Axial Skeleton- "Cervical, Thoracic, and Lumbar"- WK13 (Ch9+10)

Question 1

Explain the spinal coupling that occurrs in the mid-lower cervical spine.

Answer 1

spinal-coupling: movement in one plane associated with movement in another

-Lateral flexion of mid-cervical region is coupled with ipsilateral rotation.

Question 2

What happens if the transverse ligament of the atlas is ruptured ?

Answer 2

The atlas can slip anteriorly relative to the axis and possibly damage the spinal cord.

Question 3

What happens if the alar ligament is ruptured ?

Answer 3

axial rotational instability; loss of A-O and A-A contralateral coupling pattern

Question 4

Describe the arthrokinematics of the: A-O joint in flexion, extension, rotation, and lateral flexion.

Answer 4

flexion: anterior roll and posterior slide
extension: posterior roll and anterior slide
rotation: not much movement
lateral flexion: RT= RT roll, LT slide; LT= LT roll and RT slide

Question 5

Describe the arthrokinematics of the: A-A joint during flexion, extension and horizontal plane motion

Answer 5

flexion and extension: tilting
rotation: atlas slides in rotary movement

Question 6

Describe the arthrokinematics of the: C2-7 joints during flexion, extension, horizontal plane motion

Answer 6

flexion: slide superior and anterior
extension: slide inferior and posterior
rotation: the inferior facets slide posterior and slightly inferiorly on the same side of rotation and anterior and slightly superiorly on the side opposite the rotation.

Question 7

Protraction causes _________ of the mid-lower cervical spine and __________ of the upper cervical spine. Retraction causes____________ of the mid-lower cervical spine and ____________ of the upper cervical spine.

Answer 7

flexion, extension

extension, flexion

Question 8

Your patient has limited cervical rotation ROM. Write a goal for this patient to achieve the functional ROM needed to look at their blind spots while driving.

Answer 8

the patient will achieve 30 degrees of cranial rotation within 4 weeks to adequately check their blindspots.

Question 9

Upper cervical rotation and extension stretches which vertebral artery ?

Answer 9

contralateral

Question 10

Why doesn’t the upper cervical spine follow the natural coupling pattern of the rest of the cervical spine ?

Answer 10

because A-O and A-A joints act independently, as in they’re not obligated by their facets. This helps to keep eyes forward during neck movement.

Question 11

What happens at the A-A joint during lateral flexion of C2-7?

Answer 11

A-A contralateral rotation

Question 12

What happens at the A-O joint during C2-7 cervical rotation ?

Answer 12

A-O contralateral flexion

Question 13

How could you position a patient’s neck to alleviate pressure on an inflamed nerve in the right C5 IVF ?

Answer 13

position neck in flexion, contralateral lateral flexion, and axial rotation to the left.

Question 14

OIIA: SCM

Answer 14

O:Lateral surface of mastoid process of temporal bone and lateral half of superior nuchal line
I:Sternal head: anterior surface of manubrium of sternum
Clavicular head: superior surface of medial third of clavicle
I:Spinal accessory nerve (CN XI, motor); C3 and C4 nerves (pain and proprioception)
A:Unilateral contraction: tilts head to same side (i.e., laterally flexes neck) and rotates it so face is turned superiorly toward opposite side
Bilateral contraction: (1) extends neck at atlanto-occipital joints , (2) flexes cervical vertebrae so that chin approaches manubrium, or (3) extends superior cervical vertebrae while flexing inferior vertebrae, so chin is thrust forward with head kept level
With cervical vertebrae fixed, may elevate manubrium and medial ends of clavicles, assisting pump-handle action of deep respiration

Question 15

OIIA: Anterior Scalene

Answer 15

O:Transverse processes of C3–C6 vertebrae
I:1st rib
I:Cervical spinal nerves C4–C6
A:Flexes neck laterally; elevates 1st rib during forced inspirationa

Question 16

OIIA: Middle Scalene

Answer 16

O:Posterior tubercles of transverse processes of C5–C7 vertebrae
I:Superior surface of 1st rib; posterior to groove for subclavian artery
I:Anterior rami of cervical spinal nerves
A:Flexes neck laterally; elevates 1st rib during forced inspirationa

