i.v., i.m., smoked
s.c. injectable solution)

Parenteral (i.v., i.m.,
Heroin s.c.)* Injected, snorted, smoked

Oral (tablet, capsule, Injected, swallowed (often
Codeine syrup); Parenteral (i.m., mixed with soda or
s.c. injectable flavorings)
solution)

Oral (tablet, capsule,
Hydrocodone syrup) Injected, swallowed, snorted

Source: Textbook, Fig 11.1
 What are opiates?

Heroin:
derived from morphine
“semi-synthetic” opiate
10 X more lipid soluble vs. morphine = faster absorption in 
concentrations
 What are opiates?

Synthetic opioids:

opiate-like effects (stimulate opioid receptors) but different chemical
structure

Egs: Meperidine (pethidine), fentanyl, dextromethorphan (cough
mixtures; “roboing”) & LAAM
 History of Opiates

6000 BC – West Mediterranean cultivation

1300 BC – Egypt

200 BC use spread through Middle East

460 BC Hippocrates - Medical uses

400 AD introduced to China from Arab traders
 History of Opiates

1680 Sydenham produces Sydenham’s Laudanum –
opium, sherry, wine & herbs

1700 Chinese began smoking opium rather than tobacco

1767 – import of opium to China = 2000 chests/year

1793 – British East India Co. has monopoly on opium trade

1825-1875 British opium consumption 
 History of Opiates

Morphine becomes available on prescription

1839 - 1841 – First Opium War

1843 – Dr. Alexander Wood discovers injecting morphine

1856 – 2nd Opium War

1874 – heroin synthesized by C.R. Wright

1890 – US impose tax on opium & morphine
 History of Opiates
1895 – Dreser ‘invents’ heroin

1898 – heroin marketed by Bayer

1900’s – St. James Society campaign for free heroin for morphine addicts

1905 – US congress bans opium

1910 – Chinese succeed in dismantling the India-China trade

1914 Harrison Narcotic Act bans morphine, opium & cocaine
 US “Opioid epidemic”

https://www.cdc.gov/overdose-prevention/about/understanding-the-opioid-overdose-epidemic.html?CDC_AAref_Val=https://
www.cdc.gov/opioids/basics/epidemic.html
 2022–‍2023 National Drug Strategy Household Survey
(NDSHS)

Figure 1: Summary of alcohol,
tobacco, e-cigarette, and illicit
drug use, people aged 14 and
over, 2022–‍2023

https://www.aihw.gov.au/reports/illicit-use-of-drugs/national-drug-strategy-household-survey/contents/summary
www.acic.gov.au/sites/default/files/2024-07/Queensland%20%E2%80%93%20Report%2022.pdf
Administration, absorption,
distribution & excretion of
opiates
 Administration, distribution & excretion

Morphine:
a base with pKa of 8.0
→ less effective when taken orally (vs. injection)
With oral administration:
undergoes significant first pass metabolism (liver)
absorbed slowly (but may be desirable if taken for analgesic properties)
 Refresher: Ionization of drug molecules

pKA

Theoretical curve for
weak base with
pKA=8

(adapted from McKim & Hancock, 2013, Fig. 1-7, p.15)
 Administration, distribution & excretion

Heroin:
Usually injected
Can be taken intranasally (snuff)
Inhaled (chasing the dragon)
 Administration, distribution & excretion
Distribution
Most opiates concentrated in heart, lungs, kidney, liver, spleen, & bound to proteins
in blood
Pass through placental more readily than blood-brain barrier (low lipid solubility)
An exception: Heroin is highly lipid soluble  easily enters brain
Within brain, opiates are concentrated in basal ganglia, amygdala & periaqueductal
gray matter
 Administration, distribution & excretion

Active ingredients of opiates:
Morphine itself
Heroin: molecules are inactive in the brain but it’s metabolites (morphine &
monoacetylmorphine) are active
Codeine: primary action through metabolites (main one being morphine, others
include norcodeine & codeine-6-glucoronide)
 Administration, distribution & excretion
2 phases of metabolism in liver (differential for diff. opioids):
1. Digestive system enzymes (CP450)
2. Metabolic interference (other enzymes) – conjugation btwn metabolite/ drug molecule & water-
loving substance
→ metabolites excreted by kidneys
Excretion of morphine
Active transport mechanism from brain
10% excreted unchanged (in urine)
½ life = 2 - 4.5 hrs
90% eliminated codeine > propoxyphine
Only reinforcing in non users if they experience pain (Fentanyl study on ‘cold’
pain)

Out of lab data
“Chipping”
Addiction & “maturing out”
 Fig 11-2 Text
 Discrimination

Readily discriminated from saline

Morphine will generalize to all other mu opiates, but only partly to mixed
agonists-antagonists

Can discriminate between morphine & mixed agonists-antagonists

Tolerance to discriminative effects in 1-3 days ( with dose)
 Tolerance
Tolerance
Rapid tolerance to most effects
Tolerance develops (& disappears) at different rates for different effects
Tolerance due to:
Metabolism
Receptors
Learning (context-dependent effects)
Opiates & cross tolerance:
Occurs with other opiates
NOT with depressants, stimulants, or hallucinogens
Partially occurs with alcohol
 Withdrawal
Never fatal
Starts 6-12 hrs > last dose; peak 1-3 days; usually over