OPIOID ANALGESICS
(ANALGESICS – ANODYNES)
Department of Pharmacology MU
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                   Pain
nDefinition:
  „subjective unpleasant sensory or emotional experience accompanied by real or potential damage of
tissues, with motoric and vegetative responses “

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A) by duration

B) according to pathophysiology
Pain – types and classification
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A)   According to length of experience
1) acute: sign of and disease, danger or damage to organism...
2) chronic: more than 3 months / unusually long for a given disease or disorder
Pain – types and classification
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A)   According to length of experience
1) acute: physiological sensory perception,
-tissue damage,
-mobilizes defensive forces of the organism in order to remove the inducing cause of the pain
2) chronic: pathological,
pain may persists even after the removal of the causes → difficult to determine whether the pain
arose as a result of persistent pathological activity in the nerve endings in the periphery, or is
the source of the CNS
Pain – types and classification
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B) According to pathophysiology
1) nociceptive – irritation of nociceptors
    Therapy: „analgesic ladder“ according WHO
    (see below; not used for aggressive procedure in the treatment for cancer or breakthrough pain)
2) neurological and neuropathic pain
    Therapy: antidepressants and anticonvulsants
(in combination with opioids or some muscule relaxants; neuroprotective vitamins – thiamine;
antimigraine drugs from the group of the so-called triptans; antipsychotics = neuroleptics)
Pain – types and classification

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B) According to pathophysiology
3) psychogenic pain
somatization, hypochondric and somatoform disorder
    Therapy: psychopharmac drugs (antidepressants – TCA, SSRI, anxiolytics, antipsychotics)
Pain – types and classification

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nneuralgia
    sharp, paroxysmal pain, affects peripheral or cranial nerves (often the trigeminus, facialis) →
after traumatological damage, compression, viral infects (herpetic), metabolic (DM)
npain in the chronic compression of peripheral nerves and nerve roots
    hernia of the intervertebral discs, compression of the nerve in the spinal cord → pain +
paresthesia, pain acquires a hot character
Special types of pain
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nischemic pain
    due to disorders of blood circulation in the myocardium, smooth or skeletal muscle
nmigraine
    migraine is characterized by attacks of pulsating, mostly unilateral headache lasting typically
4-72 hours with nausea, possible vomiting, photofobia and phonofobia, suffering from 12% of the
adult population
Special types of pain
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nphantom pain
surgically or traumatically removed parts of the human body, most commonly the lower limb or other
parts of the body (ablation of the breast, as well as after the removal of the visceral organs -
the colon);
apply pathophysiological influences peripheral, central and psychogenic;
nbreakthrough pain
    sudden, transient, mostly short-term worsening of pain in patients who have well-controlled
baseline pain;
usually in patients treated with opioids for cancer diagnosis; typically in progression of cancer
Special types of pain

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ndelivery pain
- belongs to the strongest pain reliever, nevertheless, that before the birth are rising thresholds
for somatic and visceral pain
- the tissue is developed by excessive pressure, they are strongly being pushed and lacerations
occur
- tissues are under influence of bradykinin, H+, K+, histamine and serotonin
- induction of stress → ↑ cortisol, epinephrine, norepinephrine, dopamine → somatic and
psychological reactions
Special types of pain

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ONCOLOGICAL PAIN
SOMATIC
MANIFESTATIONS
sharp or dull pain
Inflammatory response
colic pain
neuralgia
EMOTIONAL
MANIFESTATIONS
anxiety
depression
SOCIO-ECONOMIC IMPACT
personality changes
care of the security of the family
the breakdown of the family
loss of friends
EXISTENTIAL CONCERNS
concerns about the course
of the disease
general uncertainty
the fear of death
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VAS: Visual analogue scale
Diagnostics of Pain
NO PAIN
THE WORST PAIN
YOU CAN IMAGINE
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Process of pain perception
algognostic component
 algothymic component
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Pain – causes and mechanism
Mediators of pain
(act on the nociceptors = pain receptors)
„algogenic substances“
     bradykinin                  +                  ↑PGE (mediators of     inflammation), increase
sensitivity of nociceptors
     histamine
     acetylcholine
     substance P (pain)
tissue damage  production of prostaglandines and other substances  effects on the free nerve
endings  transduction of signal up to the brain neurons  PAIN
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Endogenous pain suppressing (analgesic) substances:

