export_spinal cord

Question 1

The spinal cord extends from which levels

Answer 1

The foramen magnum to the 1st or 2nd lumbar vertebrae

Question 2

The distal portion of the spinal cord is known as the

Answer 2

Conus medullaris. - Extends to the end of the spinal canal at 3 months gestation, L3 at birth and L1/2 in adults.

The long nerve roots which extend past the conus medullaris are known the as cauda equina.

Question 3

What is the filum terminale

Answer 3

The filum terminale consists of the pia from the conus medullaris, the rest of the ependymal cells, glia and fat. It extends from the thecal sac through to S2. It will eventually form the coccygeal ligament that attaches to the posterior coccyx.

Question 4

How many pairs of nerve roots lie at each level?

Answer 4

8 cervical
12 thoracic

5 lumbar

5 sacral

1 coccygeal

Question 5

Where do the nerve roots exit?

Answer 5

Nerve roots exit through the intervertebral foramina

Question 6

Where does the C1 nerve root exit

Answer 6

The C1 nerve root exits between the occiput and the atlas.

Question 7

Where do cervical roots exit in general.

Answer 7

Cervical roots generally exit ABOVE their respective pedicle with the exception of the C8 root which exits between C7 and T1.

Question 8

What is the sensory dermatome of C1

Answer 8

There is no sensory dermatome for C1. C1 has no dorsal root.

Question 9

What is the organization of sensory fibers in the posterior nerve roots

Answer 9

Pain and temperature fibers lie laterally

Posterior column proprioceptive fibers lie medially.

Question 10

What are the four fissures/sulci associated with the spinal cord

Answer 10

1. Anterior median fissure
2. Posterior median sulcus
3. Posterolateral sulci
4. Posterior intermediate sulci

Question 11

What is the relationship of the anterior median fissure to the spinal cord

Answer 11

The anterior median fissure extends deeply to near the gray commissure.

Question 12

What is the relationship of the posterior median sulcus to the spinal cord

Answer 12

The posterior median sulcus extends down to the posterior median septum

Question 13

What is the relationship of the posterolateral sulci to the spinal cord

Answer 13

These two folds are located near the dorsal root entry zones - DREZ

Question 14

What is the relationship of the posterior intermediate sulci to the spinal cord

Answer 14

The posterior intermediate sulci separate the fasciculus gracilis from the fasciculus cuneatus

Question 15

What are the three paired funiculi of the spinal cord.

Answer 15

1. Anterior funiculus:
2. Lateral funiculus
3. Posterior funiculus

Question 16

Features of the anterior funiculus of the spinal cord

Answer 16

This funiculus extends from the anterior median fissure to the ventral root.

It contains ascending fibers from the spinal gray matter and descending fibers from the brainstem and cortex.

Question 17

Features of the lateral funiculus of the spinal cord

Answer 17

The lateral funiculus lies between the ventral and dorsal roots.

It contains ascending fibers from the spinal gray and descending fibers from the brainstem and cortex.

Question 18

Features of the posterior funiculus of the spinal cord

Answer 18

The posterior funiculus of the spinal cord extends from the posterior horn to the posterior median septum.

It is the largest funiculi and is mainly composed of ascending fibers from the dorsal root ganglion.

In the cervical and upper thoracic spinal cord it is divided by the posterior intermediate septum.

Question 19

What is the central gray of the spinal cord.

Answer 19

This is the butterfly shaped region of the spinal cord. The two lateral portions are connected by the gray commissure
The posterior horns extend out more to the surface than the anterior horns.

Question 20

General features of the cervical spinal cord

Answer 20

It is oval shaped.

The fasciculus gracilis lies medially and the fasciculus cuneatus lies laterally.

Question 21

General features of the thoracic spinal cord.

Answer 21

It contains less gray matter.
There is no fasciculus cuneatus at the lower levels.

The lateral horns of the thoracic spinal cord contain intermediolateral cell column.

The dorsal nucleus of Clarke lies at the base of the dorsal horn and extends throughout the thoracic cord. It is especially large at T10 through L2.