Question 17

OIIA: Posterior Scalene

Answer 17

O:Posterior tubercles of transverse processes of C5–C7 vertebrae
I:External border of 2nd rib
I:Anterior rami of cervical spinal nerves C7 and C8
A:Flexes neck laterally; elevates 2nd rib during forced inspirationa

Question 18

OIIA: Longus Colli

Answer 18

O:Anterior tubercle of C1 vertebra (atlas); bodies of C1–C3 and transverse processes of C3–C6 vertebrae
I:Bodies of C5–T3 vertebrae; transverse processes of C3–C5 vertebrae
I:Anterior rami of C2–C6 spinal nerves
A:Flexes neck with rotation (torsion) to opposite side if acting unilaterally

Question 19

OIIA: Longus Capitis

Answer 19

O:Basilar part of occipital bone
I:Anterior tubercles of C3–C6 transverse processes
I:Anterior rami of C1–C3 spinal nerves
A:Flex head

Question 20

OIIA: Rectus Capitis Anterior

Answer 20

O:Base of cranium, just anterior to occipital condyle
I:Anterior surface of lateral mass of atlas (C1 vertebra)
I:Branches from loop between C1 and C2 spinal nerves
A:Flex head

Question 21

OIIA: Rectus Capitis Lateralis

Answer 21

O:Jugular process of occipital bone
I:Transverse process of atlas (C1 vertebra)
I:Branches from loop between C1 and C2 spinal nerves
A:Flexes head and helps stabilize it

Question 22

OIIA: Splenius Capitis

Answer 22

O:Lateral aspect of mastoid process and lateral third of superior nuchal line
I:Inferior half of nuchal ligament and spinous processes of superior six thoracic vertebrae
I:Posterior rami of middle cervical spinal nerves
A:Laterally flexes and rotates head and neck to same side; acting bilaterally, extends head and neck

Question 23

OIIA: Obliquus Capitis Superior

Answer 23

O:Transverse process of vertebra C1
I:Occipital bone between superior and inferior nuchal lines
I: Suboccipital nerve
A: head extension and rotation

Question 24

OIIA:Obliquus Capitis Inferior

Answer 24

O:Posterior tubercle of posterior arch of vertebra C2 (axis)
I:Transverse process of vertebra C1 (atlas)
I: Suboccipital nerve
A: head extension and rotation

Question 25

OIIA: Rectus Capitis Posterior Major

Answer 25

O:Spinous process of vertebra C2
I:Lateral part of inferior nuchal line of occipital bone
I: Suboccipital nerve
A: head extension and rotation

Question 26

OIIA: Rectus Capitis Posterior Minor

Answer 26

O:Posterior tubercle of posterior arch of vertebra C1 (atlas)
I:Medial part of inferior nuchal line of occipital bone
I: Suboccipital nerve
A: head extension and rotation

Question 27

OIIA: Splenius Cervicis

Answer 27

O:Nuchal ligament and spinous processes of C7–T6 vertebrae
I:tubercles of transverse processes of C1–C3 or C4 vertebrae
I:Posterior rami of spinal nerves
A: Acting unilaterally: laterally flexes the neck and rotates the head to side of active muscles
Acting bilaterally: extend the head and neck

Question 28

Which muscles would you want to train for neck stability ? What exercises would activate these muscles ?

Answer 28

Levator Scapulae, Scalenes, SCM, Trapezius

Neck extensions,flexions, lateral flexions

Question 29

Why do osteophytes develop in the cervical spine and how do they affect other structures ?

Answer 29

dehydrated discs lead to uncinate joint contact, force leads to osteophyte development. Could compress nerve root.

Question 30

Explain the effects of whiplash on structures of the neck.

Answer 30

-ALL Injury; strain to alar ligaments, longus colli and capitis, ant. viscera
- compressed discs, facets.

Question 31

What is regional interdependence ?

Answer 31

One muscle’s action depends on the stabilization force of another.
Like when Upper trap is dependent on longus colli.

