Pain

Question 1

What is pain

Answer 1

An unpleasant sensory or emotional experience associated with actual or perceived tissue damage- a product of higher brain processing

Question 2

What is congenital insensitivity to pain

Answer 2

Don’t feel pain, can easily injure yourself

Question 3

What can cause congenital insensitivity to pain

Answer 3

Na+ channel mutation, nerve growth factor mutations, overexpression of opiods

Question 4

Congenital insensitivity to pain- Na+ channel mutation

Answer 4

Mutations in the voltage-gated Na+ channel in pain afferent neurons, means info about noxious stimuli is not transmitted

Question 5

Congenital insensitivity to pain- nerve growth factor mutations

Answer 5

Mutations in NRTK1, the nerve growth factor necessary for the growth and survival of nociceptive neurons

Question 6

Congenital insensitivity to pain- opiods

Answer 6

Overexpression of opioids, the brain’s natural pain relief

Question 7

How does congenital insensitivity to pain suggest pain and touch pathway are separate

Answer 7

Sensation of touch is normal in these disorders

Question 8

What are the 3 main types of nociceptors

Answer 8

Adelta mechanosensitive, Adelta mechanothermal, and C fibre polymodal receptors

Question 9

What sort of structure do Adelta and C fibres have

Answer 9

Free nerve endings, thin, Adelta is slightly wider and myelinated

Question 10

What types of temp do Adelta and C fibres detect

Answer 10

Adelta- cold thermoreceptors

C fibres- warmth receptors

Question 11

What sort of touch and pressure do Adelta’s free nerve endings detect

Answer 11

Crude touch- we’d only be aware of it if our dorsal columns were damaged

Question 12

What are nociceptors

Answer 12

Sensory receptors that respond to dangerously intense stimuli to signal that tissue is at risk of being damaged

Question 13

What is the threshold of nociceptors

Answer 13

High thresholds of stimulation

Question 14

What is the receptive field size of nociceptors

Answer 14

Large receptive fields

A delta < C fibres

Question 15

What neurotranmitters do Adelta and C fibres release at the first synapse

Answer 15

Adelta- glutamate

G fibres- glutamate and substance P

Question 16

What is the consequence of the large receptive field sizr of nociceptors

Answer 16

Make fine localisation difficult, but this isn’t really necessary, more important you feel the pain

Question 17

What stimulation do Adelta mechanothermal nociceptors respond to

Answer 17

Dangerously intense thermal stimulation

Question 18

What stimulation do Adelta mechanosensitive nociceptors respond to

Answer 18

Dangerously intense mechanical stimulation

Question 19

What do C fibre polymodal receptors respond to

Answer 19

Have lots of receptors that bind to different ligands produced in tissue injury, and report back using EPSPs from all the different ligands present

Question 20

Where do the nociceptors first synapse

Answer 20

Substantia gelatinosa in spinal cord

Question 21

What is substance P

Answer 21

Neuropeptide, no obvious clearance mechanism so hangs around a lot longer, can cause prolonged depolarisation when they bind to the NK1 receptor AKA hyperalgesia

Question 22

What is the result of the different fibres having different conductino speeds

Answer 22

First pain- sharp, brief better-localised pain (Adelta)

Second pain- duller, poorly -localised long-lasting pain with a burning quality (C fibre)

Question 23

How can we isolate the effect of Adelta vs C fibres

Answer 23

Can selectively block either pharmacologically, can separately stimulate each fibre to elicit 1st vs 2nd pain

Question 24

Experimental demonstration that nociception involves specialised neurons NOT greater discharge of neurons that respond to normal stimulus intensity

Answer 24

Applying increasing heat to a hand gradually increases firing rate of thermoreceptors, but thermosensitive nociceptors only become active when the heat becomes noxious (45degC), at which point the normal thermoreceptors are at max rate

Question 25

How do we know where pain comes from

Answer 25

By the location the fibres enter the spinal cord, the nerves the info is sent in, the separate pathways for different fibres despite them mixing together in the same nerve

Question 26

How does pain in the face and neck differ from in the rest of the body

Answer 26

The face and neck take a different path to the thalamus

Question 27

What do second-order neurons go from the substantia gelatinso

Answer 27

Decussate and enter the anterolateral quadrant, then travel up the spinothalamic tract contralaterally

Question 28

What happens to the 3rd neuron in the pain pathway

Answer 28

Neuron sends info from the thalamus to the somatosensory cortex

Question 29

How are the pain and touch relays similar despite being completely separate pathways