Question 22

General features of the lumbar spinal cord

Answer 22

The lumbar spinal cord is nearly circular and contains less white matter than seen in the cervical cord.

Question 23

What are Rexed’s layers/laminae

Answer 23

These are the layers of the gray matter in the spinal cord.

Note there is no layer 6 between T4-L2.

Question 24

Features of Rexed layer/lamina 1

Answer 24

Lies at the top of the dorsal horn and contains the posteromarginal nucleus.
It receives input from the DRG and layer II.

DRG axons ascend or descend over layer I in Lissauer’s tract before synapsing.

Mainly pain and temperature

Neurotransmitters include substance P, enkephalin, 5HT and somatostatin.

Question 25

Features of the second layer of Rexed

Answer 25

Aka the substantia gelatinosa.
Input: posterior columns, dorsolateral and lateral funiculi with C fibers/slow pain.

Modulates sensation via layers III and IV.

Neurotransmitter: substance P.

Question 26

The 1st and 2nd layers of Rexed contain a large amount of what neurotransmitter and receptor.

Answer 26

Susbtance P

Opiate receptors

Question 27

Layers 1 and 2 of Rexed output to where?

Answer 27

1. To the ventral and lateral horns: reflexes

2. Rostrally to facilitate sensory transmission

Question 28

Features of the third and fourth layers of Rexed

Answer 28

This region is also known as the nucleus proprius. It contains interneurons which convey low intensity stimuli to the thalamus.

Question 29

What is the function of the 5th layer of Rexed

Answer 29

Unknown

Question 30

Features of the 7th layer of Rexed

Answer 30

Aka the zona intermedia, it is located between the anterior and posterior horns of the spinal cord and includes the lateral horns.

Key structures in the 7th layer of Rexed include the dorsal nucleus of Clarke; central cervical nucleus and the intermediolateral cell column.

Question 31

What is the dorsal nucleus of Clarke

Answer 31

• Lies in the 7th layer of Rexed and extends from C8 to L2.

- Sends fibers to the ipsilateral dorsal spinocerebellar tract.

Question 32

What is the central cervical nucleus?

Answer 32

It extends from C1-C4 and sends crossed fibers to the cerebellum and inferior vestibular nucleus.

Question 33

What is the intermediolateral cell column

Answer 33

This is the medial part of layer 7 of Rexed and extends the entire length of the cords with visceral input.

It sends sympathetic fibers along with the ventral roots via white rami communicantes (parasympathetics arise from S2-S4)

Question 34

Where is the 8th layer of Rexed located

Answer 34

At the base of the anterior horn.

Question 35

The 9th layer of Rexed contains what type of neurons

Answer 35

Alpha and gamma neurons

Medial nuclear group - axial muscle control.

Lateral nuclear group - appendicular muscle control

Ventral group - controls extensors

Dorsal group - controls flexors

Question 36

What is the function of the 10th layer of Rexed.

Answer 36

Unknown.

It is the gray matter found surrounding the central canal of the spinal cord.

Question 37

What fibers run in the medial bundle of the dorsal root

Answer 37

Large myelinated fibers to the posterior columns or medial posterior horn from the encapsulated receptors such as to the Golgi tendon organs, muscle spindles, Pacinian corpuscles and Meissner’s corpuscles. [The fancy receptors]

Question 38

What fibers run in the lateral bundle of the dorsal roots

Answer 38

Thin non-myelinated fibers which convey crude touch, pain and temperature from free nerve endings.

Question 39

Main neurotransmitter used by spinal and cranial sensory ganglia is

Answer 39

Glutamate

Question 40

What are the ascending tracts in the spinal cord

Answer 40

1. Posterior columns
2. Anterior spinothalamic tract
3. Lateral spinothalamic tract
4. Spinotectal tract
5. Dorsal spinocerebellar tract
6. Ventral spinocerebellar tract
7. Cuneocerebellar tract
8. Rostral spinocerebellar tract
9. Spinoolivary tract
10. Spinoreticular tract

Question 41

Features of the posterior columns of the spinal cord

Answer 41

Convey touch, vibration and proprioception. That being said most lower limb group 1 afferents (1a muscle spindles/1b Golgi tendon organs) go to Clarke’s column and the dorsal spinocerebellar tract not the fasciculus gracilis and posterior columns.

