Spinal Cord Anatomy

Question 1

Describe the following spinal segments:
cervical enlargement
lumbar enlargement

Answer 1

cervical enlargement - C5-T1 (why we have brachial plexus)

lumbar enlargement - L1-S2 (why we have lumbo sacral plexus

Question 2

Describe the relationship between a given vertebral level and the corresponding spinal nerve.

Answer 2

Spinal nerves come out above the same named vertebrae, until nerve c8, which comes out of the cord below vertebra C7. The rest of the nerves come out below their corresponding vertebrae.—Thus vertebra C7 has 2 nerves associated with it—–c7 and c8

Question 3

How far does the fetal cord extend? What is the significance of this?

Answer 3

to L3

Care must be taken during spinal tap

Question 4

Describe the meninges.

Answer 4

Dura, Arachnoid, Pia

spinal dura continuous with meningeal layer of cranial dura
dura fuses with epineurium of peripheral nerves
delicate arachnoid trabeculae attach to pia

Question 5

What is the denticulate ligament?

Answer 5

pial extension anchoring the cord to the dura

Question 6

Describe motor/sensory, afferent/efferent nerves.

Answer 6

motor tend to be efferent (movement)

sensory tend to be afferent (pain)

Question 7

Describe sympathetics and splanchnics.

Answer 7

For the most part sympathetics have short preganglionics and long postganglionics—exception: splanchnics, the greater splanchnic (t5-9) synapses in the celiac ganglion, the lesser (t10-11) in the superior mesenteric and aortico renal ganglia, and the least (t12) in the renal plexus.

Question 8

WIGO. White/grey ramus myelinated?

Answer 8

White “in” grey “out”
grey are unmyelinated
white are myelinated

Question 9

How does the pia extend?

What does it fuse with and form?

Answer 9

pia extends caudally as filum terminale

fuses with dura to form coccygeal ligament (filum terminale externa)
-attaches to coccyx

Question 10

Describe the lumbar cistern.

Answer 10

subarachnoid space caudal to conus medullares (L1-S3)

Question 11

What do cauda equina fibers surround?

Answer 11

sacral cord

Question 12

Where doe spinal arteries come from?

Describe the spinal cord arteries.

Answer 12

All spinal arteries come from the vertebrals
one anterior, two posterior
anterior spinal artery sits in median anterior fissure. posterior is very tortuous

Question 13

What do somites give?

Answer 13

dermis, muscle, skeleton

Question 14

Review the diff between dermatomes and peripheral cutaneous nerves.

Answer 14

?

Question 15

What are these important/common dermatomal references?
C2,C6
T4,T10
L3, S1

Answer 15

C2- back of head
C6- thumb and index finger
T4- nipples
T-10 umbilicus
L3- kneecap
S1-lateral foot

Question 16

Describe limb rotation of thumbs and big toes.

Answer 16

thumbs-laterally

big toes-medially rotate

Question 17

In regards to the spinal cord/vertebral segment, where does the dorsal root enter?

Answer 17

posterior lateral sulcus (sensory info comes in, dorsal root comes in)

Question 18

Describe posterior intermediate sulcus

Answer 18

Only above T6

Separation between gracilus and cuneatus

Question 19

Label the spinal cord/vertebral segment soft chalk.

Answer 19

See powerpoint slide 37.

Question 20

Describe the anterior median fissure.

Answer 20

Where the anterior spinal artery lives.

Question 21

Describe the anterior lateral sulcus.

Answer 21

where the ventral root leaves. (motor fibers go out)

Question 22

Describe the posterior funiculus.

Answer 22

axons forming bundle

White matter ascending axons mostly from the dorsal column pathway.

Question 23

Describe the dorsolateral fasciculus (zone of Lissauer).

Answer 23

contains finely myelinated and unmyelinated axons originating in the substantia gelatinosa and involved in sensory modulation.

Area where axons ascend or desend several segments (fibers can go up/down cord before leaving or entering…pain)

Question 24

Describe the anterior commissure.

Answer 24

A spot where fibers cross from one side to another

Question 25

Describe the gray matter regions.

What is white matter full of?

Answer 25

anterior horn (motor) 
intermeidate gray
posterior horn (sensory)

white matter full of myelin/oligodendrites

Question 26

Describe all the functional components.

