Neuro revision: Sensory pathways (VERY USEFUL)

Question 1

types of sensation

Answer 1

general sensation
- Somatic
- Visceral

special sesation
- hearing
- vision
- smell

Question 2

two main sensory modalities

Answer 2

Spinothalamic pathway
Dorsal colum system

Question 3

spinothalamic examples

Answer 3

o Temperature
o Pain
o Pressure/ crude touch

Question 4

dorsal column examples

Answer 4

• Vibration
• Fine touch
• Proprioception (where our limbs are in space)
  –> Detected by muscle spindles and receptors in joints
• 2 point discrimination
  –> Ability to resolve 2 simultaneous stimuli on the skin
  –> E.g. how many fingers are being pressed on the body e.g. lips can resolve stimuli that are close together e.g. the back cannot resolve stimuli closely together

Question 5

Different modalities travel along different

Answer 5

trajectories of the nervous system before they reach the brain

Question 6

summarise what the somatosensory system does

Answer 6

System which carries conscious sensation from the body wall
e.g. skin, lining of pharynx and oral cavity, mucosa of the anus, parietal pleura and peritoneum

Question 7

outline the pathway of the somatosensory system (general)

Answer 7

1. First order neurone is a sensory neurone which detects stimuli using receptors (cell body in the dorsal root ganglion)
2. It then projects into the CNS and synapses with second order neurone
   - Either directly adjacent to where the first order neurone enters the spinal cord- spinothalamic tract and then ascends up the spinal cord (cell body in dorsal horn)
   - Or the first order neurone will ascend up to the brainstem and synapse here- dorsal column-medial lemniscus system (cell body in medulla)
3. Second order neurones live entirely within the CNS and crosses the midline (decussates) into the opposite side of the CNS then synapses with the third order neurone found in the thalamus (thalamocortical neurones), projecting up to the somatosensory cortex -> perception occurs

Question 8

Topographical receptor (somatotopy)

Answer 8

For every part of the body surface there is a corresponding part of the CNS
- Adjacent body parts are represented by adjacent parts of the CNS
- This trajectory is also involved in the conversion of the dermatomal pattern to the homulculus pattern
- At receptor level- dermatomal pattern
- At Sensory cortex- homunculus pattern

Question 9

what are ascending pathways

Answer 9

Sensory pathways
- Dosal column-medial lemniscus system
- Spinothalamic system

Question 10

The dorsal column-medial lemniscus system

Answer 10

The system the CNS uses to carry info to the brain concerned with:
- fine touch
- 2 point discrimination
- Proprioception
- vibration

Not as important for survival as the spinothalamic system

Question 11

Dorsal column-medial lemniscus system example: Detecting vibration in a lumbar dermatome

Answer 11

1. Receptor in lumbar dermatome communicates with first order sensory neurone (cell body in dorsal root ganglion) and projects into the spinal cord
2. First order neurone ascends up the spinal cord to the medulla of the spinal cord, where it synapses onto a second order neurone (gracile nucleus- lower body)
3. Second order neurone decussates (cross the midline) and ascends all the way up to the thalamus and synapses onto third order neurone
   - Medial lemniscus- pathway connecting the gracile and cuneate nuclei with the thalamus
4. Third order neurone projects to the sensory cortex
5. Lumbar region of the somatosensory cortex found medially

Question 12

Dorsal column system: nuclei where the first order nuclei synapse

Answer 12

• Nucleus in the medulla where first order neurones from the lower half of the body synapse is called the gracile nucleus
• Nucleus in the medulla where the first order neurone from the upper half of the body synapse is called the cuneate nucleus

Question 13

In the dorsal column system the higher up the first order neurone (e.g. cervical region) the more

Answer 13

laterally the axons will be found
- Clinical relevance- if there is a spinal cord lesion, as it grows it will affect the lumbar region first and then later the cervical region

Question 14

The spinothalamic (anterolateral) system

Answer 14

Ancient system- crucial for the survival of the organism
- Temp
- Pain
- Pressure/ crude touch

Question 15

The spinothalamic (anterolateral) system: e.g. detecting pain in the lumbar region

