Ascending Neural Pathways

Question 1

Describe the neural pathway pattern of the somatosensory system that most conscious sensory tracts follow?

Answer 1

Primary afferent is a first order neuron and terminates in spinal cord or brain stem

The second order neuron projects to the thalamus

The third order neuron projects to the brain (somatosensory cortex)

Question 2

Describe the sensation of light touch

Answer 2

Awareness of precise location of very delicate mechanical stimuli
- Stroking hairs on skin or feather on hairless skin.

Other phenomena: two-point sense, stereognosis and graphesthesia

Question 3

Describe the sensation of pressure

Answer 3

Stimuli applied to subcutaneous structures.

Squeezing muscles or structures under the skin.

Question 4

Describe the sensation of vibration sense

Answer 4

Flutter sensation through intact tissues

Can be elicited by placing a tuning fork on tissues

Question 5

Describe the sensation of proprioception

Answer 5

Motion sense, position sense

Question 6

Describe the sensation of pain and temp

Answer 6

Nociception (fast and slow)

Question 7

What the fuck is nociception?

Answer 7

The sensory nervous system’s process of encoding noxious stimuli. In nociception, intense chemical (e.g., cayenne powder), mechanical (e.g., cutting, crushing), or thermal (heat and cold) stimulation of sensory nerve cells called nociceptors produces a signal that travels along a chain of nerve fibers via the spinal cord to the brain

Question 8

What are some nonencapsulated peripheral receptors?

Answer 8

Free nerve endings

Merkel discs

Hair follicle receptors

Question 9

What are some encapsulated peripheral receptors?

Answer 9

Meissner's corpuscles 
Pacinian corpuscles 
Ruffini corpuscles 
Neuromuscular spindles 
Neurotendinous spindles

Question 10

Where are free nerve endings found?

Answer 10

Epidermis, cornea, gut, dermis, ligaments, joint capsules, bone, dental pulp, etc

Question 11

Where are Merkel discs found?

Answer 11

The German Chancellory

Hairless skin

Question 12

Where are hair follicle receptors found?

Answer 12

Hairy skin

Question 13

Where are Meissner’s corpuscles found?

Answer 13

Dermal papillae of skin and palm and sole of foot

Question 14

Where are Pacinian corpuscles found?

Answer 14

Dermis, ligaments, joint capsules, peritoneum, external genitallia, etc

Question 15

Where are Ruffini corpuscles found?

Answer 15

Dermis of hairy skin

Question 16

Where are neuromuscular spindles found?

Answer 16

Skeletal muscle

Question 17

Where are neurotendenous spindles found?

Answer 17

Tendons

Question 18

What is the stimulus, sensory modality, adaptability and fibres of free nerve endings?

Answer 18

Mechanoreceptor

Pain(fast)
Pain(slow)
Touch(crude)
Pressure,?
Heat and cold

Rapid

A delta,
C

Question 19

What is the stimulus, sensory modality, adaptability and fibres of Merkel discs?

Answer 19

Mechanoreceptor

Touch

Slow

A beta

Question 20

What is the stimulus, sensory modality, adaptability and fibres of hair follicle receptors?

Answer 20

Mechanoreceptor

Touch

Rapid

A beta

Question 21

What is the stimulus, sensory modality, adaptability and fibres of Meissner’s corpuscles?

Answer 21

Mechanoreceptor

Touch

Rapid

A beta

Question 22

What is the stimulus, sensory modality, adaptability and fibres of Pacinian corpuscles?

Answer 22

Mechanoreceptor

Vibration

Rapid

A beta

Question 23

What is the stimulus, sensory modality, adaptability and fibres of Ruffini corpuscles?

Answer 23

Mechanoreceptor

Stretch

Slow

A beta

Question 24

What is the stimulus, sensory modality, adaptability and fibres of Neuromuscular spindles?

Answer 24

Mechanoreceptor

Stretch - muscle length

Fast

A alpha,
A beta

Question 25

What is the stimulus, sensory modality, adaptability and fibres of Neurotendinous spindles?

Answer 25

Mechanoreceptor

Compression - muscle tension

Fast

A alpha

Question 26

What are the different structural sections of the spinal cord?