Answer 29

Pain and touch are both 3 neuron relays with 2 synapses

Question 30

What is referred pain

Answer 30

Pain detected by nociceptors in internal organs is often sensed on the surface of the body

Question 31

What is a possible explanation of referred pain

Answer 31

Nociceptors from several locations converge on a single ascending tract- since pain signals are more common than pain from internal organs, the brain associates activation of the pathway with pain in the skin (McGraw Hill 1987)

Question 32

What is Brown-sequard hemiplegia

Answer 32

Lateral hemisection of the spinal cord- loss of motor function and touch on the same side as the injury, loss of pain sensation on the opposite side to injury

Question 33

What does Brown-sequard hemiplegia demonstrate

Answer 33

Touch is carried on the same side as it is detected, whereas pain info crosses over and is carried on the opposite side of the body

Question 34

What are the main ascending pathways for pain

Answer 34

Spinothalamic tract (MAIN), spinoreticular tract, spinotectal tract

Question 35

What is the main descending pathway for pain

Answer 35

Spinomesencephalic

Question 36

What does the spinothalamic tract do

Answer 36

Important in localisation of painful or thermal stimuli- principal ascending pathway

Question 37

What does the spinoreticular tract do

Answer 37

Causes alertness in response to painful stimuli

Question 38

What does the spinotectal tract do

Answer 38

Orients eyes/head towards stimuli

Question 39

What does the spinomesencephalic tract do

Answer 39

Important in descending modulation- main descending pathway

Question 40

How have we identified the pain matrix

Answer 40

Scientists give people painful stimuli and see which parts of the brain light up- very many areas!

Question 41

Why does the pain matrix involve so many brain areas

Answer 41

Due to evolutionary importance of pain

Question 42

What do polymodal C pain fibres do instead of adapting to stimuli

Answer 42

They become sensitised to subsequent pain- for a lower stimulus intensity we get a greater pain intensity pain perception

Question 43

What is allodynia

Answer 43

When we experience pain from normal touch, well before normal pain response would be generated eg putting on clothes

Question 44

What can cause hyperalgesia in C fibres

Answer 44

Sensitisation of the peripheral nerve endings or at the first/second synapse as info travels to the brain

Question 45

What is hyperalgesia

Answer 45

increased amount of pain associated with a mildly noxious stimulus

Question 46

What 2 differently located effects does hyperalgesia involve

Answer 46

Sensitisation of peripheral nociceptive nerve terminals

Central faciliation of transmission aka ‘wind up’

Question 47

What do C fibres have receptors for

Answer 47

eg bradykinin, serotonin, ATP, H+ released in response to tissue injury

Question 48

Peripheral hyperalgesia- what transmission occurs as a result of mediators released by injured tisse binding to C fibres

Answer 48

Generated EPSPs on each C fibre summate to form APs that go up into the spinal cord and down the many branches of C fibres

Question 49

Peripheral hyperalgesia- what is the result of APs being sent down lots of C fibre branches

Answer 49

Neurotransmitters stored in these branches eg substance P and CGRP are released at the nerve ending

Question 50

Peripheral hyperalgesia-What is the effect of neurotransmitters eg substance P and CGRP released by the nerve endings

Answer 50

They act on mast cells and cause them to release histamines, and act on blood vessels to make more blood come to the damaged tissue area and make them leaky

Question 51

Peripheral hyperalgesia- what is the result of mast cells releasing histamines and increased leaky blood flow

Answer 51

NEUROGENIC INFLAMAMTION
Histamines sensitize polymodal C fibres
Swelling and reddening, allowing the area to fight damage and infection

Question 52

Peripheral hyperalgesia- why can pain be felt over large distances of the body

Answer 52

Mediators released by the injured tissue can diffuse to non-injured areas, and CGRP and substance P can be released at sites distance from the injury since the C fibres are so branches

Question 53

What is the protective function of pain being felt over long distances away from the injury

Answer 53

Forces you to protect the tissue and prevent further damage

Question 54

What is central hyperalgesia

Answer 54

Central sensitisation to pain by facilitation of pain transmission particularly in extended pain states eg chronic pain, aka ‘wind up’

Question 55

Why is central hyperalgesia/chronic pain bad

Answer 55

Untreated pain becomes worse, no longer helpful as an illness signal

Question 56

Where does central hyperalgesia occur

Answer 56

In the dorsal horn of the spinal cord (1st synapse), in the thalamus (2nd synapse)

