08 27 2014 Somatosensory lecture

Question 1

somatosensory

Answer 1

touch
pain
temperature
vibration
proprioception

Question 2

What are the main somatosensory pathways?

Answer 2

posterior column- medial lemiscal pathway

anterolateral pathway (including spinothalamic tract)

Trigeminal Lemniscus–touch and vibration information from face to cortex.

Trigeminothalamic tract– pain and temperature from face. (pathway descends 2 segments before turning and coming up).

Question 3

Sensory Neuropathies–

Negative symptoms?

Answer 3

Analgesia - loss of pain
Anesthesia - loss of touch
“numbness, heaviness, weakness or deadness”

Question 4

Sensory Neuropathies– Positive symptoms?

Answer 4

Paresthesias-- temporary mild pain
Neuropathic pain/ central pain syndrome:
   -chronic intense pain
   - intense burning sensation interrupted by shooting, stabbing, or electric shock-like jolts.
    -treatment: anti-convulsants

Question 5

Encoding of Elementary sensory:

Answer 5

1. modalities
2. Intensity
3. Time
4. location

Question 6

What are the modalities of sensation?

Answer 6

1. Touch/ vibration– pressure – cutaneous mechanoreceptor
2. proprioception – detects displacement via a mechanoreceptor- muscle and joint sensation
   - - muscle spindle and Golgi Tendon Organ (GTO)
3. Tempearture– thermal– thermoreceptor – cold and warm receptors
4. Pain – chemoreceptor, thermoreceptor, mechanoreceptor – polymodal nociceptors, thermal nociceptors, and mechanical nociceptors.

Question 7

Activation of cold receptor?

Answer 7

fire from 38 degrees C to 32 degrees C and below.

Question 8

Activation of hot receptor?

Answer 8

fire from 32 degrees C to 38 degrees C and above.

Question 9

Intensity?

Answer 9

Strength of stimulus – depends on threshold. We can control our own threshold – hot baking sheet and we refuse to drop it.

Question 10

Timing? and two types of receptors?

Answer 10

receptors differ in the timing of responses to stimulus

1. slowly adapting– fire quickly at first but then fire at a continuous and slow rate.
   - -detect long/static quality of stimulus
2. Rapidly adapting– fire quickly at onset of stimulus but stop firing even though stimulus is still present

Question 11

Location?

Answer 11

depends on receptor density, receptive field and inhibitory mechanisms affecting resolution.

Two point discrimination– minimal distance required to perceive two simultaneously applied stimuli as distinct.

receptive fields determine resolution

Question 12

Receptive fields

Answer 12

region in sensory space that elicits greatest AP response to specific stimulus.

the smaller the field the better because…

Area surrounding receptive field inhibits cortical neurons to help create the boundary of a shape

= shuts up neighbors so stimulus can be better heard.

Question 13

Name the cutaneous mechanoreceptors:

Answer 13

Free nerve endings
Meissner corpuscles
Merkel cell-neurite complex
Ruffini corpuscle
Pacinian corpuscle

Question 14

Free nerve endings

Answer 14

nociceptors - located in epidermis

Question 15

Meissner corpuscles

Answer 15

just below epidermis – touch

- rapidly adapting

Question 16

Merkel cell-neurite copmlex

Answer 16

Tipe of epidermal ridge– detects shapes, edges, indentations
-slowly adapting

Question 17

Ruffini corpuscle

Answer 17

located in Dermis and is aligned parallel with stretch lines

- detects when skin is stretched

Question 18

Pacinian corpuscle

Answer 18

deep in subcutaneous layer of skin

- vibrations

Question 19

What structures help with proprioception?

Answer 19

muscle spindle and GTO (golgi tendon organ)

Question 20

What are the fibers like for proprioception?

Answer 20

Receptor type: muscle spindle
Axon: Ia, II, Golgi Tendon organ

Thick axon with LOTs of myelin (13-20 microm)
= fast conduction

Question 21

What are the fibers like for touch?

Answer 21

receptor type: Merkel, Meissner, Pacinian, and Ruffini cells

Axon: A-beta

Still a thick axon (not as thick as the muscle spindle– proprioception). (6-12 microm)

Some myelin
= a little slower than receptors for proprioception

Question 22

What are the fibers like for detection of pain and temperature?

Answer 22

receptor type: free nerve endings

Axon type: A- delta

Small diameter (1-5 microm) with small amount of myelin
   - slower conduction

Question 23

What are the fibers like for detection of pain, temperature and itch?

Answer 23

Receptor type: free nerve endings (UNMYELINATED)

VERY small diameter
- very slow conduction

Question 24

Dorsal Column/ Posterior column- Medial Lemniscus pathway

Lower and upper body pathways

Answer 24

Ascending pathway
Touch, proprioception, vibration

Mechanoreceptors from lower body go into dorsal horn and go up the Gracile tract until it reaches the caudal medulla. At the caudal medulla it synapses with a 2ndary neuron, decussates via internal arcuate fibers and continues up the medial reminisces until it reaches the Ventral Posterior Lateral nucleus of the thalamus. There it synapses with a 3rd neuron which then takes it to the primary somatosensory cortex (medial).

