Pain and Analgesia Lecture Notes PDF

Summary

These lectures provide detailed explanations of pain and analgesia. The document covers pain perception, the pain pathway, analgesic ladder, and opioid analgesics. It explores different kinds of pain, including acute and chronic pain, as well as inflammatory and neuropathic pain. Various topics such as nociceptors, signal transduction, and the role of different mediators are discussed.

Full Transcript

PAIN
Professor Arthur Butt

School of Pharmacy and Biomedical Science

1
Structure of Lecture.

1. Introduction
2. Pain: Perception and Sensation
3. The Pain Pathway
4. The Analgesic Ladder
5. Opioid Analgesics
 Sensory system
Sensory receptors Transmit sensory information into
– mechanoreceptors the spinal cord and to sensory
– thermoreceptors areas of the brain
– chemoreceptors
– Proprioceptors
– nociceptors
Structure of Lecture.

1. Introduction
2. Pain: Perception and Sensation
3. The Pain Pathway
4. The Analgesic Ladder
5. Opioid Analgesics
 2
Pain: Perception and Sensation

Pain = perception
– subjective response
– to a noxious stimulus
Sensation = nociception
– Nociceptors
– free nerve endings
 Different kinds of pain
DIFFERENT KINDS OF PAIN:
– Acute (physiological)
– Inflammatory (pathological)
– Neuropathic
Acute (physiological) Pain

Acute pain is a physiological
response that warns us of
danger.
Nociception - normal
processing of pain and the
responses to noxious stimuli
that are damaging or potentially
damaging to normal tissue.
Inflammatory Pain

} Inflammatory Pain
} Tissue damage
} release of inflammatory mediators such as prostaglandins and bradykinin
} increase the sensitivity of nocipetors to noxious stimuli
} Sensitization in the pain pathway
} hyperalgesia - hypersensitivity to a noxious stimulus (hypersensitive nociceptors)
} allodynia - pain that results from a non-noxious stimulus (low-threshold mechanoreceptors and
thermoreceptors)
} NSAIDs reduce production of prostaglandins
Neuropathic Pain
} Neuropathic Pain is caused by damage or injury to the nociceptive
nerves – peripherally or centrally.
} The pain is usually described as a burning sensation and affected
areas are often sensitive to the touch.
 Nociceptors
Nociceptors are free nerve endings in the skin
Many stimuli have been found to activate ion channels present on nociceptor
terminals
Act as molecular transducers to depolarize these neurons
Thereby setting off nociceptive impulses along the pain pathways
Blocked by local anaesthetics, e.g. lidocaine
 Signal transduction in nociceptors

Clinical Significance
Antagonists block TRPV1 activity, thus reducing pain
TRPV1 antagonists have been developed
- efficacy in reducing nociception from
inflammatory and neuropathic pain models in rats
In humans, major side-effect is hyperthermia restricted
usefulness of these drugs

TRPVI

TRPV1 – transient receptor potential cation channel vanilloid 1 (TRPV1) receptor
– cation channel, activation results in sodium influx
- activated by noxious heat, also low pH
- leads to painful, burning sensation
- sensitised by inflammatory agents
 Signal transduction in nociceptors
Clinical Significance
upregulated in patients with painful bladder
syndrome
may be a target in prostate cancer

TRPV1 –noxious heat

TRPM8 – TRP subfamily M member 8 (TRPM8)
- cation channel - sodium influx in response to cold
 Signal transduction in nociceptors

TRPV1 – noxious heat

TRPM8 (CMR1) – cold

ENaC/Degenerin family – activated by mechanical stimuli
 Signal transduction in nociceptors

TRPV1 - noxious heat

TRPM8 (CMR1) - cold

ENaC/Degenerin family - mechanical stimuli

ASIC – acid sensing ion channel – belongs to the same family as ENaC
- sodium channel activated by protons - acid
 ASICs - Mamba Venom
Mamba venom is made up mostly of
dendrotoxins (dendrotoxin-k, -1, -3, and Black mamba venom is 'better
-7, among others) painkiller' than morphine
mambalgins
– potent analgesic as strong as morphine
– without most of the side-effects.
– Block acid-sensing ion channels

Black mamba venom peptides target
acid-sensing ion channels to abolish
pain
Diochot et al. (2012) Nature
Structure of Lecture.

1. Introduction
2. Pain: Perception and Sensation
3. The Pain Pathway
4. The Analgesic Ladder
5. Opioid Analgesics
The Pain Pathway
Perception of pain throughout the body arises
when neural signals transmitted to specific
higher order brain areas

Cingulate Cortex mediates the emotional
component of pain
 Descending Pain Control Circuit
Opioids
} Opiates decrease pain by modulating
the descending pain pathway in a
complex manner

Opioids
 Pain transmission in the spinal cord
} Nociceptive axons synapse with second order neurons in lamina I, II, and V of the
dorsal horn in the spinal cord

} Transmission
◦ for moderate pain axons release glutamate, with fast action
◦ stronger pain: axons release glutamate and substance P (and ATP),
with slower sustained actions
 Pain transmission in the spinal cord
} Nociceptive axons synapse with second order neurons in lamina I, II, and V of the
dorsal horn in the spinal cord

} Transmission
◦ for moderate pain axons release glutamate, with fast action
◦ stronger pain: axons release glutamate and substance P (and ATP),
with slower sustained actions

carbamazepine – NaCh
Sodium channel blocker

Ziconotide - conotoxin from cone snail
Voltage gated calcium blocker

ketamine
Decrease of glutamate
 Pain transmission in the spinal cord
} Nociceptive axons synapse with second order neurons in lamina I, II, and V of the
dorsal horn in the spinal cord

