Mer Scott
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PHCY320 (Oncology) Quiz on ON7 Pain Management - Opioid Drugs, created by Mer Scott on 06/10/2019.

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ON7 Pain Management - Opioid Drugs

Question 1 of 13

1

Pain types:
1. Nociceptive Pain. Acute, and physiological. Somatic (skin, bone, joint, muscle.) pain = , localised. Visceral (large intestine, pancreas.) referred or .

2. Neuropathic (pathologic) pain. from noxious stimuli. Chronic, damage.
• Related pain syndromes: neuropathy, post-herpetic, IBS
• Reported pain is than physical exam findings.

3. Inflammatory. More acute. , pathological.

4. pain. Chronic. No neuronal damage, noxious stimuli, or inflammation.

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    protective
    throbbing
    localised
    Disengaged
    neuronal
    diabetic
    greater
    Repairing
    Dysfunctional

Explanation

Question 2 of 13

1

Molecular mechanisms of pain:

1. Transduction
Stimulation of . Uses afferent fibres. activation threshold eg >45C or <5C. Sensitisation by bradykinin, serotonin, can threshold.

2. Transmission
Conduction of impulse from periphery to across horn of spinal cord. Neurotransmitters: Associated with thalamus and sensorimotor cortex.

3. Perception
Afferent impulse goes to pathways; also associated with thalamus and cortex. experience: cognition, behaviour

4. Modulation
transduction, conduction, transmission. Local inhibitory neurons: . Descending pathway is , also affected by the inhibitory substances: , 5HT, NA, endogenous cannabinoids.

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    nociceptors
    High
    prostaglandins, interleukins, TNFa,
    lower
    CNS
    dorsal
    Glutamate, Substance P, CGRP.
    ascending
    Conscious
    Suppress
    GABA
    locus coeruleus
    Opioids

Explanation

Question 3 of 13

1

The analgesic ladder (WHO)"
STEP 1 e.g. paracetamol, NSAIDs
STEP 2 suitable for moderate pain (or ) ± simple analgesics e.g. codeine, dihydrocodeine
STEP 3 Opioid suitable for pain ± simple analgesics e.g. morphine

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    Non-opioid analgesics
    Opioids
    tramadol
    severe

Explanation

Question 4 of 13

1

Endogenous opioids: at opioid receptors, eg Beta endorphin, Enkephalin
• Receptors: pre/post terminals in the cord, limbic system, PNS
• Inhibit - stimulate inhibitory pathways
• Euphoria

All opioid Rs are coupled to . R activation has many consequences.

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    Agonists
    synaptic
    spinal
    transmission
    inhibitory G proteins
    intracellular

Explanation

Question 5 of 13

1

Opioid Analgesics: Buprenorphine, codeine, fentanyl, morphine, diamorphine (heroin), oxycodone, tramadol.
• Agonists at opioid Rs.

stimulation (raphe magnus)
• Less activity in neurons = descending 5-HT neurons (brainstem)
• Presynaptic connection = nociceptive neurons (spinal cord)

Inhibition of GABA permits firing in pathway.
Analgesia: inhibition of release of (substance P, NO, glutamate.)

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    specific
    Muse-R
    GABA
    afferent
    descending
    increased
    pain mediators

Explanation

Question 6 of 13

1

Opioid analgesia:
Muse R activation = increased pain
Kappa R activation = m-mediated analgesia + has unopposed analgesia

Also present on peripheral nerves:
Muse agonists: decrease of nociceptive neurons (inflamed tissue)
Kappa receptors: endothelial cells, T lymphocytes, macrophages. Modulate response.

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    modulation
    antagonizes
    spinal
    sensitivity
    immune

Explanation

Question 7 of 13

1

All opioids have maximum potency for receptors.
Morphine, diamorphine, pethidine, oxycodone, codeine have specificity for .
Methadone has kappa or delta specificity, muse.
Fentanyl has no sensitivity, just muse and .
Naloxone has specificity for muse, less for kappa(but than most opiods), and some for delta.

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    muse
    kappa and delta
    NO
    only
    kappa
    delta
    more

Explanation

Question 8 of 13

1

Other CNS effects:
- Euphoria - Mediated by , contributes to analgesia
- Dysphorial ()
- Respiratory Depression - primary cause of ; depress rhythm generation in , desensitize brainstem (increasing )
- Cough suppression - Antitussive, direct effect on in medulla -

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    kappa
    muse
    morbidity
    medulla
    chemoreceptors
    pCO2
    cough center
    codeine, dextromethorphan

Explanation

Question 9 of 13

1

Peripheral effects:
GI Tract
• increased tone (m, k)
(80%)
• affecst of other drugs
• less stomach – anorexia, N&V

Cardiovascular system
• Few effects on heart or circulation
• High dose – depress center
• Hypotension (parenteral use of )

SEs are dose dependent.

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    resting
    constipation
    absorption
    motility
    medullary vasomotor
    morphine

Explanation

Question 10 of 13

1

Tolerance and dependence:
use causes adaptive changes in R function.
• More drug for same effects =
= adverse physiological effects (dependence)

Tolerance
• Learned ()
• (Adaptive)
• Most pharmacological effects ( constipation, pupil constriction)

Dependence (withdrawal syndrome, m)
• Anxiety, sweating, craving (12h)
• Rhinorrhea, pupils, yawning, chills, pilo, ventilation, diarrhoea
• Duration of action varies

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    Continuous
    tolerance
    Withdrawal
    psychological
    R downregulation/desensitization
    not
    dilated
    erection
    hyper

Explanation

Question 11 of 13

1

Cautions and contraindications:
Caution
• Impaired function (sleep apnea, asthma, COPD?)
• Renal impairment (dose )?
• Pregnancy?
Contraindications:
• Raised
• Acute head injury ()

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    respiratory
    reductions
    ICP
    pupillary responses

Explanation

Question 12 of 13

1

Strong opioids are used for pain in palliative care.

Select one of the following:

  • True
  • False

Explanation

Question 13 of 13

1

Tx options:
- Oral generally first-line strong opioid. Active metabolites (from impairment) lead to opioid toxicity = excessive , confusion, restlessness, hallucinations

- Oral is second-line. Risk of toxicity with renal impairment. inhibitors.

- safer option for patients with GFR < 30 mL/min

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    morphine
    renal
    sedation
    oxycodone
    CYP
    Fentanyl

Explanation