Question 32

Describe the arthrokinematics of the thoracic facets during: flexion, extension, rotation, and lateral flexion

Answer 32

flexion: superior and anterior sliding of inferior facets
extension: inferior and posterior sliding of inferior facets
rotation: facets slide contralaterally
lateral flexion: ipsilateral facet slide inferior; contralateral facet slides superior

Question 33

OIIA: Iliocostalis

Answer 33

O:Arises by a broad tendon from the posterior part of the iliac crest, posterior surface of the sacrum, sacro-iliac ligaments, sacral and inferior lumbar spinous processes, and supraspinous ligament
I:Iliocostalis: lumborum, thoracis, cervicis; fibers run superiorly to angles of lower ribs and cervical transverse processes.
I:Posterior rami of spinal nerves
A: Acting bilaterally: extend vertebral column and head; as back is flexed, control movement via eccentric contraction
Acting unilaterally: laterally flex vertebral column

Question 34

OIIA: Longissimus

Answer 34

O:Arises by a broad tendon from the posterior part of the iliac crest, posterior surface of the sacrum, sacro-iliac ligaments, sacral and inferior lumbar spinous processes, and supraspinous ligament
I:Longissimus: thoracis, cervicis, capitis; fibers run superiorly to ribs between tubercles and angles to transverse processes in thoracic and cervical regions and to mastoid process of temporal bone.
I:Posterior rami of spinal nerves
A: Acting bilaterally: extend vertebral column and head; as back is flexed, control movement via eccentric contraction
Acting unilaterally: laterally flex vertebral column

Question 35

OIIA: Spinalis

Answer 35

O:Arises by a broad tendon from the posterior part of the iliac crest, posterior surface of the sacrum, sacro-iliac ligaments, sacral and inferior lumbar spinous processes, and supraspinous ligament
I:Spinalis: thoracis, cervicis, capitis; fibers run superiorly to spinous processes in the upper thoracic region and to cranium.
I:Posterior rami of spinal nerves
A:Acting bilaterally: extend vertebral column and head; as back is flexed, control movement via eccentric contraction
Acting unilaterally: laterally flex vertebral column

Question 36

OIIA: Semispinalis

Answer 36

O:Semispinalis: arises from transverse processes of C4–T12 vertebrae
I:Semispinalis: thoracis, cervicis, capitis; fibers run superomedially to occipital bone and spinous processes in thoracic and cervical regions, spanning 4–6 segments.
I:Posterior rami of spinal nerves
A:Semispinalis: extends head and thoracic and cervical regions of vertebral column and rotates them contralaterally

Question 37

OIIA: Multifidi

Answer 37

O:Multifidus: arises from posterior sacrum, posterior superior iliac spine of the ilium, aponeurosis of erector spinae, sacro-iliac ligaments, mammillary processes of lumbar vertebrae, transverse processes of T1–T3, articular processes of C4–C7
I:Multifidus: thickest in lumbar region; fibers pass obliquely superomedially to entire length of spinous processes, located 2–4 segments superior to proximal attachment.
I:Posterior rami of spinal nervesa
A:Multifidus: stabilizes vertebrae during local movements of vertebral column

Question 38

OIIA: Rotatores

Answer 38

O:Rotatores: arises from transverse processes of vertebrae; best developed in thoracic region
I:Rotatores: fibers pass superomedially to attach to junction of lamina and transverse process or spinous process of vertebra immediately (brevis) or 2 segments (longus) superior to vertebra of attachment.
I:Posterior rami of spinal nerves
A:Rotatores: stabilizes vertebrae and assist with local extension and rotatory movements of vertebral column; may function as organs of proprioception

Question 39

OIIA: Interspinalis

Answer 39

O:Superior surfaces of spinous processes of cervical and lumbar vertebrae
I:Inferior surfaces of spinous processes of vertebra superior to vertebra of proximal attachment
I:Posterior rami of spinal nerves
A:Aid in extension and rotation of vertebral column

Question 40

OIIA: Intertransversarii

Answer 40

O:Transverse processes of cervical and lumbar vertebrae
I:Transverse processes of adjacent vertebrae
I:Posterior and anterior rami of spinal nerves
A:Aid in lateral flexion of vertebral column; acting bilaterally, stabilize vertebral column

