Physiology and Pathophysiology of pain

Question 1

What is pain?

Answer 1

• Pain is an unpleasant sensory and emotional experience which we primarily associate with tissue damage or describe in terms of such damage or both
• Final product of complex-information processing network

Question 2

What is pain not?

Answer 2

A stimulus

Question 3

Where do the 4 steps of pain processing take place?

Answer 3

• Periphery
• Spinal cord
• Brain
• Descending tracts

Question 4

What part does the periphery play in pain processing?

Answer 4

• Detection

- Transmission to spinal cord (first order neurons)

Question 5

What part does the spinal cord play in pain processing?

Answer 5

• Processing

- Transmission to brain (Thalamus) (second order neurons)

Question 6

What part does the brain play in pain processing?

Answer 6

Perception, learning, response

Question 7

What parts do the descending tracts play in pain processing?

Answer 7

Modulation

Question 8

What is nociception?

Answer 8

The detection of tissue damage by specialized transducers connected to A-delta and C fibers

Question 9

What are nociceptors?

Answer 9

Free nerve endings of A delta and C fibres

Question 10

What do nociceptors respond to?

Answer 10

Respond to thermal, chemical, mechanical noxious stimuli

Question 11

Where do the primary afferent/1st order neurons synapse?

Answer 11

Spinal cord

Question 12

Where are the cell bodies of the primary afferent/1st order neurons?

Answer 12

Dorsal root ganglion

Question 13

What are the 4 different types of nerve fibre?

Answer 13

• Aa
• AB
• A delta
• C

Question 14

What fibres are myelinated?

Answer 14

Aa and AB

Question 15

What fibres are lightly myelinated?

Answer 15

A delta

Question 16

What fibres are unmyelinated?

Answer 16

C

Question 17

What fibres have a large diameter?

Answer 17

Aa and AB

Question 18

What fibres have a small diameter?

Answer 18

C

Question 19

What fibres have a medium diameter?

Answer 19

A delta

Question 20

What is the thermal threshold of Aa and AB fibres?

Answer 20

None

Question 21

What is the thermal threshold of A delta fibres?

Answer 21

• Type 1 53C

- Type 2 43C

Question 22

What is the thermal threshold of C fibres?

Answer 22

43C

Question 23

What fibres are responsible for proprioception and light touch?

Answer 23

Aa and AB

Question 24

What fibres are responsible for nociception (mechanical, thermal and chemical)?

Answer 24

• A delta

- C

Question 25

What fibre are responsible for innocuous temperature and itch?

Answer 25

C

Question 26

What does grey matter of the spinal cord represent?

Answer 26

Neurons (cell bodies)

Question 27

What does white matter of the spinal cord represent?

Answer 27

Nerve tracts

Question 28

What are the 3 anatomical divisions of grey matter?

Answer 28

Ventral, lateral and dorsal horn

Question 29

What does rexed divide the grey matter based on?

Answer 29

Rexed divided the grey matter into 10 layers based on their cytoarchitecture

Question 30

Where are the low threshold mechanoreceptive neurons located primarily?

Answer 30

Low Threshold mechanoreceptive neurons, located primarily in layer 3 & 4 receiving input from A beta fibres

Question 31

Where are the nociceptive specific neurone located primarily?

Answer 31

Nociceptive specific neurons located primarily in layer 1 & 2 , receiving input from C & A delta fibres

Question 32

Where are the wide dynamic range neurones primarily located?

Answer 32

WDR wide dynamic range neurons in layer 5 which receive mainly input from A beta but responds to both noxious and non-noxious stimuli via intereurons

Question 33

What is located in the dorsal horn of the spinal cord?

Answer 33

• First order synapse

- Rexed lamina 2 and 5

Question 34

What neurons are located in the spinal dorsal horn?

Answer 34

Neurons which receive the input

• Nociceptive specific
• Low Threshold Mechanoceptive
• Wide Dynamic Range

Question 35

What does the anterior spinothalamic tract convey?

Answer 35

Sensation of simple touch

Question 36

What does the lateral spinothalamic tract convey?

Answer 36

Fast and slow pain (pain and temperature sensations)

Question 37

What is the spinothalamic tract?

Answer 37

Major ascending tract for nociception

Question 38

Where do the spinothalamic tracts arise?

Answer 38

Rexed lamina 2 and 5

Question 39

Where do the lateral spinothalamic tracts end?

Answer 39

Venteroposterior thalamic nucleus

Question 40

Where do the anterior spinothalamic tracts end?

Answer 40

Medial thalmic nuclei

Question 41

What is the second relay station?

Answer 41

Thalamus

Question 42

What does the thalamus connect to?

Answer 42

• Cortex
• Limbic system
• Brainstem

Question 43

Where does pain perception occur?

Answer 43

Pain perception occurs in somatosensory cortex

Question 44

What structures are involved in imprinting a new memory?

Answer 44

• Amygdala
• Hippocampus
• Prefrontal cortex
• Cingulate cortex
• Insula

Question 45

How do we develop a response to pain?

Answer 45

• The medialpart of the pain matrix composed of amygdala, hippocampus, cigulate cortex insula, prefrontal cortex all feed back and forward with brainstem centres for the affective and emotional component as well as descending control of pain.
• If there is no previous memory of insult then the structures above will imprint. This is how we develop a response to pain and know how to react

Question 46

What is the periaqueductal grey?

Answer 46

Descending pathway from brain to dorsal horn

Question 47

What type of system is the periaqueductal grey?

Answer 47

Noradrenergic system

Question 48

What effect does the periaqueductal grey usually have in pain signals?

Answer 48

Usually decreases pain signal

Question 49

What is hyperalgesia?