endorphins
enkephalins
dynorphins

Pain – causes and mechanism
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Pain transduction – 3 neuron`s tract
tractus spinothalamicus
(spinothalamic tract)
vs.
tractus spinoreticulothalamicus
(spinoreticulothalamic tract)
MAIN PAIN PATHWAYS
the tracks leading from the spinal cord (spinal ganglia) to specific areas of the brain (finally to
the cerebral cortex) information about pain is received and processed

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Pain transduction – 3 neuron`s tract
→  spinothalamic tract – 3 neuron`s phylogenetically younger pathway
– sharp, well localized pain
→ spinoretikulothalamic tract – phylogenetically older polysynaptic system, impulses are
transmitted to the higher centres through short axonal pathways
– dull, poorly localized pain
nvegetative response: blood pressure change, tachypnea, mydriasis, diaphoresis, increased muscle
tone,...

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Analgesics – anodynes (opioids)
Non-opioid analgesics (analgesics – antipyretics  NSAIDs)
Local anaesthetics
General anaesthetics
Adjuvant therapy (antidepressants, neuroleptics - antipsychotics, antiepileptics - anticonvulsants,
antimigrenics, central/peripheral myorelaxants, corticoids, bisphosphonates, caffeine…)
Pharmacological modulation of pain

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analgesics – anodynes (opioids)
Analgesics – suppress perception of pain (increase the pain threshold) selectively without
influencing perception of other stimuli
non-opioid analgesics
act on spinal and supraspinal level,
cause effects on somatic and visceral pain, strong effects on consciousness, act substantially more
strongly than non-opioid analgesics
mostly peripheral effects (some have central effects!), effects on inflammation, weaker effects in
general, no effects on visceral pain,
no addiction
Pharmacological modulation of pain
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Analgesics - anodynes
Opiates
 substances similar structurally to morphine with analgesic effect (natural origin, currently
produced synthetically)
Opioids
 + synthetic, semisynthetic and endogenous opioid peptides + exogenous opioid analgesics
blocking transmission of pain signals between cells of the CNS (in the spinal cord, brain), as well
as endogenous opioids:
endorphins, enkephalins, dynorphins
→ binding to opioid receptors (agonists)

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Opioid receptors - μ κ δ (σ)
•  G-protein coupled
•the interaction of the opioid with receptor → G- protein inhibition → reduction of
neurotransmitter release + inhibition of neuronal activity
•adenylylcyclase inhibition, facilitation of K+ channels opening postsynaptically, inhibition of
Ca2+ channels opening presynaptically
n µ
n κ
n δ
n(σ)
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nμ – supraspinal analgesia, euphoria, sedation, miosis,
            breath depression, addiction, GIT effects

nκ – spinal + peripheral analgesia, sedation, dysphoria, miosis,
           GIT effects, (somatic addiction)