Question 41

OIIA: Rectus Abdominis

Answer 41

O:Pubic symphysis and pubic crest
I:Xiphoid process and 5th–7th costal cartilages
I:Thoraco-abdominal nerves (anterior rami of T6–T12 spinal nerves)
A:Flexes trunk (lumbar vertebrae) and compresses abdominal viscera; stabilizes and controls tilt of pelvis (anti-lordosis)

Question 42

OIIA: External Oblique

Answer 42

O:External surfaces of 5th–12th ribs
I:Linea alba, pubic tubercle, and anterior half of iliac crest
I:Thoraco-abdominal nerves (T7–T11 spinal nerves) and subcostal nerve
A:Compresses and supports abdominal viscerab and flexes and rotates trunk

Question 43

OIIA: Internal Oblique

Answer 43

O:Thoracolumbar fascia, anterior two thirds of iliac crest, and connective tissue deep to lateral third of inguinal ligament
I:Inferior borders of 10th–12th ribs, linea alba, and pecten pubis via conjoint tendon
I:Thoraco-abdominal nerves (anterior rami of T6–T12 spinal nerves) and first lumbar nerve
A:Compresses and supports abdominal viscerab and flexes and rotates trunk

Question 44

OIIA: Transversus Abdominis

Answer 44

O:Internal surfaces of 7th–12th costal cartilages, thoracolumbar fascia, iliac crest, and connective tissue deep to lateral third of inguinal ligament
I:Linea alba with aponeurosis of internal oblique, pubic crest, and pecten pubis via conjoint tendon
I:Thoraco-abdominal nerves (anterior rami of T6–T12 spinal nerves) and first lumbar nerve
A:Compresses and supports abdominal viscerab

Question 45

OIIA: Psoas Major

Answer 45

O:Transverse processes of lumbar vertebrae; sides of bodies of T12–L5 vertebrae and intervening intervertebral discs
I:By a strong tendon to lesser trochanter of femur
I:Anterior rami of lumbar nerves L1, L2, and L3
A:Acting inferiorly with iliacus, it flexes the thigh; acting superiorly, it flexes the vertebral column laterally; it is used to balance the trunk; when sitting, it acts inferiorly with the iliacus to flex the trunk

Question 46

OIIA: Iliacus

Answer 46

O:Superior two thirds of iliac fossa, ala of sacrum, and anterior sacro-iliac ligaments
I:Lesser trochanter of femur and shaft inferior to it and to psoas major tendon
I:Femoral nerve (L2–L4)
A:Flexes thigh and stabilizes hip joint; acts with psoas major

Question 47

OIIA: QL

Answer 47

O:Medial half of inferior border of 12th ribs and tips of lumbar transverse processes
I:Iliolumbar ligament and internal lip of iliac crest
I:Anterior branches of T12 and L1–L4 nerves
A:Extends and laterally flexes vertebral column; fixes 12th rib during inspiration

Question 48

What is the flexion-relaxation phenomenon and how does it adversely affect the lumbar spine ?

Answer 48

When the erector spinae cease electric eccentric control during trunk flexion; passive tissues are then thought to provide enough resistance to further flexion.

A flexed and relaxed spine cannot resist anterior shear causing damage.

Question 49

How is psoas major unique in its line of force throughout the lumbar spine in the sagittal plane?

Answer 49

distally psoas can increase lumbar lordosis, can extend upper lumbar spine. However, as a whole it is a vertical stabilizer as its superior line of force passes posterior to frontal axis.

Question 50

What pathology can occur at the T-L junction ?

Answer 50

hypermobility of the T-L junction due to changing facet direction ( frontal to sagittal)

traumatic paraplegia; if large flexion torque delivered at transition

Question 51

How is scoliosis named ?

Answer 51

side of convexity

Question 52

What is the difference between structural and functional scoliosis ?

Answer 52

strucutral: fixed; young F>M; cannot be corrected
Functional: corrected w/ postural shift.

Question 53

What kind of coupling occurs with structural scoliosis ?

Answer 53

contralateral spinal coupling; right lateral flexion=left rotation; rib hump on side of convexity.

Question 54

How does thoracic kyphosis affect the moment arm created by the line of gravity ?

Answer 54

increased EMA

Question 55

What affect does thoracic kyphosis and an increased EMA have on structures of the spine and thorax ?

