Somatosensory System

Question 1

What is the role of the somatosensory system?

Answer 1

Tells us what is happening within the body and environment through our senses and pathways

Question 2

What is true about the distribution of the somatosensory system?

Answer 2

It is not confined to the head, but is spread throughout the body

Question 3

What determines our sensitivity to stimulation?

Answer 3

The density of somatosensory receptors

Question 4

What is true about the density of somatosensory receptors?

Answer 4

Areas with many receptors = More sensitive to stimulation

Areas with fewer receptors = Less sensitive to stimulation

Question 5

What are two skin types found in humans?

Answer 5

Hairy skin and glabrous skin

Question 6

What are features of hairy skin?

Answer 6

Hair follicle presence, less sensitive to touch

Question 7

What are features of glabrous skin?

Answer 7

No hair follicles, larger number of sensory receptors –> mainly used to explore our environments

Question 8

How can we test the sensitivity of body parts?

Answer 8

Two point sensitivity test

Question 9

What is the two-point sensitivity test?

Answer 9

2 sharp points simultaneously vs. perceived as a 1

Glabrous skin = detect 2 points up until about 3mm apart

Hairy skin = only detect 2 points up until about 2 – 5 cm

Question 9

What is the two-point sensitivity test?

Answer 9

2 sharp points simultaneously vs. perceived as a 1

Glabrous skin = detect 2 points up until about 3mm apart

Hairy skin = only detect 2 points up until about 2 – 5 cm

Question 10

What are the 3 functional groups of somatosensory receptors?

Answer 10

Nociceptive
Haptic
Proprioceptive

Question 11

What are nociceptive receptors?

Answer 11

Receptors of irritation, perception of pain, temperature and itch –> free nerve endings that secrete chemicals

Question 12

What are haptic receptors?

Answer 12

Receptors of pressure and fine touch –> help us identify what we touch and grasp –> found in superficial layers and attached to hairs

Question 13

What are proprioceptive receptors?

Answer 13

Receptors for body awareness (perception of spatial location) –> found in muscles, tendons and joints

Question 14

What is the role of rapidly adapting receptor?

Answer 14

Tells us when a stimulus occurs –> activates only when stimulation begins and stimulation ends.

Question 15

What is the role of a slowly adapting receptor?

Answer 15

Tells us whether a stimulus is still occurring –> continuously responds so long as the stimulus is still present

Question 16

What neurons carry afferent information INTO the CNS?

Answer 16

Sensory neurons

Question 17

Where is the dendrite located outside of the spinal cord?

Answer 17

In the posterior root ganglion neurons

Question 18

What is true about spinal cord segments and posterior root ganglion neurons?

Answer 18

Each spinal cord segment has one posterior root ganglion on each side (left/right) that contains many posterior root ganglion neurons.

Question 19

What differences exist in the diameter and the degree of myelination of the axons based on what kind of sensory information the neuron is conveying?

Answer 19

Proprioceptive and haptic neurons = large and well myelinated –> carry information faster

Nociceptive neurons = small with little myelination and carry info slower

Question 20

True or false: Our somatosensory system is closely linked to movement; evident with damage to the PRG.

Answer 20

True

Question 21

What is deafferentation?

Answer 21

Loss of incoming sensory input due to damage to sensory axons/neurons
- Will cause motor symptoms as well, despite no damage to motor neurons

Question 22

What can happen with selective adamage to neurons that carry proprioceptive information?

Answer 22

Movement abnormalities –> eg. loss of proprioception from vitamin B6 overdose

Question 23

What are the two somatosensory pathways to the brain?

Answer 23

The posterior spinothalamic tract
The anterior spinothalamic tract

Question 24

What somatosensory information is carried by the posterior spinothalamic tract?

Answer 24

Haptic and proprioceptive information

Question 25

How is haptic and proprioceptive information carried by the posterior spinothalamic tract?

Answer 25

Axons from posterior root ganglion neurons enter the spinal cord and go up on the same side (ipsilaterally)

Then the axons enter the brainstem and cross over to the opposite side (contralaterally) and project up to the medial lemniscus

After getting to the medial lemniscus, axons go to the ventrolateral nucleus of the thalamus then projecting to the somatosensory cortex

Question 26

What somatosensory information is carried by the anterior spinothalamic tract?