nδ – spinal analgesia, breath depression, inhibition of GIT motility
n[σ] – dysphoric effect, psychotomimetic effect
          [(hallucinations, perception disturbances), anxiety]
Opioid receptors - μ κ δ (σ)
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Opioid receptors - μ κ δ (σ)
FOR ANALGESIC EFFECT IS CRUCIAL ESPECIALLY ACTIVATION OF RECEPTORS:
μ – supraspinal analgesia
κ – spinal + peripheral analgesia
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Opioid receptors - μ κ δ (σ)
FOR ANALGESIC EFFECT IS CRUCIAL ESPECIALLY ACTIVATION OF RECEPTORS:
FOR ADDICTION IS CRUCIAL ESPECIALLY ACTIVATION OF RECEPTORS:
μ – supraspinal analgesia, euphoria
κ – spinal + peripheral analgesia
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Pharmacological influence on opioid receptors
Atypical opioids
      agonists
(strongly effective,
moderate/weakly effective)
partial agonists – dualists
mixed agonists - antagonists
antagonists
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Pharmacological effects
of analgesics - anodynes
CENTRAL:
analgesic
suppression of respiratory center
sedation (+-)
suppression of anxiety
euphoria/dysphoria
antitussive effect
nausea and vomiting
 tendency to convulsions/cramps
miosis
secretion of ADH,
 GnRH, corticotropine, FSH, LH, ACTH, cortisol, testosterone)
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TOLERANCE !!!
(to all effects of opioids except constipation and miosis!)
ADDICTION !!!
Pharmacological effects
of analgesics - anodynes
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PERIPHERAL:
•decrease intestinal motility, slowdown
     propulsion of GIT content
•increase muscle tone of GIT and urinary bladder
•increase sphincter tone of gall bladder and urinary bladder
•constriction of pyloric sphincter, delayed gastric emptying
•vasodilation, orthostatic hypotension
•histaminoliberation
•inhibition of ciliated epithelium
•
Pharmacological effects
of analgesics - anodynes
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PERIPHERAL:
•urological tract – increase tone of renal pelvis, ureter, m. detrusor and sphincter of
bladder…urine retention, especially in post-operative conditions
•uterus - ↓ tone and motility, may prolong labor
Pharmacological effects
of analgesics - anodynes

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ABSORPTION
DISTRIBUTION
parenteral
oral („first pass effect“ !!!)
perrectal
transdermal
sublingual
transmucous (nasal)
parenchymatous organs
muscles
adipose tissue (lipophilic drugs ➙ e.g. fentanyl)
pass well across BBB ➙ brain (fentanyl,
heroin,..)
Can cross placental barrier !!!
Pharmacokinetics
of analgesics - anodynes
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BIOTRANSFORMATION
EXCRETION
primarily in liver
polar metabolites
• inactive metabolites
• active metabolites (codeine, tramadol,
                                        morphine…)
• kidneys - urine
• liver - bile
Pharmacokinetics
of analgesics - anodynes

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Opioid agonists
morphine
• 10 % of opium content, together with codeine,  thebaine
   + other phenanthrene alkaloids
• isolated in 1803 (Sertürner)
• high affinity to µ receptors – selective µ agonism
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 morphine
Ø see above effects
Ø application routes:
Ø orally (also p.o. with sustained release)
Ø parenterally (i.v., i.m., s.c., epidural,… )

Ø perrectally
Indications:  chronic cancer pain, pain after surgery, injuries, (pain during acute myocardial
infarction → today, given preference to other opioids)
Opioid agonists
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Other strong opioid analgesics
methadone
• less sedation and euphoria than in morphine
• ↑ bioavailibility after oral administration, ↑t ½
• acts on opioid + NMDA receptors
• Use: addiction treatment (heroin) ➙ 2 benefits
    ➙ change from injection application to oral administration
    ➙ ↑t ½ decreases plasmatic fluctuation of methadone ➙ less
          withdrawal symptoms
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Other strong opioid analgesics
heroin (= diacetylmorphine)
•  not used in clinical medicine (in Czech Republic)
    (but in Great Britain can be therapeutically used!)
•  causes severe addiction; abused!
•  heroin belongs to the most health and personality
    devastating substance!!!
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fentanyl, sufentanil, remifentanil,…
•   pass well across HEB (↑ concentrations in CNS)
•   strong, short analgesia (fentanyl 100 x more potent
     than morphine, sufentanil 1000 x more potent than
     morphine)
•   strong respiratory depression!, ↓ emetogenic
     potency, CAVE ➙ can cause muscle rigidity
•   risk of serotonin syndrome in combination with
     5-HTergic drugs
Other strong opioid analgesics
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fentanyl, sufentanil, remifentanil,…
• Indications, use:
• in anaesthesiology ➙ neuroleptanalgesia
                                          (= neuroleptic (AP) + opioid)
                                     ➙ analgosedation (e.g. opioid + BZD)
• therapy of strong pain – acute myocardial infarction,
   cancer pain,…
• fentanyl in TTS (↑ duration of action – can be used in
   chronic cancer pain), transmucous (can be
    used in breakthrough
pain)