Answer 55

adaptive shortening of lax ligaments, disc stress, impacts inspiration, vital capacity, and balance

Question 56

Describe lumbar facet arthrokinematics for the following motions: flexion, extension, rotation, lateral flexion

Answer 56

flexion: superior and anterior sliding of inferior facets
extension: inferior and posterior sliding of inferior facets
rotation: ipsilateral facets seperate contralateral facets get closer
lateral flexion: ipislateral facet slides down; contralateral slides up

Question 57

What happens to the contact area and contact pressure of the lumbar facets at extremes of flexion and extension ?

Answer 57

at extremes of flexion and extension the sharp lumbar facets poke into the adjacent lamina region. At extremes of flexion paradoxically increases contact pressure while minimizing contact area of facets.

Question 58

How does lumbar flexion affect the IVF and nerve roots ? discs ?

Answer 58

expands IVF

could cause posterior migration of discs which could impinge nerve roots, this is an HNP

Question 59

What position will reduce pressure on the lumbar discs ?

Answer 59

“full sustained” lumbar extension

Question 60

Describe proper lumbopelvic rhythm during forward bending.

Answer 60

45 degrees of lumbar flexion + 60 degrees of hip flexion

Question 61

What are the consequences of limited hip flexion ?

Answer 61

Compensation by the lumbar spine and consequent stress on joints and tissues

Question 62

What are the consequences of limited lumbar flexion ?

Answer 62

Compensation by the hip which requires more juice from hip extensors, causing hip compression.

Question 63

Describe proper lumbopelvic rhythm during return from forward bending.

Answer 63

early phase dominated by hip extensors and middle late phase is when the lumbar extensors kick in.

Question 64

How does the T-L fascia help to stabilize the lumbar spine ?

Answer 64

via muscular attachments

Question 65

How do transversus abd. and internal obliques help to stabilize the lumbar spine ?

Answer 65

By anticipating contractions; feedforward mechanism to decrease counter-movement; connect to T-L fascia

Question 66

What happens to the multifidi in patients with low back pain ?

Answer 66

increased fat content, atrophy, and neuromuscular inhibition

Question 67

What muscles would you want to strengthen to increase lumbar stability? and what exercises would be best ?

Answer 67

Trans. abd. internal obliques, multifidi

ab exercises; crunches, rotational crunches, back extensions

Question 68

How does anterior pelvic tilting affect the lumbar spine ?

Answer 68

accentuation of lumbar lordosis

Question 69

What happens at the L5-S1 junction ?

Answer 69

anterior inclination that leads to shear force which is worsened by an anterior pelvic tilt.

Question 70

Which structures resist anterior shear in the lumbosacral region?

Answer 70

ALL, discs, facet capsules, iliolumbar ligament

Question 71

What is a spondylolisthesis ?

Answer 71

anterior displacement of vertebrae relative to another.

Question 72

What lumbar motion would want to avoid with a spondylolsithesis ?

Answer 72

extension/lordosis

Question 73

How does posterior pelvic tilting affect the lumbar spine ?

Answer 73

decrease lordosis

Question 74

Which muscles form force couples for pelvic tilting when the lumbar spine is stabilized ?: anterior tilt

Answer 74

hip flexor and back extensors

Question 75

what happens to the lumbar spine if the hip flexors are too tight ?

Answer 75

increased lordosis

Question 76

Which muscles form force couples for pelvic tilting when the lumbar spine is stabilized ?: posterior tilt

Answer 76

hip extensors and abdominals

Question 77

What is the difference between a disc protrusion, extrusion, and sequestration ?

Answer 77

protrusion: nucleus still within annulus
extrusion: nucleus herniates through annulus
sequestration: nuclear material stuck in epidural space

Question 78

What are some causes for disc bulging ?

Answer 78

sustained lumbar flexion, low magnitude forces over years, sudden strenous event

Question 79

How can a disc bulge resolve without specific intervention ?

Answer 79

macrophage release resorbs disc

Question 80

Where does disc related pain come from ?

Answer 80

The disc itself or consequences of an HNP, damage to innvervations periphery, PLL, or end plates or neural tissue

Question 81

What is peripheral sensitization ?

Answer 81

when pain is amplified by inflammatory markers like cytokines, mast cells etc. nociceptors also invade region causing pain