Answer 15

1. Receptor in lumbar dermatome connects to first order neurone
2. Synapses with second order neurone at approx. the level it enters (dorsal horn)
3. Second order neurone decussates (crosses midline) and ascends up the cord (spinothalamic tract) into the brainstem and into the thalamus
4. In the thalamus the second order neurone synapses with third order neurone which projects to the medial part of the primary sensory cortex (lower body)

Question 16

The spinothalamic (anterolateral) system: e.g. detecting pain in the cervical region

Answer 16

1. Receptor in cervical dermatome connects to first order neurone
2. Synapses with second order neurone at approx. the level it enters (DH)
3. Second order neurone decussates (crosses midline) and ascends up the cord (spinothalamic tract) into the brainstem and into the thalamus
4. In the thalamus the second order neurone synapses with third order neurone which projects to the lateral part of the primary sensory cortex (upper body)

Question 17

Spinothalamic tract projecting info from the upper and lower body (opposite to dorsal columns)

Answer 17

• The second order neurones from the** lower half of the body are found in the lateral region** of the spinothalamic tract
• The second order neurones from the **upper **half of the body are found in the medial region of the spinothalamic tract

Clinical relevance: expanding lesion in spinal cord will first destroy decussating fibres of the second order neurones (would be bilateral), then the lumbar part of dorsal columns will be affected- lower body and then the cervical regions of the spinothalamic tract- upper body

Question 18

Differences between the spinothalamic vs dorsal column systems

Answer 18

Dorsal colum
- Decussates at level of the medulla
- Lumbar region most medial

Spinothalamic
- Decussates at level of entry
- Cervical region most medial

Question 19

summary of the location of different tracts in the spinal cord: sensory and motor

Answer 19

Question 20

somatic motor system

Answer 20

voluntary movement

Question 21

components of the somatic motor system

Answer 21

upper motor neurones
lower motor neurones

Question 22

relationship between UMN and LMN

Answer 22

• Upper motor neurones (UPM) projects onto the lower motor neurone (LMN)
• LMN- the final common path-> activates skeletal muscles

Question 23

locations of the UMN

Answer 23

UMN= entirely within CNS
- In the primary motor cortex (precentral gyrus in frontal lobe)
- Not found in the basal ganglia or the cerebellum (won’t cause upper motor neurone signs- specifically related to neurones originating in primary motor cortex)
- Prognosis of damage to UMN worse than PNS

Question 24

location of LMN

Answer 24

• LMN=both in the CNS (cell body and proximal axon) and PNS (distal axon synapsing with muscle)
• Most cell bodies found in ventral horn (some also in motor nuclei of the brainstem)

Question 25

which tract is related to motor system

Answer 25

The corticospinal tract
- Major motor tract which descends through the spinal cord and controls activity of LMN
- Voluntary, precise movements

Question 26

corticospinal tract also known as

Answer 26

descending tract

Question 27

Upper motor neurone supplying the upper limb

Answer 27

• UMN of the upper limb originates in lateral aspect of the motor cortex (homunculus)
• Axon of the UMN passes down through the corona radiata and into the internal capsule (discrete white matter pathway running between the thalamus and lentiform nucleus)
• It then descends down through the midbrain via the cerebral peduncle, then through the pons and then to the medulla
• The medulla has medullary pyramids which carry corticospinal axons on their way down into the spinal cord
• Once the corticospinal axons have left the medullary pyramids the axons decussates and descends via the lateral corticospinal tract in the spinal cord where it synapses with a lower motor neurone and supplies muscles in the upper limb

Question 28

Upper motor neurone supplying the lower limb

Answer 28

• UMN for the lower body originates in **medial aspect **of the motor cortex (homunculus)
• Axon of the UMN passes down through the corona radiata and into the internal capsule (discrete white matter pathway running between the thalamus and lentiform nucleus)
• It then descends down through the midbrain via the cerebral peduncle, then through the pons and then to the medulla
• The medulla has medullary pyramids which carry corticospinal axons on their way down into the spinal cord
• Once the corticospinal axons have left the medullary pyramids the axons decussates and descends via the** lateral corticospinal** tract in the spinal cord where it synapses with a lower motor neurone and supplies muscles in the upper limb