Answer 49

It is the leftward shift of the stimulus response curve, in other words: Increased perception of pain or even perception of non-noxious stimuli as noxious stimuli

Question 50

When does hyperalggesia occur?

Answer 50

It happens whenever there is tissue injury and inflammation

Question 51

What is primary hyperalgesia occur?

Answer 51

Primary hyperalgesia is hyperalgesia at the site of injury

Question 52

What is secondary hyperalgesia?

Answer 52

Hyperalgesia in the surrounding uninjured tissue

Question 53

What stimuli can hyperalgesia apply to?

Answer 53

Any stimuli including mechanical and thermal

Question 54

What is allodynia?

Answer 54

A form of hyperalgesia: dynamic mechanical hyperalgesia that to light touch.

Question 55

What mechanisms are involved in allodynia?

Answer 55

Both peripheral and central mechanisms

Question 56

What changes occur in the nociceptor in allodynia?

Answer 56

Decreased threshold for response

Question 57

What changes in nociceptor occur in hyperalgesia?

Answer 57

Exaggerated response to normal and supranormal stimuli

Question 58

What changes in nociceptor occur in spontaneous pain?

Answer 58

Spontaneous activity in nerve fibres

Question 59

What is central sensitisation?

Answer 59

It is the response of second order neurons in the CNS to normal input both noxious & non-noxious

Question 60

What are the main components of central sensitisation?

Answer 60

• Wind up
• Classical
• Long term potentiation

Question 61

What does wind up happen in?

Answer 61

Wind-up happens only in neurons taking part in the synapses with primary afferent input

Question 62

What is wind up?

Answer 62

• Wind-up is literally winding up the response to the input

- . It is activity dependent; progressively increases the response of the neurons

Question 63

What does wind-up manifest over?

Answer 63

It manifests only over a course of a stimulus and terminates with stimulus.

Question 64

What neurotransmitters mediate wind up?

Answer 64

Substance P and CGRP

Question 65

What does classical central sensitisation involve?

Answer 65

Involves opening up of new synapses in the dorsal horn. So the new synapses, which were silent till then, will start to receive input and record the nociception. It does occur with all stimuli but the intensity has to be strong to elicit this response.

Question 66

What is heterosynaptic activity in classical central sensitisation dependent on?

Answer 66

Plasticity

Question 67

What is the duration of classical central sensitisation?

Answer 67

If the intensity strong enough, it occurs immediately with the stimuli and can outlast the duration of stimuli. -NMDA receptor activation by glutamate is known to trigger a series of changes resulting in classical central sensitization.

Question 68

What is the clinical result of classical central sensitisation?

Answer 68

clinical result is the secondary hyperalgesia, where the area surrounding the injury site is also painful and where the touch also becomes painful.

Question 69

How can classical central sensitisation be maintained?

Answer 69

Once activated, it can be maintained even by low intensity of the offending stimuli.

Question 70

What is involved in long term potentiation?

Answer 70

Involves mainly the activated synapses

Question 71

What does long term potentiation occur primarily for?

Answer 71

Occurs primarily for

very intense stimuli

Question 72

What conditions is suprsegmental central sensitisation involved in?

Answer 72

• Fibromyalgia
• Chronic widespread pain
• Painful physical symptoms of depression/anxiety

Question 73

Describe the characteristics of acute pain?

Answer 73

• <1 month to resolution
• Physiological
• Presence of noxious stimuli
• Sevres protective function
• Usually nociceptive

Question 74

Describe the characteristics of chronic pain?

Answer 74

• > 3-6 months to resolution
• Pathological
• Presence of noxious stimuli is not essential
• Does not serve any purpose
• Nociceptive, neuropathic or mixed

Question 75

What is nociceptive pain?

Answer 75

A sensory experience that occurs when specific peripheral sensory neurones (nociceptors) respond to noxious stimuli

Question 76

What are the characteristic of nociceptive pain?

Answer 76

• Painful region is typically localised at the site of injury – often described as throbbing, aching or stiffness
• Usually time limited and resolves when damaged tissue heals (e.g. bone fractures, burns and bruises)
• Can also be chronic (e.g. osteoarthritis)
• Tends to respond to conventional analgesics

Question 77

What is neuropathic pain?

Answer 77

Pain initiated or caused by a primary lesion or dysfunction in the somato-sensory nervous system

Question 78

What are the characteristics of neuropathic pain?

Answer 78

• The painful region may not necessarily be the same as the site of injury – pain occurs in the neurological territory of the affected structure (nerve, root, spinal cord, brain)
• Almost always a chronic condition (e.g. postherpetic neuralgia [PHN], poststroke pain)
• Responds poorly to conventional analgesics

Question 79

What treatments can be targeted at the transduction portion of the pain pathway?

Answer 79

• NSAIDs
• ICE
• Rest
• LA blocks

Question 80

What treatments can be targeted at the transmission portion of the pain pathway?

Answer 80

• Nerve blocks
• Drugs (Opioids, Anticonvulsants)
• Surgery (DREZ, Cordotomy)

Question 81

What treatments can be targeted at the perception portion of the pain pathway?

Answer 81

• Education
• Cognitive behavioural therapy
• Distraction
• Relaxation
• Graded motor imagery
• Mirror box therapy

Question 82

What treatments can be targeted at the descending modulation portion of the pain pathway?

Answer 82

• Placebos
• Drugs (opioids, antidepressants)
• Surgery (spinal cord stimulation)

Question 83

What is gate control theory?

Answer 83

The gate control theory of pain asserts that non-painful input closes the “gates” to painful input, which prevents pain sensation from traveling to the central nervous system. Therefore, stimulation by non-noxious input is able to suppress pain