Answer 26

Nociceptive information

Question 27

How is nociceptive information carried by the anterior spinothalamic tract?

Answer 27

Axons from the posterior root ganglion neurons enter the spinal cord and immediately cross over.

These axons then climb to the brainstem where they join the other axons forming the medial lemniscus.

These axons then travel again to the ventrolateral nucleus of the thalamus then project to the somatosensory cortex.

Question 28

What are two important differences between the two spinothalamic tracts?

Answer 28

i) the sensory information they carry, and ii) where the information crosses over.

Posterior = touch/pressure/location = brainstem

Anterior = pain/temperature/irritation = spinal cord

Question 29

Why are there 4 somatosensory tracts going up into the brain?

Answer 29

Left = 1 posterior tract (solid red) and 1 anterior tract (dashed red)
Right = 1 posterior tract (solid blue) and 1 anterior tract (dashed blue)

Question 30

What is the primary somatosensory cortex and its role?

Answer 30

S1
- Consists mainly of the postcentral gyrus in the parietal lobes; lies adjacent to the primary motor cortex on the other side of the central sulcus
- Receives projections from the thalamus (as we just saw)
- Where initial somatosensory processing occurs

Question 31

What is the secondary somatosensory cortex and its role?

Answer 31

S2
- Located behind S1; receives information from S1
- Begins to combine somatosensory information with our other senses (vision, etc.)

Question 32

What did Penfield say about the somatosensory humonculus of S1

Answer 32

Identified a somatosensory homunculus present in S1 that is almost identical to the one present in M1

Helps explain why we can distinguish between different types of sensory stimuli at the same time on the same body part

Question 33

What is Astereognosis?

Answer 33

The inability to recognize objects by touch alone

Question 34

Damage to the postcentral gyrus also results in marked changes in what 3 things?

Answer 34

• Sensory thresholds become abnormally high
• Position sense of physical contact
• Weakened sterogenesis leading to deficits in tactile and detail perception

Question 35

What is the main pain pathway to the brain?

Answer 35

The anterior spinothalamic tract

Question 36

What are some other connections to the anterior spinothalamic tract that carry pain information from the spinal cord to the brain?

Answer 36

Reticular formation —> arousal presence of pain
Amygdala –> emotional responses to pain
Hypothalamus –> coping with pain

Question 37

What is phantom limb pain?

Answer 37

Pain, phantom movement, muscle cramps

Question 38

What is the gate theory of pain

Answer 38

Idea that activity in different sensory pathways can compete against each other to diminish the activity of other pain and temperature pathways –> eg. rubbing a toe after stubbing it

Question 39

What is the periaqueductal grey matter (PAG)?

Answer 39

Nucleus that surrounds the cerebral aqueduct

Question 40

How does the PAG suppress pain?

Answer 40

Opioid receptors
Inhibiting neurons that form the ascending pain pathways

Question 41

What is the only localized part of the somatosensory system?

Answer 41

Vestimular organ with semicircular canals and otolith organs

Question 42

What are the functions of the vestibular organs?

Answer 42

Detect changes in rotation and acceleration of head movements and sense the position of the body in relation to gravity

Question 43

What are the semicircular canals of the vestibular system?

Answer 43

Oriented canals filled with endolymph fluid that provide our sense of head rotation.

Question 44

What is the cochleovestibular nerve (cranial nerve 8)?

Answer 44

Cranial nerve that is connected to cilia and semicircular canals

Question 45

What occurs in the otolith organs in response to acceleration?

Answer 45

Hair cells embedded in otoconia shift according to movement

Question 46

What is a common disorder of the vestibular system?

Answer 46

Vertigo

Question 47

What happens when someone has vertigo?

Answer 47

Incongruous information is provided to the brain –> The vestibular system detects movement, but the visual system does not.

Question 48

What is Ménière’s disease?

Answer 48

Reocurring vertigo, tinnitus, hearing loss and fullness in inner ear due to an increased volume of endolymph fluid in the inner ear.