Question 57

What is central hyperalgesia a form of

Answer 57

Neuronal plasticity

Question 58

Central hyperalgesia- what happens in terms of receptors under low levels of stimulation

Answer 58

Glutamate binds to AMPA receptors and signals pain to the brain
NMDA receptors bind glutamate but remain inactive due to the Mg2+ block

Question 59

Central hyperalgesia- what happens under repetitive stimulation

Answer 59

C fibres fire repeatedly, causing the release of glutamate AND substance P (which binds to NK1 receptors) causing slow prolonged depolarisation

Question 60

Central hyperalgesia- what is activated as a result of prolonged depolariation due to substance P

Answer 60

NMDA receptors (coincidence receptors) are activated as glutamate is bound AND depolarisation has removed the Mg+ block

Question 61

Central hyperalgesia- what is the result of NMDA receptors opening

Answer 61

Influx of Na+ down its conc gradient, but more importantly Ca2+ which activates calmodulin kinase and protein kinase C

Question 62

Central hyperalgesia- what is the result of activation of calmodulin kinase and protein kinase C

Answer 62

Phosphorylation/transcription/insertion of AMPA receptors, increasing sensitivity to glutamate
The whole process is a loop, causing hyperexcitability of nociceptive receptors after severe or persistent injury

Question 63

Central hyperalgesia- what is the effect of NK1 antagonists in animals

Answer 63

Have tried to reduce wind up in animals, reducing the chance NMDA will open to allow Ca2+ in, but these haven’t translated well to humans

Question 64

Central hyperalgesia- how can chronic pain be treated?

Answer 64

By giving NK1, NMDA or AMPA antagonists- however, these can cause side effects eg blockage of NMDA receptors can cause memory loss as the receptor is involved in memory

Question 65

Pain medications for inflammatory pain- what are NSAIDS

Answer 65

Non-steroidal anti-inflammatory drugs

eg can reduce prostoglandin (receptor) synthesis to reduce pain

Question 66

Pain medications for inflammatory pain- how do local anaesthetics work

Answer 66

Block VGNa+ channels in primary afferent fibres, preventing APs travelling up the spinal cord to create the perception of pain

Question 67

Pain medications for inflammatory pain- how do opiates work

Answer 67

Can can hyperpolarisation/IPSP by binding to u receptors to open K+ channels and close Ca2+ channels, reducing the amount of neurotransmitter released

Question 68

What are alternative pain medication examples

Answer 68

Acupuncture, TENS machines, deep brain stimulation, antidepressants, hypnosis

Question 69

What is acupuncture

Answer 69

Invasive procedure where small needles are inserted below the skin to relieve pain

Question 70

Study into how acupuncture works as pain relief

Answer 70

Goldman (2010)- acupuncture causes the release of adenosine that binds to A1R causing analgesia (pain relief)

Question 71

What is TENS

Answer 71

Transcutaneous electrical nerve stimulation- delivery of mild electric current through patches attached to the skin

Question 72

How is TENS believed to reduce pain

Answer 72

By creating electrical impulses in Abeta fibres, we can affect pain fibres via interneurons that connect the two

Question 73

What are 2 theories of the physiology behind TENS

Answer 73

Gating of pain transduction, production of natural endorphins

Question 74

What is the gate theory of pain

Answer 74

Melzack and Wall 1960s- Abeta fibre releases glutamate to stimulate an inhibitory neuron in the dorsal horn that releases GABA to cause an IPSP onto the C fibres, reducing their firing

Question 75

Major criticism of the gate theory of pain

Answer 75

No concrete evidence that this circuit exists

Question 76

Alternatve theory for gate theory of pain- cortical mechanism

Answer 76

Inui et al (2006)- suggests TENS relieves pain by cortical mechanisms with minimal spinal involvement

Question 77

Study supporting alternative theory for gate theory involving cortical mechanisms

Answer 77

Inui et al (2006)- using the different speeds of conductinon of Abeta and Adelta fibres, they stimulated them to ensure their signals never passed through the dorsal horn at the same time so the inhibitory circuit could not work- YET Abeta fibres still relieved pain despite only crossing the Adelta fibres in the cortex

Question 78

Examples when our perception of pain is altered

Answer 78

Beecher- WW2 soldiers with severe battle wounds experienced no pain
May not notice an injury while playing sports

