The Somatosensory System 2

Question 1

What are sensory receptors

Answer 1

Transducers that converts energy from the environment into neuronal action potentials

Question 2

What are the types of sensory neurones

Answer 2

Aβ-fibres
Aδ-fibres
C-fibres

Question 3

Describe the Aβ-fibres

Answer 3

Innocuous mechanical stimualtion
Myelinated and large
very fast

Question 4

Describe the Aδ-fibres

Answer 4

Noxious mechanical and thermal stimulation Myelinated and thinner than Ab
Fast

Question 5

Describe the C-fibres

Answer 5

Noxious mechanical, thermal and chemical stimulation
Non-myelinated
Slow

Question 6

What are the somatosensory modalities

Answer 6

Touch – detection of light mechanical stimuli

Thermal – detection of temperature

Nociceptor – noxious and pain

Proprioception – mechanical displacement of muscles and joints

Question 7

What kind of nerve endings do thermo-, noci-, and mechano- receptors have have

Answer 7

Thermo receptors - free nerve
Nociceptors - free nerve
Mechanoreceptors - enclosed nerve endings

Question 8

Describe thermoreceptors

Answer 8

Aδ- and C-fibres 
Free nerve ending 
Transient receptor potential (TRP) ion channels 
4 are heat activated: TRPV1 - 4
2 are cold activated: TRPM8, TRPA1

Question 9

What are the types of mechanoreceptor

Answer 9

Meissner’s corpuscle - fine discriminative touch, low frequency vibration

Merkel cells - light touch and superficial pressure

Pacinian corpuscle - Detects depp pressure, high frequency vibration and tickling

Ruffini endings - continuous pressure or touch and stretch

Question 10

What is a threshold

Answer 10

Point of intensity at which the person can just detect the presence of a stimulus 50% of the time (absolute threshold)

Question 11

What are tonic receptors

Answer 11

Detects continuous stimulus strength
Continues to transmit impulses to the brain as long as the stimulus is present
Keeps the brain constantly informed of the status of the body

Question 12

Give an example of tonic receptors

Answer 12

Merkel cells

Slowly adapt allowing for superficial pressure and fine touch to be percieved

Question 13

What are phasic receptors

Answer 13

Detects changes in stimulus strength

Transmits an impulse at the start and the end of the stimulus (when a change is taking place)

Question 14

Give and example of phasic receptors

Answer 14

Pacinian receptors
Sudden pressure excites receptor
Transmits a signal again when pressure is released

Question 15

What is a receptive field

Answer 15

Region on the skin which causes activation of a single sensory neurones when activated

Question 16

Compare small to large receptive fields

Answer 16

small - allow for detection of fine detail over small areas, precise perception e.g. fingers have many densely packed mechanoreceptors with small receptive fields

Large - allows the cells to detect changes one a wider area, less precise

Question 17

What is two point discrimination

Answer 17

Minimum distance at which two points are perceived as separate
Related to the size of the receptive field

Question 18

Where are the cell bodies found for the body and the face

Answer 18

Dorsal root ganglia (body)
Trigeminal ganglia (face)

Question 19

What are the two types of dorsal horn neurons

Answer 19

Neurones with axons that project into the brain (projection neurons)
Neurons with axons that remain in the spinal cord (interneurons)

Question 20

What is lateral inhibition

Answer 20

Prevents the overlap between two receptive fields
Facilitates pinpoint accuracy in localisation of the stimulus
Mediated by inhibitory interneurons within the dorsal horn of the spinal cord
Facilitates enhances sensory perception

Question 21

Which vertebral level is the boundary for the somatosensory pathway for touch and proprioception for the upper and lower limbs

Answer 21

T6
Below T6 = lower

Above T6 = upper

Question 22

What is the somatosensory pathway for touch and proprioception for the lower limbs (which vertebral level)

Answer 22

1. Aβ fibres enter the dorsal horn
2. Aβ fibres enter the ipsilateral ascending dorsal column pathway
3. Information travels ipsilaterally along the gracile tract (inner)
4. Synapse in the gracile nucleus
5. Crosses/ decussate in the caudal medulla (second order) to form the contralateral medial lemniscus tract
6. Projection to the ventral posterior lateral nucleus of the thalamus
7. Projection to the somatosensory cortex (third order neuron)