Mechanoreceptors from upper body come in through DRG –> dorsal horn at cervical spinal cord levels. Neuron continues up cuneate tract (lateral to Gracile tract) to the caudal medulla. There, it too synapses with 2nd neuron and decussates across internal arcuate fibers and continues up the medial lemniscus where it too synapse to 3rd neuron –> Ventral Posterior Lateral Nucleus of thalamus (lateral).

Question 25

Orientation of neurons along Dorsal Column-Medial Lemniscus pathway

Answer 25

In the posterior column (SPINAL CORD): upper trunk is lateral and lower trunk is medial

By the time in thalamus: lower trunk is lateral and upper trunk is medial.

In cerebelum, the paths cross again and the lower trunk is medial and upper trunk is lateral.

Question 26

Pathway: Trigeminal Mechanosensory system

Answer 26

Ascending pathway

Touch, vibration from face

Sensation from opthalmic, maxillary, or mandibular goes to trigeminal ganglion –> principal nucleus of trigeminal complex located in MID-PONS. It synapses here with a 2nd order neuron, decussates and travels up the medial lemniscus. When it hist the MIDBRAIN, it continues up as the trigeminal lemniscus and synapse with a 3rd order neuron in the Ventral Posterior MEDIAL nucleus of the thalamus. 3rd order neuron continues to the primary somatic sensory cortex.

Question 27

What is a test for large diameter sensory Neurons involved in proprioception?

Answer 27

Romberg test

Question 28

Romberg test

Answer 28

ability to stabilize body – proprioception and visual input.

-if they can’t stabilize = proprioception is off = dagame to DCML and spinocerebellar tract

Question 29

Stereognosis

Answer 29

ability to detect what you are holding in your hand.

Question 30

graphesthesia

Answer 30

draw letters and numbers in patient’s hands and you ask patient what letter or number it is.

Question 31

What are the two regions that the primary somatic sensory cortex will project to?

Answer 31

1. posterior parietal cortex – area 5 and 7 – projects sensory and motor projections. Also involved in EXTINCTION – give a double stimulus but only one is felt.
2. Secondary somatic sensory cortex (CII) – tactile learning and memory.
   - connected to limbic system

Question 32

Amygdala

hippocampus

Answer 32

emotion and motivations

memory ( connect touch to emotions and memory)

Question 33

Where do nociceptive afferents enter the spinal cord?

Answer 33

A-delta and C fibers

A-delta enter at laminal level I and V
C fivers enter in layer 2.

Enter spinal cord via dorsal root ganglion–Lissauer’s tract, goes through anterior white commissure and around grey matter. Travels in anterolateral tract up the spinal cord.

Question 34

Pathway: Spinothalamc system

Answer 34

Ascending pathway
Pain, temperature, crude touch

Pain and temperature information from lower body goes through DRG and into the dorsal horn via LISSAUER’S TRACT. There it synapses with 2nd order neuron and cross the anterior white commissure and travels up the anterolateral system all the way to the Mid-pons. There it continues as the Spinothalamic tract through the midbrain –> Ventral posterior lateral nucleus of thalamus. Here it synapses in the primary somatic sensory cortex.

Pain and temperature from upper body (excluding face) enters via DRG into cervial spinal cord dorsal horn. There it synapses with a 2nd neuron that decussates via anterior tissue and travels up anterolateral system and continues up spinothalamic tract (after Mid-pons)

Question 35

Trigeminal system for Pain and Temperature

Answer 35

Starts with trigeminal ganglion in mid pons and travels down to middle medulla where a collateral continues down to the caudal medulla.

The branch that comes off in middle medulla decussates in the middle medulla and travels up to the Mid-pons and continues as the trigemino-thalamic tract into the ventral posterior medial nucleus of the thalamus and continues to the primary somatic sensory cortex.

The branch that continues down the the caudal medulla (via the spinal nucleus of trigeminal complex). Here it synapses with a 2nd order neuron and decussates and travels up via the trigemino-thalamic tract to the ventral posterior medial nucleus of the thalami –> primary somatosensory cortex.

Question 36

Somatic organization of STT in spinal cord

Answer 36

Upper limbs are medial/dorsal,

Lower limbs are latera/ ventral

Question 37

What pathways end up in the Ventral posterior LATERAL nucleus of the thalamus?

Answer 37

Dorsal Column- Medial Lemnsicus

and the Spinothalamic tract

Question 38

What pathways end up in the Ventral posterior MEDIAL nucleus of the thalamus?

Answer 38

Trigeminal Lemnisucs

and Trigeminothalamic tract

Question 39

Brown-Sequard syndrome

Answer 39

loss of sensation and motor function (paralysis and anesthesia) that is caused by the lateral hemisection (cutting) of the spinal cord

– incomplete lesions

Question 40

Brown- Sequard syndrome – symptoms

Answer 40

dorsal column- medial lemniscus tract
-Ipsilateral loss of vibration, proprioceptoin, fine touch

Spinothalamic tract ( decussates at level of spinal cord) –> contralateral loss of pain and temperature sensation

Corticospinal tract – loss of motor function ipsilaterally

• ipsilateral spasms
• babinski sign (ipsilateral)
• Abnormal reflexes

Question 41

Why does phantom limb/ phantom pain occur

Answer 41

reorganization of somatosensory cortex in amputatee –> neurons that used to be inverted by limb now respond to stimulation of other body part

treatment : mirror therapy