Question 79

What are opioids

Answer 79

Natural pain relievers produced by our body, mimiced by manmade opiate drugs

Question 80

What placebo effect can occur if we think we’ve taken pain relief

Answer 80

We produce natural opioids, producing a real effect that can be blocked by opiate receptor antagonists

Question 81

What structures can enable descending modulation of pain

Answer 81

Collaterals from the relay neuron go to individual sites in the brain that determine how much pain is perceived
Can affect PAG, NRM, LC, NRPG

Question 82

Descending pain modulation- what is the PAG

Answer 82

Periaqueductal grey

Question 83

Descending pain modulation- what is the LC

Answer 83

Locus coeruleus

Question 84

Descending pain modulation- what is the NRM

Answer 84

Nucleus raphe magnus

Question 85

Descending pain modulation- what is the NRPG

Answer 85

Nucleus reticularis paragigantocellularis

Question 86

How does the PAG modulate pain

Answer 86

PAG can be stimulated or inhibited by the cortex depending on emotional state, can stimulate the NRM

Question 87

How does the NRM modulate pain

Answer 87

NRM can be stimulated by the NRPG or PAG, releases 5HT and enkephalin through dorsal lateral verniculus that comes into the dorsal horn to reduce pain transmission up the relay neuron

Question 88

How does the LC modulate pain

Answer 88

LC produces noradrenaline, which can inhibit pain transmission in the dorsal horn

Question 89

Evidence of the PAG being able to reduce pain

Answer 89

In animal models, stimulation of the PAG allows painless surgery on animals

Question 90

Where can opioids act in the body to modulate pain

Answer 90

Can reducing firing of nociceptive afferent neurons in the periphery, can cause IPSP in dorsal horn, can stimulate NRPG, can stimulate PAG by inhibiting an interneuron that usually inhibits PAG

Question 91

How do opioids have an effect on target areas

Answer 91

When opiates bind to a u receptor, they can open K+ channels to cause hyperpolarisation or close VGCa2+ channels to reduce the amount of neurotransmitter produced

Question 92

What is deep brain stimulation used to treat

Answer 92

Chronic neuropathetic (nerve) pain
Successful in 60% of patients halving pain

Question 93

What is deep brain stimulation

Answer 93

Electrodes implanted into the brain which send electrical current to stimulate brain areas to relieve pain (eg PAG, thalamus)

Question 94

How is is thought that deep brain stimulation reduces nerve pain

Answer 94

Increases levels of opioids, cause release of adeosine, or modify brain circuits to reduce transmission of pain

Question 95

What is the nocebo effect

Answer 95

When you feel a stimulus as painful because you expected it to be painful

Question 96

Study showing effect of nocebo effect on pain perception

Answer 96

Yoshida et al (2013)- a group who saw ‘participants’ screaming out in pain when touching a hot stimulus reported very high levels of pain when touching the stimulus themselves, compared to a group who just watched a nice film beforehand

Question 97

How can the nocebo effect be caused in pain perception

Answer 97

PAG can cause descending FACILIATION of pain rather than inhibition

Question 98

Where is the pain gate that determines how mcuh pain we feel

Answer 98

In the substantia gelatinosa of the dorsal horn, at the first synapse between the Ad or C fibres and the relay neuron

Question 99

Examples of factors that close the pain gate

Answer 99

Mechanosensitive stimulation, placebo, distraction, opiates, environmental danger etc

Question 100

Examples of factors that open the pain gate

Answer 100

Infection, depression, anxiety, nocebo effect, inflammation

Question 101

How is the intensity of pain encoded by the relay neuron

Answer 101

Frequency of AP firing

Question 102

What has to happen in the relay neuron for pain to be perceived

Answer 102

The relay neuron must reach threshold for an AP to fire to allow perception of pain

Question 103

What may cause phantom limb pain

Answer 103

When the severed ends of nerves that believe they are still connected to the limb are abnormally stimulated, causing the sensation of pain in the missing limb- missing limb may feel twisted, contracted etc
Cortical reorganisation

Question 104

What is mirror box therapy for phantom limb pain

Answer 104

Individual sees both of their hands as if they’re intact, move the intact hand but look in the mirror so it appears as the severed hand, tricks the brain into thinking the severed arm is no longer bent into the abnormal shape (Ramachandran et al, 2000)

Question 105

What is nociception

Answer 105

Refers to the peripheral and CNS processing of info about the internal or external environment, as generated by the activation of nociceptors