Question 23

What is the somatosensory pathway for touch and proprioception for the upper limbs (which vertebral level)

Answer 23

1. Aβ fibres enter the dorsal horn
2. Aβ fibres enter the ipsilateral ascending dorsal column pathway
3. Information travels ipsilaterally along the cuneate tract (outer)
4. Synapse in the cuneate nucleus
5. Crosses/ decussate in the caudal medulla (second order) to form the contralateral medial lemniscus tract
6. Projection to the ventral posterior lateral nucleus of the thalamus
7. Projection to the somatosensory cortex (third order neuron)

Question 24

What is size of somatotopic areas proportional to

Answer 24

Density of sensory receptors in that body region (somatosensory homunculus)
Pain and temp. localisation is not as precise)

Question 25

Describe the somatosensory pathway for pain and temperature

Answer 25

1. Sensations ascend within the lateral spinothalamic tract (crude touch in the anterior spinothalamic tract)
2. Synapse in the spinal cord
3. Decussate immediately in the spinal cord to form the spinothalamic tract
4. 2nd order terminates in the ventral posterior lateral nucleus of the thalamus

Question 26

What are the key differences between dorsal column and spinothalamic tracts

Answer 26

Spinothalamic - Pain, temp., coarse touch

Dorsal - light touch, vibration, 2 -point discrimination

Question 27

What is crude touch and fine touch mediated by

Answer 27

crude - Aδ fibres (free nerve ending)

fine touch - Aβ fibres (meissner’s corpuscles)

Question 28

What is the clinical importance of the 2 point discrimination to assess posterior column potency

Answer 28

Evaluate loss and gain to thermal and mechanical stimuli Normative data for face, hand foot and back

Question 29

Describe an anterior spinal cord lesion

Answer 29

Blocked anterior spinal artery causes ischaemic damage to the anterior part of the spinal cord
Spinothalamic tract damage causes pain and temp. loss below the level of the lesion
Retained light touch, vibration and 2-point discrimination (dorsal column intact)

Question 30

What is pain

Answer 30

An unpleasant sensory and emotional experience associated with actual or potential tissue damage, or described in terms of such damage

Question 31

What are the nociceptors and what kind of pain are they associated with

Answer 31

Aδ fibers - mediate sharp, intense or first pain

C-fibres - mediate dull, aching or second pain. Noxious thermal, mechanical and chemical stimuli (polymodal)

Question 32

What are the types of Aδ fibers

Answer 32

Type 1 - noxious mechanical

Type 2 - noxious heat

Question 33

Which NT is involved in spinal cord nociceptive processing (first synapse)

Answer 33

Glutamate released from sensory afferents in response to acute or persistent noxious stimuli

Question 34

Where are the sensory and emotional components of the pain pathways carried

Answer 34

Sensory - lateral spinothalamic tract -> thalamus -> cortex

Emotional - spinoreticular tract -> parabrachial area -> hypothalamus/amygdala

Question 35

What is involved in the pain matrix

Answer 35

Cortex: SI, SII, insula cortex, anterior cingulate cortex, prefrontal cortex
Amygdala
Cerebellum
Brainstem

Question 36

What is gate control theory

Answer 36

Inhibition of primary afferent inputs before they are transmitted to the brain through ascending pathways

Question 37

Describe the descending control pathway

Answer 37

Periaqueductal grey (PAG)
Facilitation and inhibition of nociceptive processing in the dorsal horn
Monoamines (seratonin, NA)

Question 38

What is the difference between nociceptive and neuropathic pain

Answer 38

Nociceptive - Noxious stimulation go a nociceptor (somatic or viscera)

Neuropathic - Lesion of disease of the somatosensory system

Question 39

Give examples of mixed nociceptive and neuropathic pain

Answer 39

Osteoarthritis

Low back pain

Question 40

Compare peripheral sensitisation to central sensitisation

Answer 40

peripheral - Reduced thresholds to peripheral stimuli at the site of injury

Central - Reduced thresholds to peripheral stimuli at an adjacent site to the injury
Expansion of receptive field
Spontaneous pain

Question 41

What is allodynia

Answer 41

pain due to a stimulus that does not normally provoke pain

Question 42

What is hyperalgesia

Answer 42

Increased pain from a stimulus that normally provokes pain
Primary - site of injury/pain
Secondary - area around it