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Flashcards in somatosensation I Deck (27)
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1
Q

what does the somatosensory system do?

A

connects the body to the CNS via peripheral nerves

2
Q

what sensations does the somatosensory system convert from the body?

A
  • heat, cold
  • pain, itch
  • proprioception
  • touch
3
Q

what is proprioception?

A

being aware of the position of the body (like sixth sense)

4
Q

what types of peripheral nerves exist?

A

spinal and cranial

5
Q

structure of peripheral nerves?

A

a nerve is a bundle of axons, covered in a connective sheath called an epineurium

  • the nerve consists of several fascicles, all separate by connective tissue called perineurium
  • the fascicles contain axons, and individually myelinated axons are wrapped in endoneurium
6
Q

what does the dorsal root contain?

A

cell bodies of incoming sensory neurones

7
Q

what does the ventral root contain?

A

cell bodies of outgoing motor neurones

8
Q

what us the dorsal root ganglion?

A

occurs just as the dorsal and ventral roots fuse, located just outside of the spinal cord
-contain cell bodies of the sensory neurones that are part of the somatosensory system

9
Q

dorsal and ventral root reunite to form what?

A

spinal nerve

10
Q

white matter

A

ascending and descending axons tracks

11
Q

grey matter

A

cell bodies, dendrites, synapses, glial cells

12
Q

what is the spinal cord divided into

A

incoming sensory info and outgoing motor info

13
Q

what are dorsal root ganglion cells?

A

sensory receptors of the somatosensory system

14
Q

explain the 2 functionally distinct systems of the somatosensory system

A

2 different white matter tracts

  1. (DCML)
    - mechanosensory afferent fibres
    - a-beta and a-alpha afferent fibres
    - large fibres, large diameter, myelinated, fast conduction
    - touch, vibration, tactile, proprioception
    - enter the spinal cord and enter the medulla and then cross
  2. (STT)
  • thin fibres
  • a-delta and C fibres
  • small diameter, thinly myelinated/unmyelinated, medium/slow conducting
  • pain, itch, crude touch coarse, temperature
  • enter the spinal cord, make contact with second order neurones in the spinal cord - these cross to the other side, then ascend up to the brain
  • the receptor endings/axon terminals are in areas of the body eg. the fingers
  • the axon travels centrally via the dorsal root
  • axon can then terminate or they may ascend the spinal cord all the way to the brainstem
15
Q

crude touch

A

crude touch is touch without knowing the location

16
Q

what does the quality of sensation depend upon?

A

the afferent fibre type

17
Q

if the afferent fibre is a member of the small class of fibre what will the sensation be?

A

temperature related, pain or crude touch

18
Q

if the afferent fibre is a member of the large class of fibre what will the sensation be?

A

proprioception

19
Q

cutaneous receptors of the somatosensory system?

A

larger diameter afferents - 4 major classes in the skin:

2 are cutaneous, receptor endings between the dermis and epidermis - tactile afferents, sensitive to light touch - Meissners Corpuscle and Merkels discs

2 are deeper in the dermis, or between dermis and hypodermic - Ruffini’s and Pacinian corpuscles

also there are free nerve endings

20
Q

proprioceptors of the somatosensory system?

A

group 1 and 3 afferent axons detect changes in length

  • muscle spindles are stretched and increase their firing rate
  • muscle spindle itself can be made to contract by the gamma motor neurone - recalibration of muscle spindle length
21
Q

what are muscle spindles?

A

specialised muscle fibres, detect changes in muscle length

22
Q

receptors of the somatosensory system?

A
  1. proprioception
    - muscle spindles, A-alpha afferent fibres, large diameter, fastest conduction
  2. tactile afferents - A-beta afferent fibres, large diameter, second fastest conduction
    a) superficial
    Meissners Corpuscle and Merkels discs
    b) deep
    Ruffini’s and Pacinian corpuscles
  3. free nerve endings
    - end in the dermis/epidermis
    - A delta fibres - thin, myelinated, moderate conduction
    - C fibres - thin, unmyelinated, slow conduction
23
Q

what do Pacinian Corpuscles detect?

A

vibration

24
Q

what do Ruffini Corpuscles detect?

A

stretch

25
Q

what are small receptive field needed for?

A

precise detail

26
Q

having a large receptive field mean?

A

the stimulus cannot be localised apart from the fact that its within that large receptive field

27
Q

larger areas of the cortex are devoted to?

A

areas of the body where receptive fields are small