Question 106

How are nociception and pain different

Answer 106

Pain is the feeling, while nociception is the sensory process that provides signals that trigger pain

Question 107

What does congenital insensitity to pain suggest about the importance of pain

Answer 107

Low levels of nociceptive activity are important to tell us when a particular movement/posture is putting too much strain on our body- patients often injure themselves a lot, bite their tongue/lip

Question 108

How are Adelta mechanosensitive receptors activated

Answer 108

Mechanically gated ion channels in their membrane are bent by eg stepping on a thumbtack, depolarising the channel and generating APs

Question 109

What effect can proteases released at the site of injury have

Answer 109

Proteases can break down extracellular peptide kininogen to form bradykinin, that binds C fibre receptors

Question 110

How does ATP affect the C fibres

Answer 110

ATP depolarises receptors by binding directly to ATP-gated channels

Question 111

How are Adelta mechanothermal receptors activated

Answer 111

Heat above 43C burns tissues, causing heat-sensitive ion channels to open, leading to depolarisatino and APs

Question 112

Evidence for H+ acting on C fibres

Answer 112

Anaerobic metabolism causes a build up of lactic acid leading to an excess of H+ in the extracellular fluid, activating H+ gated ion channels on C fibres, causnig the dull ache associated with exercise

Question 113

Evidence for the role of histamines

Answer 113

Creams that contain antihistamines block histamine receptors, reducing pain and swelling

Question 114

What is primary vs secondary hyperalgesia

Answer 114

Primary- within area of damaged tissue

Secondary- tissues surrounding the damaged area

Question 115

Peripheral hyperalgesia- how can bradykinin have long-lasting effects

Answer 115

Bradykinin makes heat-activated ion channels more sensitive

Question 116

Peripheral hyperalgesia- what are prostaglandins

Answer 116

Chemicals generated by the enzymatic breakdown of lipid membrane, that greatly increase the sensitivity of nociceptors to other stimuli

Question 117

How can secondary hyperalgesia interact with CNS mechanisms

Answer 117

Following injury, activation of mechanoreceptor Abeta axons by light touch can evoke pain, allowing cross-talk between the touch and pain pathways in the spinal cord

Question 118

What do the pain fibres do before synapsing on cells in the substantia gelatinosa

Answer 118

Branch and travel a short distance up and down the zone of Lissauer

Question 119

What add neurotransmitter of the pain afferents appears necessary to experience moderate to intense pain

Answer 119

Substance P- stored in storage granules in the axon temrinals, released by high frequency trains of action potentials

Question 120

Example of referred pain

Answer 120

Pain in the heart from angina is often reported in the upper chest wall and left arm

Question 121

Which pathway conveys info about pain and temp from the spinal cord to the brain

Answer 121

The spinothalamic pathway

Question 122

Where does the second-order neuron synapse

Answer 122

The spinal thalamic fibres project through the spinal cord, medulla, pons and midbrain without synapsing until they reach the thalamus

Question 123

Where do the pain and touch pathways get close to each other

Answer 123

The pain pathway eventually comes to lie alongside the medial lemniscus, and some spinothalamic axons terminate in the VP nucleus but the two pathways remain distinct (different region of the nucleus)

Question 124

How great a region of the thalamus do the spinothalamic tract/trigeminal lemniscal axons synapse on compared to those of the medial lemniscus (touch pathway)

Answer 124

A much wider region- also project over a wider area of the cerebral cortex

Question 125

Which regions of the thalamus do the spinothalamic axons terminate in

Answer 125

Ventral posterior nucleus, small intralaminar nuclei of thalamus

Question 126

What is the trigeminal pain pathway

Answer 126

Fibres in the trigeminal nerve synapse on second-order sensory neurons in the spinal trigeminal nucleus of the brain, that then cross and ascend in the trigeminal lemniscus to the thalamus

Question 127

What is the role of pain pathways other than the spinothalamic and trigeminothalamic

Answer 127

Send axons to a variety of structures at all levels of the brain stem before they reach the thalamus- some important in generating sensatinos of slow, burning pain, while some trigger behavoural arousal and alertness

Question 128

Examples of opioids

Answer 128

Morphine, codeine, heroin

Question 129

Evidence of role of endorphins in pain relief

Answer 129

Small injections of endorphins into the PAG can produce analgesia by binding to opioid receptors

Question 130

Evidence of role of endorphins in pain relief from a blocker

Answer 130

Administering the blocker of opioid receptors, naxolone, blocks the effects of endorphins