Other strong opioid analgesics
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piritramid
• less respiratory depression than morphine
•  less emetogenic potency
•  usually well tolerated parenteral administration
• Use: therapy of acute strong pain, e.g. after surgery (PCA),
  acute myocardial infarction, pain after injuries,…
Others: oxycodone, hydromorfone (not registered in Czech Rep.), oxymorphone (not registered in
Czech Rep.)
CAVE: all strong opioids are prescribed to forms with blue band („opiate forms“), very strict
accounted and subjected to the rules for handling with narcotics and
psychotropic drugs and their precursors!!!

Other strong opioid analgesics

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Other strong opioid analgesics
pethidine (=meperidine)
•↓suppression of respiratory center than morphine
•↓analgesic potency than morphine (5-10 x weaker)
•metabolite norpethidine is proconvulsive and causes hallucinations
•administration orally and parenterally
Indications: cancer pain, pain after injuries, pain during acute myocardial infarction, pain after
surgery, premedication before general anaesthesia…today not often used (high risk of abuse,
hallucinations!)

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codeine
• 10 % mtb. to morphine
• antitussive effect in subanalg. doses
• analgesic effect in combinations (paracetamol, ASA)
     analgesic potency: codeine 50mg ~ ASA 1g
• ↓ risk of addiction than strong opioids
•     CAVE ↑ risk of addiction of combined (compositive) analgesics
•     causes obstipation
•     not used in children!!!

Opioid agonists (moderate and weak potent)
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dihydrocodeine
• suitable in pains combined with cough (this co-incidency is not
      necessary for dihydrocodeine indication)
•    in Czech Rep. dihydrocodeine in sustained release drug form
      (effect 12 h) ➙ indication for chronic moderate and strong
     pain
Side effects: obstipation, ↑liver tests, histaminoliberation
Opioid agonists (moderate and weak potent)
CAVE: codeine and dihydrocodeine are prescribed to normal forms - without blue band!

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Partial agonists + mixed agonists - antagonists
• lower affinity to μ receptors, high affinity to κ rec.,
• respectively κ-agonists  -  μ-antagonists or partial  μ receptor agonists (buprenorphine)
• less potential for addiction, but exists!
• lower analgesic effect than full agonists
• less side effects than full agonists
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buprenorphine
• partial μ  rcp. agonist
• ↓tolerance in comparism with other opioids
• ↓abuse potential, obstipation and other GIT effects
•↑ „first pass effect“ ! Do not administer orally!!!
• Use:
1) strong chronic pain (TTS!)
2) substitution therapy of opioid (heroin) addiction ➙ combined with opioid antagonist naloxone in
one drug form (sublingual) ➙ in injection application naloxone antagonizes effects of buprenorphine
(in sublingual administration naloxone does not act!)
Partial agonists + mixed agonists - antagonists
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Partial agonists + mixed agonists – antagonists – other representatives
•mixed agonists – antagonists
•usually μ-antagonists and κ-agonists (event. also δ-agonists)
•possibility of σ-receptor activation → psychotomimetic and  hallucinogenic effects)
•analgesic effects are weaker than full agonists
•today minimal use
•pentazocin, butorfanol – in Czech Rep. not registered