Question 29

Lateral corticospinal tract organisation

Answer 29

• Axons destined for the upper limb are found more medially
  o Need upper limbs axons more medially so they can peel off and synapse in the ventral horn earlier on (as to not waste axon and myelin)
• Axons destined for the lower limb are found more laterally

Question 30

Cortical spinal system is composed of 2 separate components:

Answer 30

• Lateral corticospinal tract
• Ventral corticospinal tract

Question 31

Lateral corticospinal tract

Answer 31

• Much larger
• Function: innervating muscle of the distal parts of the extremities e.g. arm, hand and leg, foot
• E.g. fine movements

Question 32

Ventral corticospinal tract

Answer 32

• Much smaller and crosses at the level of the lower motor neurone
• Function: innervating muscle of the proximal parts of the extremities e.g. limb girdle

Question 33

Corticonuclear projections (cranial nerves)

Answer 33

• Cranial nerves can contain the axons lower motor fibres
• Corresponding upper motor neurones descend from the primary motor cortex and synapse upon on cranial nerve motor nuclei (e.g. trigeminal motor nucleus)

e.g. the trigeminal
- Contains the axons of lower motor neurones
- Cell bodies of lower motor neurones are found in the pons in the trigeminal motor nucleus
- These LMN follow the course of the trigeminal nerve to muscles of mastication (mandibular branch)

Question 34

Bulbar cranial nerves and LMN

Answer 34

Medulla- lower motor neurones distributed along the IX, X, XI cranial nerves are found in elongated nucleus in the medulla
- Glossopharyngeal
- Vagus
- Abducens
- Hypoglossal

Question 35

The internal capsule

Answer 35

White matter tract (not really a capsule) between the thalamus (medially) and the lentiform nucleus (laterally -globus pallidus and putamen)
- Bidirectional pathway
o Descending motor pathways (UMN)
o Ascending sensory pathways (third order sensory neurones)
- Basically the condensation of the corona radiata

Question 36

Midbrain mickey mouse

Answer 36

Question 37

Mickey mouse ears = Cerebral peduncles

Answer 37

o Connect the cerebral hemispheres to the midbrain
o Contain descending motor fibres which will enter the corticospinal tract
o Important motor structures

Question 38

Eyes = red nucleus

Answer 38

o In fresh brain appears red
o Involved in motor control
o If damaged= course tremor
o Important landmark

Question 39

Eyebrows= Substantia nigra

Answer 39

o Appears dark normally
o Produces dopamine

Question 40

Tears = medial lemniscus (part of dorsal column / spinothalamic system)

Answer 40

o Parts of the sensory system
o Ascending sensory fibres on their way to the thalamus

Question 41

Mouth=

Answer 41

cerebral aqueduct
o Channel connecting the third and fourth ventricles

Question 42

Lips= periaqueductal grey matter

Answer 42

o Pain regulation
o Micturition

Question 43

Lips= periaqueductal grey matter

Answer 43

o Pain regulation
o Micturition

Question 44

• Nose= oculomotor nucleus

Answer 44

o Cell bodies of LMN
o Edwinger Westphal nucleus (cell bodies of parasympathetic neurones)
o Fibres coming off the nose= fibres of the oculomotor

Question 45

Edinger–Westphal nucleus

Answer 45

The Edinger–Westphal nucleus supplies preganglionic parasympathetic fibers to the eye, constricting the pupil, accommodating the lens, and convergence of the eyes

Question 46

Lesions to UMN

Answer 46

• Stroke
• Spinal cord injury
• Motor neurone disease

Question 47

Lesions to LMN

Answer 47

• Peripheral neuropathy
• Motor neurone disease
• Spinal cord injury
• Disc prolapses

Question 48

Fasciculations and fibrillations

Answer 48

Both features seen in LMN lesion (pathophysiology not fully understood)

Fasciculations
- Visible
- May be caused by aberrant activity in the distal portion of the LMN axon

Fibrillations
- Only detectable using electromyography
- May be caused by increased sensitivity of muscles fibres to ACh (changes in localisation of nicotinic receptors)