Answer 26

Upper cervical
Lower cervical
Thoracic 
Lumbar
Sacral

Question 27

What is white matter?

Answer 27

Axons

Question 28

What neurons make up the ventral roots?

Answer 28

Motor

Question 29

What neurons make up the dorsal roots?

Answer 29

Sensory

Question 30

What neurons make up the spinal nerve?

Answer 30

mixed sensory/motor

Question 31

What is grey matter?

Answer 31

Cell bodies

Question 32

Describe the layout of grey/white matter in the spinal cord?

Answer 32

Grey matter forms a “butterfly” in a cylinder of white matter

Question 33

Where are the descending tracts of neurons in the spinal cord?

Answer 33

In a triangle that fills all but the most distal space between the dorsal grey horn and ventral grey horn as well as distinct areas in the distal border of the spinal cord ventral to the grey matter.

Question 34

What neurons are in the descending tract?

Answer 34

Motor

Question 35

What neurons are in the amending tract?

Answer 35

Sensory

Question 36

Where are the ascending tracts of neurons in the spinal cord?

Answer 36

All the area posterior to the grey matter medial to the bilateral extensions that make up the dorsal grey horn

The most distal and ventral aspects of the “triangle” of white matter between the dorsal and ventral grey root.
Also the lateral peripheries of white matter between the ventral grey horn and the lateral border of the spinal cord

Question 37

Where in the brain does all this sensory information go?

Answer 37

Sensory information passes from the thalamus to the primary somatosensory cortex a region posterior to the central sulcus of the cerebral hemisphere.
Sensory information is somatotopically organized in this region of the cerebrum.
- Unequal distribution of the neural input which is representated by the sensory homunculus.

Question 38

What is the order of the structures commanded in the primary motor cortex from the deepest part of the corpus callosum to the lateral sulcus?

Answer 38

Genitals
Toes
Foot
Leg
Hip
Trunk
Neck
Head
Shoulder
Arm
Elbow
Forearm
Wrist
Hand
Little finger
Ring finger
Middle finger 
Index finger
Thumb
Eye
Nose
Face
Upper lip
Lips
Lower lip
Teeth, gums and jaw
Tongue
Pharynx
Intra-abdominal

Question 39

Describe somatosensory areas I and II

Answer 39

Is a distinct and separate spatial organisation in each area.
Area I much more extensive.
”Primary somatosensory cortex” almost always means area I.

Area I: Has a high degree of localisation of different body parts: see names in one of these flashcards somewhere
Area II: poor localisation.

Question 40

what are the ascending pathways?

Answer 40

Dorsal column-medial lemniscus pathway

Anterolateral spinothalamic pathway

Dorsal and ventral spinocerebellar tracts

Question 41

Describe the dorsal column-medial lemniscus pathway

Answer 41

This pathway allows the perception of:

Well localised touch sensations
Fine gradation of touch intensity
Vibration sense
Proprioception

via large myelinated axon with a velocity of ~30-110m/s to the brain.

Question 42

Describe the first section of the dorsal column-medial lemniscus pathway

Answer 42

(1) First order axons enter the dorsal grey horn of spinal cord via dorsal roots

(2) Pass to either cuneate and gracile fasciculus
Above T6 enter fasciculus cuneatus (3b)
Below T6 enter fasciculus gracilis (3a)

Question 43

What structural changes occur when axons in the dorsal column ascend?

Answer 43

New fibres are added to its lateral side. Therefore, axons from the cervical region lie lateral those of the sacral region

Question 44

Describe the second part of the dorsal column-medial lemniscus pathway

Answer 44

(3) Synapse with second order neuron in either nucleus cuneatus or nucleus gracilis, respectively.
(4) Fibres then decussate via internal arcuate fibres to enter the medial lemniscus

Question 45

Describe the third part of the dorsal column-medial lemniscus pathway

Answer 45

(5) Fibres of medial lemniscus ascend and synapse with third-order neurons of the ventral posterolateral (VPL) nucleus of the thalamus.
(6) The third order neurons leave the VPL passing through the internal capsule to terminate in the primary somatosensory cortex.