} Transmission
◦ for moderate pain axons release glutamate, with fast action
◦ stronger pain: axons release glutamate and substance P (and ATP),
with slower sustained actions
} Local inhibitory interneurons release GABA
and glycine

gabapentin

pregabalin
 Pain transmission in the spinal cord
} Nociceptive axons synapse with second order neurons in lamina I, II, and V of the
dorsal horn in the spinal cord

} Transmission
◦ for moderate pain axons release glutamate, with fast action
◦ stronger pain: axons release glutamate and substance P (and ATP),
with slower sustained actions
} Local inhibitory interneurons release GABA
and glycine

} Descending pain control fibres release
opioids to inhibit pain
 Descending Pain Control Circuit
} Opiates decrease pain by modulating
the descending pain pathway in a
complex manner

Noradrenergic and Serotonergic

Antidepressants - Tricyclics
Treatment of neuropathic pain
e.g. amitriptyline, doxepin, imipramine) inhibit
reuptake of norepinephrine and serotonin
Structure of Lecture.

1. Introduction
2. Pain: Perception and Sensation
3. The Pain Pathway
4. The Analgesic Ladder
5. Opioid Analgesics
 The analgesic ladder
Mirrors the pain pathway
Step one - non-opioid analgesics (eg aspirin,
paracetamol, non-steroidal anti-inflammatory
drugs (NSAIDs).
 The analgesic ladder
Mirrors the pain pathway
Step one - non-opioid analgesics (eg aspirin,
paracetamol, non-steroidal anti-inflammatory
drugs (NSAIDs).
Step two - mild opioids (eg codeine) with or
without non-opioid:
Step three - strong opioids with or without non-
opioid; useful for moderate-to-severe pain
 The analgesic ladder
Mirrors the pain pathway
Step one - non-opioid analgesics (eg aspirin,
paracetamol, non-steroidal anti-inflammatory
drugs (NSAIDs).
Step two - mild opioids (eg codeine) with or
without non-opioid:
Step three - strong opioids with or without non-
opioid; useful for moderate-to-severe pain

Neuropathic Pain -
Antidepressants (5-HT),
anticonvulsants
(carbamazepine – NaCh
and GABA-R),
gabapentin and
pregabalin (GABA),
ketamine (NMDA
receptors)
 Summary - Targetting Pain
The analgesic ladder mirrors the pain pathway

(1) NSAIDs - site of injury/painful stimulus –
inflammatory pain, e.g. NSAIDS – Cox inhibitors
(inhibit production of prostaglandins) - ibuprofen,
Naproxen, Diclofenac (contraindicated in
asthmatics and those with gastric problems).
Also in this group have one specific for certain
things eg mefenamic acid for period
pain(menorrhagia)

(2) Analgesia – descending control -
Paracetamol, Codeine based- co-codamol,
Tramadol (very weak μ-opioid receptor agonist),
Morphine

(3) Neuropathic pain – spinal (dorsal horn
neurons) - Amitriptyline, gabapentin, Pregabalin
Structure of Lecture.

1. Introduction
2. Pain: Perception and Sensation
3. The Pain Pathway
4. The Analgesic Ladder
5. Opioid Analgesics
 OPIATES versus OPIOIDS

OPIOID - encompasses all drugs that act on opioid receptors - synthetic, semi-
synthetic, or naturally occurring.
OPIATE - subset of opioids that are either derived directly from poppy or
synthesized from one.
 Opioid Receptors
↑

Endogenous opioids are dynorphins,
enkephalins, endorphins, endomorphins
and nociceptin

G protein-coupled receptors with opioids
as ligands
- Mu µ opioid receptor (MOR) –
activated by morphine, b endorphin
and enkephalins
- Delta d opioid receptors (DOR)
activated by enkephalins and b
endorphin
- Kappa k opioid receptor (KOR)
activated by dynorphin

Receptor Activation
- Opens K+ channels – makes
neurons less excitable
- Inhibits Ca2+ channels – decreases
neurotransmitter release
 MoR DOR ROR
Morphine B.

Endorphin Dynorphine

B endorphin En Rephalins

En Kephalins
 Addiction
Reward centre of the
brain - DOPAMINE
 Tolerance
Receptor Desensitization
 Peripheral Effects
} GI motility
} Decreased propulsive peristaltic
waves
} Tone is increased to the point of
spasm
} Tone of anal sphincter is greatly
increased, reflex relaxation response
to rectal distention is reduced

} Ureter and urinary bladder
} Increase tone and amplitude of
contraction of ureter, response quite
variable
} Inhibit urinary voiding reflex,
catheterisation may be required
 Some OPIOIDS

} Diamorphine (heroin)
- Very lipid soluble
- Pass through BBB readily so fast onset
- Within body rapidly deacetylated to morphine
} Codeine
- 20% analgesic efficacy of morphine
- Mainly used as oral analgesic fo
- mild type of pain (headache, backache etc )
- Causes constipation
- Has antitussive activity so often used in cough mixtures
} Nalorphine
- Opioid antagonist, high first-pass metabolism so has to be given by
injection
- Use for reversing respiratory depression, haemorrhagic shock
} Naloxone
- Opioid antagonist, orally active and longer acting
- Use in treatment of opioid addiction
 Some OPIOIDS

} Pethidine Insomnia

- Virtually identical to morphine but tends to cause restlessness rather than
sedation Relax
- Additional anti-muscarinic action (dry mouth and blurred vision)
- Partly N-demethylated in liver to norpethidine which has a hallucinogenic and
convulsant effect
, XSI
- Preferred to morphine for analgesia during labour, because it is shorter acting
} Methadone
- Main difference from morphine is oral efficacy and considerably longer
duration of action
- Used in treatment of opioid addiction
The End – Thank you