1. Cervical Anatomy and Biomechanics

Question 1

Vert Bodies Relationships

Answer 1

• Teeth (mouth closed) @ lvl of C2
• Thyroid cart @ lvl of C4/C5

Question 2

Forces on C/S

Answer 2

• wt. of head (approx 8% of BW)
• contraction of surrounding mm’s
• Loads:
  
  • more load on IV Jts in FLEXION
  • more load on Facets in EXTENSION

Question 3

More load in IVJs in

Answer 3

FLEX

Question 4

More load on Facets in

Answer 4

EXTENSION

Question 5

Anatomy & biomechanics Lower C/S

C3-C7

Processes in Lower C/S

Answer 5

• SP tips from C2-C5 bifurcated (split) in 52% of c/s
• TPs
  
  • foramen for vert. aa→ just ant. to spinal nerve
  • “trough” for spinal nerve→ post to vert aa
  • Mm attach’s → levator scap attaches to TP of C1-C4

Question 6

Anatomy & biomechanics Lower C/S

C3-C7

Unciform (Uncinate Processes)

Answer 6

• SUP vert surface has a SUP directed projection that courses ANT and POST→ uncus or uncinate process
• INF portion of VB is beveled to allow articulation to articulate w/ the uncinate process of the vertebrae below
• debated in literature as to whether or not its a true synovial jt.
• Limits lateral flex ROM @ C3-C7
  
  • *provides Lat stability in C/S

Question 7

Zygapophyseal Joints

Z-joint or facet joints

Answer 7

• Collectively make up “articular pillar”→ important palpation landmark
• Just post to trough-like TPs/spinal nerves
• Dome shaped
• More HORIZ in SUP segments, and more VERT in LOWER segments
  
  • *TIP: orients toward the eyes

Question 8

Z-Jts of C/S

One more detail

Answer 8

Have meniscoid synovial folds→ May become entrapped

Question 9

Movement Patterns LOWER C/S

Axis of Rotation

Answer 9

Axis of Rotation occurs in the plane of the facet joint

Question 10

Movement Patterns LOWER C/S

Coupled Motion

Answer 10

Coupled Motion

Axial rotation is coupled w/ ipsilat lateral flexion

i.e. rotation and lateral flex couple to same side

Question 11

Movement Patterns

ROM

Answer 11

ROM

• Avg of 8degs in ea direction for each segment for rotation→ (C2-C3 to C7-T1)
• Composite rotation motion for lower C/S of about 40degs ea direction
• Segmental cervical ROM for flex/ext varies sig’ly w/ time of day
• *Motion in one plane will restrict mvmt in other planes
  
  • Ex: if in flexion, rotation and L/F will be limtd as much of the jt surface gliding was “used up” to achieve flexion****

Question 12

CS Intervertebral Discs:

Which segments and what about them?

Answer 12

• CS discs: C2-3; C3-4; C4-5; C5-6; C7-T1 (cervicothoracic junction)
• Morphologically diff from lumbar discs

Question 13

CS Intervertebral Discs

How are they diff/characteristics

Answer 13

• Post annular wall of minimal thickness
• Reinforced posteriorly by PLL
• Reinforced laterally by uncinate process
• Crescent shaped when viewed from above→ thickest anteriorly, progressively thinning when traced to the uncinate processes
• Arranged in layers→ fibers in woven arrange.
• Posterior annulus consists of one lamina of vert. oriented collagen fibers ~1mm thick

Question 14

C/S: Nucleus Pulposus

Answer 14

• Present @ birth and progressively less evident in adolescence
• Essentially absent by age 40→ the nucleus is a ligamentous fibrocartilaginous “dry” core that is consistency of soap w/ little or no proteos

Question 15

Upper Cervical Region

Consists of ….

Answer 15

*Atlanto-Occipital joint (O-A joint)

*Atlanto-Axial joint (C1-C2)

*rememer Atlas (C1) is Atlas because it “holds the head on top”

Question 16

The Atlas (C1)

“Holds the head”

Answer 16

• Acts essentially as a washer interposed bw head and C2
  
  • few mm’s act directly on Atlas
• Concave SUPERIOR articular surfs articulate w/ Convex condyles of Occiput
• C1 (Atlas) does NOT have vert. body→ embryological vert. body of Atlas becomes DENS of Axis***

Question 17

The Atlas (C1)

Movement Patterns: Atlanto-Occipital (O-A Joint)

Answer 17

• Primary Motion→ Flex/Ext (“OA Nodding, little “sup nod”) @ this lvl)
  
  • Avg ROM→ ~15degs
• During L/F w/ head prevented from turning→ Reactive contralateral rotation of Atlas occurs
  
