Sensory pathways; touch and proprioception

Question 1

Which receptors detect ‘touch and proprioception’, temperature and pain?

Answer 1

Touch and proprioception’; Mechanoreceptors
Temperature; Thermoceptors
Pain; Nociceptors

Question 2

What are mechanoreceptors?

Answer 2

They are modified terminals of the peripheral aeon’s of the primary sensory neurones. They transduce a mechincal stimulus into an electrical.

Question 3

What pathway transmits info for touch and propriception and what are the stimuli?

Answer 3

Dorsal columns/medial lemniscus
Touch; light touch, pressure, vibration
Proprioception; mucche tension, muscle length, joint position

Question 4

What are the different types of mechanoreceptor endings?

Answer 4

Simple; plexus

Complex; peritrichial ending, merkel ending in epidermis, ruffini ending, Pacinian corpuscle, Meissner’s corpuscle

Question 5

Use of Pacinian corpuscles

Answer 5

Formed of concentric rings of modified epithelial cells which make them more sensitive to vibrations

Question 6

Use of Ruffini endings

Answer 6

Sensitive to stretch

Question 7

Use of Meissner’s corpuscles

Answer 7

Sensitive to light touch

Question 8

What determines the function of the mechanoreceptors?

Answer 8

Degree of specialisation
Location
Physiological properties e.g. activation threshold

Question 9

What is the difference between slow and fast adapting fibres?

Answer 9

Slow adapting: fire as long as the stimulus is present but frequency may decline over time
Fast adapting: fire at high frequency when the stimulus is first applied (fires at start, end or both)

Question 10

Describe the properties of mechanoreceptors

Answer 10

Low activation threshold

Large and fast conducting

Question 11

What is an early sign of neurodegeneration in terms of vibrations?

Answer 11

Elevation of vibratory threshold

Question 12

What are the main receptors for proprioception?

Answer 12

Muscle spindles; detects changes in muscle length

Golgi tendon organs; detects changes in muscle tension

Question 13

What type of axons do receptors for proprioception have?

Answer 13

Innervated by Type 1 axons

Question 14

What type of axons do mechanorecptors for touch have?

Answer 14

Type II/Aβ axons

Question 15

Does the amplitude or frequency matter in intensity of the stimulus?

Answer 15

Frequency of AP generated
[+ number of adjacent receptors stimulated i.e. recruitment]
Amplitude does NOT change.

Question 16

What is meant by receptive field?

Answer 16

The number of receptors innervated by one sensory nerve/ area from which a stimulus elicits a neuronal response.

Question 17

What would you expect the receptive field to be like in a sensitive part of the body?

Answer 17

Small receptive fields, High density innervation = better acuity

Question 18

What is lateral inhibition?

Answer 18

Activation of one neural unit inhibits the activation of others.
Mediated by inhibitory interneurones, takes place in the gracile and cuneate nucleus.
Allows for better sensory perception.

Question 19

What is two point discrimination and two-point threshold?

Answer 19

The ability to distinguish that two stimuli are distinct from each other.
Minimum distance between two stimuli required in order to perceive they are two distinct stimuli.

Question 20

What does two point discrimination depend on and is related to?

Answer 20

Depends on: peripheral mechanoreceptors, posterior spinal column, cortical function
Relates to: density of innervation, area of receptive field, sensory homunculus

Question 21

What is meant by neural adaptation and what fibres do phasic and tonic receptors have?

Answer 21

It is a form of desensitisation, when a stimulus is maintained at a constant strength for a period of time, firing rate decreases.
Phasic receptors; rapidly adapting
Tonic receptors; slow adapting

Question 22

Describe the pathway of sensory information from the body

Answer 22

Information comes in and reaches the dorsal columns.
Info from leg down: medial gracile fasciculus (sacral and lumbar)
Info from waist up: lateral cuneate fasciculus (thoracic and cervical)
Information travels up and in the medulla it synapses with either the cuneate or gracile nuclei.
They then send their axons across the midline/decussation to form a new pathway; the median lemniscus -> thalamus -> vental-posterolateral nucleus -> tertiary neurones -> internal capsule -> primary somatosensory cortex

Question 23

What are the functions of the different nerve fibres; Aa, Ab, Ag, Ad, B, C fibres?

Answer 23

Aa; proprioception, somatic motor
Ab; light touch, pressure
Ag; motor to muscle spindle
Ad; pain, cold, touch
B; Postganglionic autonomics
C; pain, temperature, mechanoception

Question 24

Which thalamic neurones have an important role in nociceptive modulation?

Answer 24

Ventrobasal and nucleus reticularis

Question 25

What is the function of cortical neurones?

Answer 25

Perception and interpretation of pain

Question 26

Describe the pathway of sensory information from the head

Answer 26

Main sensory nerve is trigeminal nerve (CNV)
Trigeminal nerve enters at the pons and synapses with the second order trigeminal cranial nucleus.
The axon of this crosses the midline and joins the medial end of the medial lemniscus.
They relay through the ventral posteromedial nucleus and the axon of the third neurone relays to the primary somatosensory cortex.

Question 27

Where does the ascending spinothalamic pathway decussate?

Answer 27

Decussation in the spinal cord level of which it enters via interneurones

Question 28

What is descending modulation?

Answer 28

Descending pathways from the brainstem can have excitatory or inhibitory influence on spinal nociceptive transmission.
Mediated by spinal 5HT, GABA, Glycine, NA
Loss of physiological inhibition may result in pathological hypersensitivity

Question 29

Where is the location of the primary and secondary somatosensory cortices?

Answer 29

S1: postcentral gyrus
S2: receives intracortical projections from S1, located inferoposteriorly to i, bounded by the lateral fissure

Question 30

What is the function of the posterior parietal cortex?

Answer 30

Interprets spatial relationships

Question 31

What do the cortical neurones in the primary somatosensory cortex analyse?

Answer 31

Abstract properties e.g. movement

Stimulus properties e.g. pressure, vibration

Question 32

What is the clinical implication of damage to the dorsal columns?

Answer 32

Anaesthesia (loss of sensation)

Paraesthesia (change in sensation)

Question 33

What are some causes of peripheral neuropathy?

Answer 33

Diabetes mellitus
Alcoholism
Syphillis
Some hereditary diseases e.g. Charcot Marie-tooth disease

Question 34

What is the difference between the arrangement of fibres between the gracile/cuneate fasciculus and gracile/cuneate nuclei?

Answer 34

Gracile/cuneate fasciculus: inferior parts of the spinal cord travel medially
Gracile/cuneate nuclei; inferior parts travel more laterally