Answer 26

GSA—general somatic afferent—pain, vibration, touch, proprioception from skin, body wall, and skeletal muscle
GVA—general visceral afferent—pain, stretch from guts
GVE—general viscera efferent—–motor to viscera, glands, and blood vessels—autonomics
GSE—general somatic efferent—-motor to skeletal muscle
SSA—special sensory afferent—-vision, hearing, and balance
SVA—special visceral afferent—-taste and smell
SVE—special visceral efferent—innervates muscle of branchiomeric origin—”gills”—pharynx, larynx,mastication, and facial expression—5,7,9,10, and 11

Question 27

Describe nucleus in regards to the neuroscience definition.

Answer 27

a group of neurons with a common function or modality. Example: hypoglossal nucleus –motor to the tongue (GSE)

(basal ganglia is a nuclei, CN use 1 or more nuclei depending on its functional units)

Question 28

Describe the alar/basal plates functional components.

Answer 28

alar (dorsal, afferent/sensory) GSA, GVA

basal (ventral, efferent/motor) GVE, GSE

Question 29

Describe substantia gelatinosa.
What do the cells do?
Where do axons ascend and descend?
What is it homologous to?
What does it receive?

Answer 29

“gelatinous substance”
small compact cells that modify sensory input by synapsing on dendrites in nucleus proprius. Axons ascend and descend in Lissauer’s tract.
Homologous to spinal trigeminal nucleus

receives mall diameter dorsal root afferents
all cord levels

Question 30

Describe nucleus proprius.
What does it receive?
What does it contain?

Answer 30

"proper sensory nucleus"
receives many sensory inputs
contains many interneurons
contains "tract cells" that project contralaterally as the spinothalamic tract
all cord levels

Question 31

Describe nucleus dorsalis. *
Where is it?
What is it homologous to?
Where is its nucleus?
What does it receive?
Where does it project?

Answer 31

“clark’s nucleus” C8-L3
homologous to the lateral (assessory) cuneate
nucleus in the medulla
receives muscle spindle information
projects ipsilaterally to the cerebellum as the dorsal spinocerebellar tract

Question 32

Describe intermediolateral nucleus*
What is it the origin of?
Where is it found?
What functional component?

Answer 32

origin of preganglionic cholinergic sympathetic efferents.

Found at levels T1-L3
GVE
origin of sympathetics

Question 33

At S2-S4 what does the sacral autonomic nucleus occupy and send out?

Answer 33

occupies lateral horn area and sends out preganglionic parasympathetic efferents.

Question 34

Describe intermediomedial nucleus.

Answer 34

receives visceral afferents
projects to IML
found at all sc levels

Question 35

Describe the medial and lateral motor nuclei.

Answer 35

• made up of large alpha motor neurons that innervate skeletal muscle (i.e. radial-triceps)
• phrenic nucleus that exists at C3-5 in the medial n.
• the spinal accessory n exists at C1-6 laterally
• motor nuclei are the largest in the cervical and lumbar enlargements.

lateral - control fingers, medial- shoulder/trunk

Question 36

Be able to label nuclei (soft chalk).

Answer 36

Slide 50

Question 37

Describe motor neurons (IX).

Answer 37

innervate skeletal muscle
are large alpha motor neurons
termed lower motor neurons and “the final common pathway”

Question 38

Where is the phrenic nucleus found?

Answer 38

in cervical ventral horn (C3,4,5)…keeps diaphragm alive

Question 39

Where is the spinal accessory nucleus found?

Answer 39

C1-C6 (high cervical)

Question 40

Describe the sensory modalities/functional components.

Answer 40

GSA (general somatic afferent)
exteroception- touch temp pain vibration
GVA (general visceral afferent)
interoception-gut stretch, ph, etc
SVA (special visceral afferent)
taste smell
SSA (special sensory afferents)
vision hearing balance

Question 41

Describe the non-encapsulated sensory receptors.

Answer 41

free nerve endings
Merkel’s disc
hair receptors/ hair follicle

Question 42

Describe the encapsulated sensory receptors.

Answer 42

Meissner's corpuscles
Pacinian corpuscles
Ruffini endings
Joint receptor
neuromuscular spindle
golgi tendon organs

Question 43

Describe free nerve endings.