  • Ex. L/F to LEFT, Atlas rotates to RIGHT

Question 18

Atlanto-Axial Jt (C1-C2)

Stuff…

Answer 18

• Rotation @ Atlanto-Axial (C1-2) occurs as the anterior arch of the Atlas (C1) pivots around the odontoid process (DENS) of the Axis (C2)
• W/ Rotation→ Lateral mass of the ipsilateral Atlas must slide backward and the contralateral lateral mass must slide forward→ i.e. the Atlas “screws down” on the Axis as it rotates

Question 19

Atlanto-Axial (C1-C2) Joint Rotation

Info…

Answer 19

• Atlanto-Axial C1-C2 joint rotation is 43degs +/- 5degs ea. direction
• Primarily limited by tension in the contralateral Alar Lig. (e.g. R. Alar lig limits L rotation)
• Some evidence BOTH alar ligs limit rot. in either directions

Question 20

S/B Atlant-Axial Joint

UPPER C/S**

Answer 20

• SB of Atlanto-Axial Joint (C1-C2) involves BOTH a lateral translation of C1 IPSILATERALLY** And **rotation CONTRALATERALLY
  
  • SB to LEFT→ LEFT translation of C1
    
    • Accompanying this→ Right rotation (to opp side) of C1 that is due to the slop of facets
      
      • Hence→ “In the Upper CS, rotation and LF are coupled in opposite directions”
        
        • they are coupled same direction in LOWER C/S

Question 21

Passive Support: Ligaments

Alar Ligament

Answer 21

• Runs obliquely from posterior lateral apex of dens to the medial occipital condyles
• Primary limiting structure to head rotation to the contralateral side

Question 22

Passive Support: Ligaments

Transverse Band of Cruciform Ligament

(the one that makes it a “Cross”)

Answer 22

• Passes BEHIND DENS, anchoring DENS TO Atlas
• Primary source of stability of the Atlanto-Axial jt→ Prevents subluxation of C1 on C2***

Question 23

Passive Support: Ligaments

Superior and Inferior Projections

Answer 23

• Attach TO occiput and base of the Axis respectively→ forms a Cross→ hence the name Cruciform Ligaments

Question 24

Passive Support: Ligaments

ALL (Ant Longitudinal Lig)

Answer 24

On Ant surfaces of bodies starting @ C2-C3; LIMITS EXT

• @ Occiput-C1 (OA)→ Atlanto-Occipital Membrane
• @ C1-C2 (A-A)→ Atlanto-Axial Membrane

Question 25

Passive Support: Ligaments

PLL (Post Longitudinal Lig)

Answer 25

Covers floor of vertebral canal, along posterior surfs of VB’s

• ABOVE C2→ cont’s as Tectorial Membrane

Question 26

Passive Supports: Ligaments

Ligamentum Flavum

The “Yellow Ligament”

Answer 26

“Yellow Ligament bw adjacent lamina”

Ligamentum, Lamina—- REMEMBER!!!

• Consists of elastin fibers→ yellow color
• Hypertrophies and begins to lose elasticity by 45yo
• Projections INTO vert. canal
• MAJOR contributor of central canal stenosis

Question 27

Ligamentum Nuchae

*Consists of 2 parts

Answer 27

1. Dorsal raphe
   
   1. Firmly attached to external occipital protuberance and SP of C7
   2. Formed from interweaving of R and L upper traps, splenius capitis, rhomboid minor
2. Fascial Septum
   
   1. running from dorsal raphe to merge w/ interspinous ligs and A-A and O-A membranes

Question 28

Implications of Ligamentum Nuchae

Answer 28

• Traps + Splenius capitis are NOT directly attached to the SP ABOVE C7
• In supporting the scapulae the trapezius acts transversely on the C7 and T1 SPs
• Upper trap fibers act entirely on the clavicle @ insertion, and nuchal line of the skull & dorsal raphe of nuchal ligament @ origin

Question 29

Muscles of the C/S

Roles:

Answer 29

Mvmt/head righting/positioning of special senses; stabilization; proprioception (dense amt of mm spindles and GTOs)

Question 30

Muscles of the C/S

Extensors

Superf→ Deep

REVIEW all O/I/I/A

Answer 30

• Traps→ upper fibers
• Splenius capitis
• Splenius cervicis
• Semispinalis & Spinalis capitis
• Semispinalis cervicis
• Longissimus capitis
• Longissimus cervicis
• ***SCM (POST fibers act on UPPER CS)→ when acting w/ longissimus capitis, spinalis capitis and semispinalis capitis
• Suboccipitals:
  
  • Obliquus capitis superior
  • Rectus capitis posterior major and minor

Question 31

Muscles of the C/S

Flexors

Superf→ Deep

REVIEW all O/I/I/A

Answer 31

• ***SCM (ANT fibers acting on LOWER CS)→ when acting w/ longus capitis
• Anterior scalene
• Deep Cervical Flexors***→ important for re-training!!!
  