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nalbuphine
• for short-term therapy of moderate and strong pain
• unsuitable for long-term therapy
• parenteral administration (i.v., i.m., s.c.)
• causes respiratory depression comparable to morphine, but suppression of respiratory center has
drug ceiling effect
• Use: perioperative pain, suppression of pain in obstetrics (BE AWARE: in newborns risk of
breathing depression, bradycardia, cyanosis and hypotension  → newborn`s monitoring necessary!)
Partial agonists + mixed agonists – antagonists – other representatives
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Atypical opioids
tramadol
low affinity to μ receptors + norepinephrine and serotonin reuptake inhibition (= atypical
mechanism of action, similar to some antidepressants from SSRI group; effect of tramadol can not be
fully antagonized by opioid antagonists)
•  approximately 1/6 – 1/10 of morphine analgesic potency
• very suitable combination with paracetamol
• less side effects (minimal respiratory depression)
• risk of serotonin syndrome
• in Czech Rep. very often prescribed analgesic, prescription to normal forms without blue band;
more drug forms
• RISK OF ADDICTION!!!
Use: therapy of moderate and strong pain
(acute and chronic)
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tapentadol
• dual mechanism of action
     -  μ agonist + NRI (+ σ agonist)
       NEW GROUP – MOR-NRI (μ receptor agonism – noradrenaline  reuptake inhibitor)
• more effective than tramadol, analgesia comparable with oxycodone, but less adverse effects
• suitable for the treatment of acute (but also chronic pain – e.g.
    vertebrogenic; also effective  in diabetic neuropathy - neuropathic pain!!!)
• relatively few adverse effects (compared to classical strong opioids, e.g. oxycodone)
• p.o. administration (also tbl. with sustained release)
Atypical opioids
CAVE: tapentadol is prescribed to forms with blue band („opiate forms“), very strict accounted and
subjected to the rules for handling with narcotics and psychotropic drugs and their precursors!!!

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Antagonists of opioid receptors
naloxone, naltrexone
Indications: treatment of opioid intoxication, treatment of respiratory depression induced by
opioids, addiction diagnostics (withdrawal symptoms)

TRIAD: coma, respiratory depression, miosis
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Opioid-induced side effects
nrespiratory depression (suppression of breathing)
nnausea and vomiting
nsedation, inhibition of cognitive functions
nconstipation (solution = oxycodone + naloxone)
nADDICTION
nbe carefull in pro-convulsive states! (e.g. epilepsy – proconvulsive action – decrease of the
threshold for seizures)
n intracranial pressure
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Intoxication by opioid agonists
nausea, „flush“, tinnitus
apathy, sedation, sleep, miosis
superficial breathing
cyanotic, cold skin, tachycardia
asphyxia
TRIAD: coma, respiratory depression, miosis
Treatment:
naloxone i.v.
ventilation, vital functions,
parenteral liquids in unconsciousness
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Withdrawal symptoms
„craving“ („drogenhunger“), „craving“ for the another dose
(psychic addiction arises easiest to heroin, oncology patients treated with opioids ➙ < 1% of
patients)
unrest, depression
anxiety, weakness, nervousness, mydriasis
lacrimation, ↑ nose secretion, frisson (goosebumps),
↑ perspiration, pain, stenocardia
occur approximately after 3-4 weeks of opioid administration
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Rotation of opioids
nSwitch in case of AE
nSometimes even in equianalgesic dose increase of effect
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Other indications of opioids
nantitussive effect
ncan be induced by codeine and dextromethorphan in dry non- productive cough
nconstipative effect
ncan be induced by loperamide and diphenoxylate in functional diarrhea
np r e m e d i c a t i o n  before anaesthesia and surgery under general anaesthesia
nleads to calm the patient and based on the synergism of drugs reduces the total dose of narcotics
(thereby increasing the safety of anaesthesia)
nparticularly fentanyl and its derivatives are used
ncombination of opioid analgesic with neuroleptic (fentanyl + droperidol) within neuroleptanalgesia
nr e p l a c e m e n t (substitution) therapy of addiction to heroin
or other opioids – methadone, buprenorphine
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General rules of pain pharmacotherapy management
nWHO's pain relief ladder
ºStep 1 (VAS 0-4)
nnon-opioid analgesics ± adjuvant treatment
ºStep 2 (VAS 4-7)
npain persists, intensifies, no change in the objective finding
nweak/moderate opioid analgesics ± non-opioid analgesics ± adjuvant treatment
ºStep 3 (VAS 7-10)
npain persists, intensifies, there is no indication for another treatment
nstrong opioid analgesics ± non-opioid analgesics ± adjuvant treatment ± weak/moderate opioid
analgesics
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