Answer 43

pain and temp, skin and viscera, slow adapting

Question 44

Describe Merkel’s disk

Answer 44

touch
distal extremities, lips, genitalia, nipples
slow adapting

Question 45

Describe Meisner’s Corpuscle.

Answer 45

connective tissue sheath surrounding a stack of flattened epithelial cells
2 point discrimination
fingers toes hands feet lips tongue genitals joint capsules ligaments
rapidly adapting

Question 46

Describe Pacinian corpuscle.

Answer 46

afferent nerve endings surrounded by concentric lamellae of flattened epithelial cells (3-4mm)
light pressure, stretch, and esp vibration
fast adapting

Question 47

Describe the following other encapsulated receptors:
Ruffini ending
Joint receptor endings
Neuromuscular spindle
Golgi tendon organ

Answer 47

Ruffini ending- widespread in dermis, slow adapting to stretch, deep pressure

Joint receptor endings- free nerve endings, slow adapting, joint position and movement

Neuromuscular spindle - muscle length (stretch)

Golgi tendon organ- located at muscle tendon junction, slow adapting

Question 48

What do muscle spindles detect?
What do golgi tendon organs detect?
What do joints have?
Muscle spindles are important…

Answer 48

Muscle spindles detect muscle length
golgi tendon organs detect muscle tension
joints have receptors
muscle spindles are important proprioceptors

Question 49

Compare firing patterns of muscle spindles and GTO’s.

Answer 49

Muscle spindles fire in response to stretching of a muscle,–while GTO’s fire in response to an increase in muscle tension while performing an isometric contraction (lifting a car)——

Question 50

What makes a muscle spindle fire?

Answer 50

Stretching the center or nuclear bag region of the spindle makes it fire

Question 51

Describe muscle spindles in regards to exercise of touching toes.

Answer 51

Here—same thing—stretching to touch one’s toes causes the spindle to stretch which causes it to fire—which shortens the hamstrings to resist overstretching—which shortens the spindle—which is now in a state unresponsive to further stretching until gamma axon firing ‘resets” or shorten the spindle (nuclear bag region)

muscle spindle senses the muscle stretching …sensory nerve to spinal cord in cross section..motor nerve and muscle contracting in response to stretch which causes gamma motor neurons to fire and shorten or reset the spindle for the next hamstring stretch

Question 52

Describe the stretch reflex or deep tendon reflex.

Answer 52

Tapping the patellar tendon stretches the quads, causes the spindle to “fire”, makes the quads reflexively shorten (contract), makes the spindle nuclear bag sag, and finally causes gamma fibers to fire and tense up or reset the spindle bag.

Question 53

Describe how gamma fibers from the ventral horn reset after a muscle contracts.

Answer 53

Gamma fibers from the ventral horn reset the spindle after the “big” muscle contracts (shortens).

muscle stretch causes spindle la afferents to fire which cause alpha motor neurons to fire la gamma alpha…muscle shortens and spindle gets saggy…gamma motor neurons fire and spindle shortens/resets

Question 54

What is the function of the following non-encapsulated receptors:
free nerve endings
Merke’ls Disk
Hair follicle

Answer 54

free nerve endings- pain temp (in deep skin, viscera)
Merkel’s disc- touch (feet hands genitalia lips)
hair follicle- touch (anywhere there is hair)

Question 55

Describe the function of the following encapsulated receptors: 
Meissner's corpuscles
Pacinian corpuscles
Ruffini endings
Joint receptor
neuromuscular spindle
golgi tendon organs

Answer 55

Meissner’s corpuscles- 2 point discrimination (hairless skin, fingertips, joints, ligaments)

Pacinian corpuscles- vibration (fingers toes palms mesenteries peritoneum)

Ruffini endings- stretch, pressure (dermis)

Joint receptor- joint position (joint capsules, ligaments)

neuromuscular spindle- limb muscle, stretch/length (muscles)

golgi tendon organs- muscle tension (muscle tension junction)

Question 56

Describe the dorsal root afferents: Lateral division.

Answer 56

thin, lightly myelinated fibers

pain and temp, light touch, visceral afferents

Question 57

Describe the dorsal root afferents: Medial division.

Answer 57

thick heavily myelinated fibers
2-point touch, limb position, muscle stretch
sends collaterals to medulla (muscle spindle info comes in here)