  • Longus colli
  • Longus capitis

Question 32

Muscles of the C/S

ROTATORS

Superf→ Deep

REVIEW all O/I/I/A

Answer 32

• Upper traps→ rotates head to OPP side
• SCM→ rotates head to OPP side
• Splenius capitis→ rotates head to SAME side
• Levator Scapula→ rotates neck to SAME side
• Rectus capitis posterior major→ rotates head to SAME side
• **Obliquus capitis inferior→ rotates C1 (on C2) to SAME side

Question 33

Muscles of the C/S

Lateral Flexors

**Contraction of muscles on 1 side causes IPSILATERAL lateral flexion

Superf→ Deep

REVIEW all O/I/I/A

Answer 33

• Upper traps
• SCM
• Splenius capitis
• Semispinalis capitis
• Longissimus capitis
• Longissimus cervicis
• Middle and Post scalenes
• **Suboccipitals (UPPER CS)

Question 34

Nerve Roots

Gen. Info

Answer 34

• 8 pairs Cervical Nerves;
  
  • C1 nerve sits ABOVE C1, and so on
  • C8 nerve sits ABOVE T1
• Occupy ¼ to ⅓ of the IVF diameter

Question 35

Nerve Roots

Potential Sources of Compression: 5

Answer 35

1. Disc Herniation
2. Facet Jt Hypertrophy*
3. Uncinate process spurring*
4. Foraminal Stenosis*
5. Peri-articular fibrous tissue*

NOTE: 2-5 are MAIN sources of nerve root compression AFTER 40yo*****

Question 36

More on Disc Herniations in C/S

Answer 36

• MOST common @ the C5-6 and C6-7 lvls
• In general→ nerve root involved is the “lower #” of disc lvl***
  
  • Ex. C5-C6 herniation compresses C6 nerve root
• This trend is true for all CS nerve roots EXCEPT C-8 nerve root→ C-8 nerve root just ABOVE T1 (bw C7 and T1) and thus vulnerable w/ C7-T1 disc

Question 37

Sinuvertebral Nerves

aka reason for pain from discs

Answer 37

• Branch of ventral (ant.) ramus of spinal nerves; Receives autonomic fibers from sympathetic trunk via gray ramus communicans
• Innervates dural theca, nerve root dural sheath, periosteum, epidural contents, spinal canal, and the IVD
• Transmits pain in rxn to inflammatory material produced by injured discs

Question 38

Some Final Biomechanical Notes…

Answer 38

• FLEXION of CS→ INCs size (diameter) of vertebral canal, but also INCs dural tension
• EXTENSION of CS→ DECs size (diameter) of vertebral canal

Question 39

Flexion of CS does what to diameter of vertebral canal?

Answer 39

INCs size, but also INCs dural tension

Question 40

EXTENSION of CS does what to size of vertebral canal?

Answer 40

DECs

Question 41

Clinical Quiz:

Which motion (FLEX vs EXT of CS) would likely be more problematic for pt w/ cervical myelopathy?

Answer 41

EXTENSION!

• Cervical Myelopathy
  
  • RED FLAG!
  • Central cord compression that impacts SC
  • Abnorm reflexes
  • Numb/tingle in BOTH UE or LE
  • Progressive in nature
  • B/L
  • Balance issues, weakness
  • Most pts are surgical which prevents things from getting worse

Question 42

There IS coordination b/w cervical and oral-facial mm’s

Examples?

Answer 42

• Chewing
  
  • during chewing, your cranium would wobble around if it were not for coordinated postural and stabilizing contractions of CS mm’s

Question 43

Effects of FHP

Typical to see Tension where and due to what

Answer 43

• typ to see tension due to INCd postural contraction activity in a stretched/elongated position in upper traps and lev scap

Question 44

Effects of FHP

Typ to see “stretch weakness” where?

Answer 44

Stretch weakness in scapular retractors and depressors

Question 45

Effects of FHP

Typ to see Tightness in where?

Answer 45

Suboccipitals and pec minor

possibly SCM

Question 46

FHP INCs the _______ on the CS, thus what has to happen?

Answer 46

INCs flexion moment on CS, thus CS extensors have to work harder to maintain static equilib

Question 47

In FHP, there is INCd loading on _______

Answer 47

INC loading on lower cervical facet joints

bc Lower CS stays in flexed position