Lower limb fibers are medial

Question 42

Features of the anterior spinothalamic tract

Answer 42

Conveys mostly light touch. Fibers originate from layers 1, 4, and 5, cross in the anterior commissure and then terminate in the reticular formation, periaqueductal gray, VPL and intralaminar thalamic nucleus.

Lower limb fibers are lateral.

Question 43

Features of the lateral spinothalamic tract of the spinal cord

Answer 43

Conveys pain and temperature. Fibers originate from layers 1, 4, and 5 cross to the contralateral lateral spinothalamic tract and ascend to the reticular formation and thalamic VPL.

Question 44

Features of the spinotectal tract

Answer 44

Convey pain stimuli.

These fibers originate from layers 1 and 5, cross to the anterolateral spinal cord where they terminate in the superior colliculus and periaqueductal gray.

Question 45

Features of the dorsal spinocerebellar tract

Answer 45

Conveys touch, pressure and proprioception from the lower limbs.
Type 1a, 1b and II fibers from the Golgi tendon organs and muscle spindles go to Clarke’s nucleus, then ascend in the ipsilateral dorsal spinocerebellar tract and then terminate in the cerebellar vermis via the ICP.

Question 46

Features of the ventral spinocerebellar tract

Answer 46

Covey lower limb posture and coordination information. Type 1b fibers from the Golgi tendon organs go to the 5th, 6th and 7th layers where they sample efferent copies of motor commands. They then cross to the contralateral ventral spinocerebellar tract, and cross again to enter the anterior vermis via the SCP.

Question 47

Features of the cuneocerebellar tract

Answer 47

It conveys touch, pressure and proprioception from the upper limbs. = upper limb equivalent of the dorsal spinocerebellar tract .

Type 1a and 1b fibers travel in the fasciculus cuneatus to the accessory cuneate nucleus in the medulla and ascend in the cuneocerebellar tract and terminate in lobule 5 of the cerebellum via the ICP.

Question 48

Features of the rostral spinocerebellar tract

Answer 48

Upper limb equivalent of the ventral spinocerebellar tract.

Conveys upper limb posture and coordination information, in addition to providing efferent copies.

Enter the cerebellum via the ICP.

Question 49

Features of the spinoolivary tract.

Answer 49

Conveys cutaneous and group 1b receptor impulses from the DRG to the posterior columns then to the cuneatus and gracilis nuclei followed by the accessory olivary nucleus where they then synapse in the contralateral anterior lobe of the cerebellum.

Question 50

Features of the spinoreticular tract

Answer 50

Modulates motor, sensory, behavior, and awareness.

Project to the reticular formation in the medulla ipsilaterally and the pons and midbrain bilaterally.

Question 51

What are the descending tracts in the spinal cord

Answer 51

1. Corticospinal tract
2. Tectospinal tract
3. Rubrospinal tract
4. Vestibulospinal tract
5. Pontine reticulospinal tract
6. Medullary reticulospinal tract
7. Medial longitudinal fasciculus
8. Descending autonomic pathways

Question 52

Features of the corticospinal tract

Answer 52

Conveys voluntary skilled movements.
Fibers originate from Betz cells, Area 4, premotor area and post-central areas. These fibers go through the pyramid to the spinomedullary junction where they enter either the lateral, anterior or anterolateral corticospinal tract.

Question 53

Features of the lateral corticospinal tract

Answer 53

Crossed motor fibers which travel in the posterolateral funiculus which enter the intermediate gray to to laminas 4,5,6, and 7.

Represent 90% of the fibers from the medullary pyramids.

Neurotransmitters are glutamate and aspartate.

Question 54

Features of the anterior corticospinal tract.

Answer 54

10% of the fibers from the medullary pyramids. Run ipsilaterally but cross in the anterior white commissure to enter lamina 7.

Question 55

Features of the tectospinal tract.

Answer 55

Conveys reflex posture movements in response to visual and possibly auditory stimuli.