Question 46

Describe the full progression of the dorsal column-medial lemniscus pathway

Answer 46

(1) First order axons enter the dorsal grey horn of spinal cord via dorsal roots

(2) Pass to either cuneate and gracile fasciculus
Above T6 enter fasciculus cuneatus (3b)
Below T6 enter fasciculus gracilis (3a)

(3) Synapse with second order neuron in either nucleus cuneatus or nucleus gracilis, respectively.
(4) Fibres then decussate via internal arcuate fibres to enter the medial lemniscus
(5) Fibres of medial lemniscus ascend and synapse with third-order neurons of the ventral posterolateral (VPL) nucleus of the thalamus.
(6) The third order neurons leave the VPL passing through the internal capsule to terminate in the primary somatosensory cortex.

Question 47

Describe the anterolateral spinothalamic system

Answer 47

This pathway allows the perception of:
Poor localisation of touch sensations (crude touch)
Fast and slow pain
Temperature

Via small diameter myelinated and unmyelinated neurons, with lower velocities when compared to dorsal column-medial lemniscus pathway, up to 40m/s.

i.e., the anterolateral system is a cruder type of transmission system than dorsal column–medial lemniscal system. BUT certain modalities of sensation are transmitted only in this system ie pain, temperature, tickle, itch, and sexual sensations (in addition to crude touch and pressure).

Transmission of “less critical” sensory signals

Question 48

Describe the first part of the anterolateral spinothalamic pathway

Answer 48

(1) First order axons enter the dorsal grey horn of the spinal cord via dorsal roots.
(2) Enter Lissauer’s tract to ascend or descend 1-2 spinal cord levels.
(3) Synapse in either lamina 1, 2 (substantia gelatinosa) or 5 of the dorsal grey horn.

Question 49

Describe the second part of the anterolateral spinothalamic pathway

Answer 49

(4) Decussate via the anterior white commissure to enter the contralateral anterolateral spinothalamic tract.
- It can take 2-3 segments to reach the contralateral side.

Question 50

What information is passed along the anterior spinothalamic tract

Answer 50

Crude touch and pressure

Question 51

What information is passed along the lateral spinothalamic tract

Answer 51

(pain and temperature)

As this tract ascends, new fibres from higher levels are added to its medial side.

Question 52

Describe the third part of. the anterolateral spinothalamic pathway

Answer 52

(5) Ascend to the ventral posterolateral (VPL) nucleus of the thalamus where they synapse with the third order neurons.
(6) The third order neurons leave the VPL passing through the internal capsule to terminate in the primary somatosensory cortex.

Similar to the dorsal column-medial lemniscus pathway

Nerve passes from ventral posterolateral nucleus of the thalamus throughout he internal capsule to brain

Question 53

What is fast pain?

Answer 53

Felt within ~ 0.1s after a pain stimulus is applied.
AKA:
sharp pain,
pricking pain,
acute pain,
electric pain.
E.g., When a needle is stuck into the skin, when the skin is cut with a knife, or when the skin is acutely burned. It is also felt when the skin is subjected to electric shock.
Fast-sharp pain is NOT felt in most deep tissues of the body.
Elicited by mechanical and thermal pain

Question 54

What is slow pain?

Answer 54

Begins after 1s or more after pain stimulus applied, then increases slowly over 1+s or min.
AKA:
slow burning pain,
aching pain,
throbbing pain,
nauseous pain,
chronic pain.
Is usually associated with tissue destruction.
Can lead to prolonged, almost unbearable suffering.
Slow pain can occur both in the skin and in almost any deep tissue or organ.
Elicited by mechanical, thermal and chemical pain

Question 55

What picks up painful stimuli?

Answer 55

All painful stimuli is picked up my nociceptors
free nerve endings in the superficial skin and in some internal tissues (e.g. periosteum, arterial walls, joint surfaces and cranial vault).
Nociceptors show little to no adaptation
But can demonstrate increased sensitivity (hyperalgesia)

Question 56

What are the two pathways for pain transmission into the CNS?

Answer 56

Fast-sharp pain pathway

Slow-chronic pain pathway

Question 57

Describe the fast-sharp pain pathway

Answer 57

Neospinothalamic Tract

Transmitted via Aδ fibres at ~5-30m/s, mainly mechanical + acute thermal pain.

