spinal cord anatomy and receptors

Question 1

lumbar cistern clinical landmarks

Answer 1

L1-L2, S2-S3

Question 2

lumbar puncture landmark

Answer 2

L3, S1

Question 3

common vertebral injuries

Answer 3

• impact to head = C1-C2, C4-C6

- industrial accidents = T1-L2

Question 4

dermatome references (C2, C6, T4, T10, L3, S1)

Answer 4

C2 - back of head
C6 - thumb and index finger
T4 - nipples
T10 - umbilicus
L3 - kneecap
S1 - pinky toe

Question 5

if you cut the root….sensation? if you cut the peripheral nerve…?

Answer 5

root => don’t knock out all sensation

peripheral => knock out

Question 6

sympathetic nerves

Answer 6

1. exit from IML
2. continue from sympathetic chain as splanchnic to prevertebral ganglion
3. synapse to paravertebral ganglion
4. white rami - myelinated; goes into paravertebral ganglion
5. grey ramus - unmyelinated; goes out of paravertebral ganglion

Question 7

dorsal funiculus

Answer 7

• white matter
• ascending axons from DCP
• fasciculus gracilis and cuneatus

Question 8

lateral funiculus

Answer 8

ascending and descending tracts

Question 9

dorsolateral fasciculus

Answer 9

• zone of lissauer
• between lateral fasciculus and dorsal funinculus
• sensory modulation
• contains axons from substantia gelatinosa

Question 10

substantia gelatinosa

Answer 10

• present at all cord levels
• sends axons to NP
• receives dorsal root afferents
• spinal trigeminal nucleus
• pain reception

Question 11

nucleus proprius

Answer 11

• present at all cord levels
• chief sensory nucleus
• receives dorsal root afferents
• project contralaterally as the STT

Question 12

dorsal root afferents

Answer 12

lateral = lightly myelinated; GSA; ascends/descends in dorsolateral fasciculus

medial = much myelinated; sends to medulla; 2 point touch, proprioception, and muscle stretch

Question 13

Nucleus Dorsalis/Clarke’s Nucleus

Answer 13

• located from C8-L3
• accessory cuneate nucleus of medulla
• receives muscle afferents from spindles
• projects ipsilaterally as DSCT
• coordination, proprioception

Question 14

intermediolateral nucleus (IML)

Answer 14

• located lateral to CN at T1-L3
• projects cholinergic sympathetic efferents
• GVE

Question 15

intermediomedial (IMM)

Answer 15

• present at all levels
• receives visceral afferents
• projects to intermediolateral nucleus

Question 16

medial and lateral motor neurons

Answer 16

• largest in cervical/lumbosacral enlargements
• alpha motor = cholinergic, LMN, final common pathway, innervate skeletal muscle
• inhibitory GABA neurons
• gamma motor neurons - innervate spindles

Question 17

ventral horn nuclei

Answer 17

receive input from descending tracts

project axons between cervical and lumbar levels

Question 18

phrenic nucleus

Answer 18

medial ventral horn at C3-C5

Question 19

spinal accessory nucleus

Answer 19

lateral ventral horn at C1-C6

Question 20

differences in spinal cord levels

Answer 20

• gray matter increases at C8, L3, and S2 due to enlargements
• ventral expansions at enlargements

Question 21

GSA

Answer 21

general somatic afferent

• pain, vibration, proprioception, touch
• dorsal horn

Question 22

GVA

Answer 22

general visceral afferent

• pain, stretch
• from gut
• dorsal horn

Question 23

GVE

Answer 23

general visceral efferent

• motor innervation to viscera, glands, and blood vessels
• autonomics
• lateral horn

Question 24

GSE

Answer 24

general somatic efferent

• motor innervation to skeletal muscles
• ventral horn

Question 25

SSA

Answer 25

special somatic afferent

• vision
• hearing
• balance

Question 26

SVA

Answer 26

special visceral afferent

• taste
• smell

Question 27

SVE

Answer 27

special visceral efferent

• motor innervation to branchial muscles (gills, mastication)
• motor innervation to facial expression

Question 28

free nerve endings

Answer 28

• nonencapsulated
• slow adapting
• pain/temp
• deep skin/viscera

Question 29

merkel’s disk

Answer 29

• nonencapsulated
• slow adapting
• touch
• feet, hands, genitalia

Question 30

hair follicle

Answer 30

• nonencapsulated
• fast adapting
• touch

Question 31

meissner’s corpuscle

Answer 31

• sheath surrounding epithelial cells
• encapsulated
• fast adapting
• 2 point discrimination

Question 32

pacinian corpuscle

Answer 32

• afferent nerve ending surrounded by concentric circles of epithelial cells
• encapsulated
• fast adapting
• vibration

Question 33

ruffini ending

Answer 33

• encapsulated
• slow adapting
• stretch, pressure

Question 34

joint receptor

Answer 34

• encapsulated
• slow adapting
• joint position

Question 35

neuromuscular spindle

Answer 35

• encapsulated
• slow adapting
• stretch/length
• important for proprioception

Question 36

golgi tendon organ

Answer 36

• encapsulated
• slow adapting
• muscle tension

Question 37

muscle spindles vs GTOs

Answer 37

• spindles fire when muscles are stretched

- GTOs fire when muscles are tense; during isometric contraction

Question 38

muscle reflex arc

Answer 38

1. stretching alerts afferent neurons
2. signal travels to dorsal horn
3. signal travels to ventral horn
4. alpha motor neuron signals muscle to shorten to resist overstretching
5. muscle becomes saggy
6. gamma motor neurons signal muscle to reset the spindle length