Fibers from the superior colliculi cross in the midbrain to join the MLF at the medulla and travel in the anterior funiculus to the cervical levels C1-C4 and synapse in laminas 6,7, and 8.

Question 56

Features of the rubrospinal tract

Answer 56

Involved in the maintenance of flexor tone.
Fibers from the red nucleus cross in the ventral tegmentum, travel anteriorly and partially intermingle with the corticospinal tract as they terminate in laminas 5,6, and 7.

Question 57

Features of the vestibulospinal tract

Answer 57

The vestibulospinal tract is involved in maintaining extensor tone.
Fibers from the lateral vestibulospinal nucleus travel ipsilaterally within the entire length of the cord in the anterior portion of the lateral funiculus to laminas 7,8, and 9.

Question 58

Features of the pontine reticulospinal tract

Answer 58

Involved in the maintenance of extensor tone especially in the antigravity muscles.
Fibers from the medial pons travel ipsilaterally in medial anterior funiculus near the MLF and go to laminas 7 and 8.

Question 59

Both the vestibulospinal and pontine reticulospinal tracts are involved in maintaining…..

Answer 59

Extensor tone.

Note that the former - vestibulospinal - has somatotopic organization.

Question 60

Features of the medullary reticulospinal tract

Answer 60

Involved in the inhibition of extensor tone.
Fibers from the medial reticular formation of the medulla especially the nucleus reticularis gigantocellularis travel in the anterior portion of the lateral funiculus to lamina 7 throughout the cord.

There is substantial cortical input to this system.

Question 61

Features of the descending autonomic pathways in the spinal cord

Answer 61

Travel from the hypothalamus, Edinger-Westphal nucleus, locus ceruleus, and solitary nucleus travel in the lateral funiculus to the intermediolateral cell column in the thoracic, lumbar and sacral spine for sympathetic and parasympathetic control.

Question 62

What are the flexor tracts in the spinal cord

Answer 62

Lateral/medullary reticulospinal tract

Rubrospinal tract - upper limbs only

Question 63

What are the extensor tracts

Answer 63

Medial and lateral vestibulospinal tracts

Medial/pontine reticulospinal tract

Question 64

Damage to the anterior lobe of the cerebellum does what?

Answer 64

Removes tonic inhibition of the lateral vestibular nucleus resulting in increased extension.

Question 65

What are the normal AP diameters of the spine

Answer 65

C1-2: 15mm
C3-T12: 12mm

L1-5: 15-20mm

Question 66

What are the normal AP diameters of the spine

Answer 66

C1-2: 15mm
C3-T12: 12mm

L1-5: 15-20mm

Question 67

Uncovertebral joints

Answer 67

Extends between the lateral uncinate processes of the cervical vertebrae

Question 68

Zygapophyseal joints

Answer 68

From the facets, innervated by the fibers of the medial branch of the posterior spinal rami. Medially these joints are only covered by ligamentum flavum.

Question 69

Hemifacets are found where?

Answer 69

Transverse processes of T1-T10. For the costovertebral joints.

Question 70

Anterior longitudinal ligament

Answer 70

Extends from the basiocciput to S1 and is adherent to the vertebral bodies.

Question 71

Posterior longitudinal ligament

Answer 71

Extends from the C1 to S1. The PLL merges rostrally with the dura. Adherent to the annulus only - not the vertebral bodies. Fat and veins lie in between the PLL and the vertebral bodies.

Question 72

Transverse atlantal ligament

Answer 72

Extends between the tubercles of the lateral masses of atlas and holds the dens against the anterior arch. The superior and inferior cruciate ligaments emerge from the transverse ligament.

Question 73

The superior and inferior cruciate ligaments

Answer 73

Connect transverse ligaments to the posterior basion (S CL) and posterior body of the axis (I CL) respectively.

Question 74

Apical and alar ligaments

Answer 74

Apical: extends from the tip of the dens to the basion

Alar: The two alar ligamens extend from the dens to the lateral margins of the foramen magnum

Question 75

The spinal cord is connected to the dura by

Answer 75

Extension of the pia known as the dentate ligaments.