Terminate mainly in lamina I (lamina marginalis) of the dorsal horns and they excite second order neurons of the neospinothalamic tract.

The second order neurons give rise to long fibres that cross immediately to opposite side of cord through anterior commissure and then turn upward passing to the brain in the anterolateral columns.

Question 58

Describe the slow-chronic pain pathway

Answer 58

Paleospinothalamic Pathway (older system)

Mostly transmitted via unmyelinated C fibres at ~0.5-2m/s. Although it does transmit some signals from type Aδ fibres too.

The peripheral fibres terminate in spinal cord almost entirely in laminae II (substantia gelatinosa).

Most signals then pass-through 1 + additional short fibre neurons within dorsal horns before entering (mainly) lamina V.

Then give rise to long axons that mostly join fibres from fast pain pathway, passing first through anterior commissure to the opposite side of the cord, then upward to the brain in the anterolateral pathway.

Question 59

What is referred pain?

Answer 59

Pain perceived in a location remote from tissue causing pain.

E.g., pain in a visceral organ referred to an area on body surface.

Question 60

What is the probable mechanism of referred pain?

Answer 60

Branches of visceral pain fibres synapse in spinal cord on same 2nd-order neurons that receive signals from skin.
When visceral pain receptors are stimulated, pain signals from viscera are conducted through some of the same neurons conducting pain signals from skin, so person feels sensations originate in skin.

Question 61

Describe the input and basics of the dorsal and ventral spinocerebellar tracts

Answer 61

Associated with unconscious proprioception

Gets input from:

• Muscle Spindles (muscle tension)
• Golgi organs (proprioception)
• Touch receptors

Used by the cerebellum to co-ordinate movements and posture

Question 62

Describe the pathway of the dorsal spinocerebellar tract (DSCT)

Answer 62

First order axons enter dorsal grey horn via dorsal roots and synapse in Clarke’s nucleus/column.
- Common route for first order neurons of both pathways

Second order axons ascend in the ipsilateral dorsal spinocerebellar tract to the cerebellar cortex.

Conveys input from trunk and lower limbs

Question 63

Describe the pathway of the ventral spinocerebellar tract (VSPT)

Answer 63

First order axons enter dorsal grey horn via dorsal roots and synapse in Clarke’s nucleus/column.
Common route for first order neurons of both pathways

Majority second order axons decussate and ascend in the contralateral ventral spinocerebellar tract then crosses back over to the ipsilateral cerebellum.
Minority ascend ipsilaterally to the cerebellum.

Conveys input from trunk, upper limbs and lower limbs.

Question 64

What is anterior spinal cord syndrome?

Answer 64

Hyperextension injury
Infarction of anterior spinal artery

Loss of bilateral pain, temp and crude touch below

Maintain bilateral fine touch, vibration and proprioception

Question 65

What is posterior spinal cord syndrome?

Answer 65

Penetration injury
Posterior spinal artery occlusion
Multiple sclerosis

Ipsilateral loss of Fine touch, vibration and proprioception

Maintain contralateral Fine touch, vibration and proprioception

Maintain bilateral pain temp and course

Question 66

What is Brown-Séquard syndrome?

Answer 66

Penetrating trauma
Same level – ipsilateral total loss of sensation
1-2 levels below – Contralateral loss of pain, temp and course touch
1 level below – ipsilateral loss of fine touch, vibration and proprioception

caused by damage to one half of the spinal cord, i.e. hemisection of the spinal cord resulting in paralysis and loss of proprioception on the same (or ipsilateral) side as the injury or lesion, and loss of pain and temperature sensation on the opposite (or contralateral) side as the lesion

Question 67

What are the important dorsal columns of the ascending tracts?

Answer 67

Gracile fasciculus (3a)
Cuneate fasciculus (3b)

Question 68

What are the important spinocerebellar tracts of the ascending tracts?

Answer 68

Posterior (4a)

Anterior (4b)

Question 69

What are the important parts of the anterolateral system of the ascending tracts?

Answer 69

Lateral Spinothalamic tract (5a)

Anterior Spinothalamic tract (5b)