Spine (Neck and Back)

Question 1

How many vertebra?

Describe

Answer 1

7 C 
12 T 
5 L 
5 S (fused) 
4 Coccygeal (fused)

Question 2

3 column theory (Denis):

Answer 2

○Anterior: ALL & anterior ⅔ of vertebral body/annulus
○Middle: PLL & posterior ⅓ of vertebral body/annulus
○Posterior: Pedicles, lamina, spinous process, and ligaments

Question 3

describe normal spinal curves

Answer 3

•Spinal curves: normal curves
○Cervical lordosis
○Thoracic kyphosis
○Lumbar lordosis
○Sacral kyphosis

Question 4

describe the spinal region:

cervical:

Answer 4

C1-C2: unique bones allow stabilization of occiput to spine and rotation of head. Motion: rotation and flexion/extension.

Question 5

describe the spinal region:

thoracic

Answer 5

Relatively stiff due to costal articulations. Motion: rotation. Minimal flexion/extension.

Question 6

Describe the spinal region:

thoracolumbar

Answer 6

Facet orientation transitions from semicoronal to sagittal. Segments are mobile. Most commonsiteof lower spine injuries.

Question 7

describe the lumbar spinal region

Answer 7

Largest vertebrae. Common site for pain. Houses cauda equina. Motion: flexion/extension. Minimal rotation.

Question 8

describe the sacral spinal region

Answer 8

no motion. center of pelvis

Question 9

Which part of vertibrae?
Has articular cartilage on both superior & inferior surfaces. Articulates with intervertebral discs & gets larger distally.

Answer 9

body (centrum)

Question 10

which part of vertibrae?
Made up of pedicles and lamina. Develops from 2 ossifications centers that fuse. Failure to fuse occurs in spina bifida. It forms the vertebral canal for the spinal cord.

Answer 10

arch

Question 11

which part of vertebrae?
Spinous: ligament attachment site.
Transverse: rib (T-spine) and ligament attachment site.

Answer 11

processes

Question 12

which part of vertebrae?
Vertebral: spinal cord/cauda equina.
Neural: nerve roots exit via here

Answer 12

foramina

Question 13

Name the four muscles of the suboccipital triangle

Answer 13

1. Rectus capitis posterior major
2. Rectus capitis posterior minor
3. Obliquus capitis superior
4. Obliquus capitis inferior

Question 14

OINA

Anterior scalene

Answer 14

O: C3-6 TP
I: 1st rib
N C5-C8 nerve roots
A: Laterally flexes neck and elevates 1st rib

Question 15

MIddle scalene OINA

Answer 15

O: C2-7 TP
I: 1st rib
N: C5-8 nerve roots
A: Laterally flexes neck and elevates 1st rib

Question 16

Posterior scalene OINA

Answer 16

O: C4-6 TP
I 2nd rib
N: C5-8 nerve roots
A: laterally flexes neck and elevates 2nd rib

Question 17

Rectus capitus posterior major

OINA

Answer 17

part of suboccipital triangle

O: spine of axis
I inferior nuchal line
N: Suboccipital nerve
A: extend, rotate, lateral flex head

Question 18

Rectus capitis posterior minor

OINA

Answer 18

part of suboccipital triangle
O: posterior tubercle of atlas
I Occipital bone
N: suboccipital nerve
A: extend, laterally flex

Question 19

Obliquus capitis superior

OINA

Answer 19

part of suboccipital triangle
O: Atlas transverse process
I: occipital bone
N: suboccipital nerve
A: extend rotate, lateral flex

Question 20

Obliquus capitis inferior

OINA

Answer 20

part of suboccipital triangle
O: spine of axis
I: atlas transverse process
N: suboccipital nerve
A extend, laterally rotate

Question 21

Name the 7 superficial (extrinsic) spinal muscles

Answer 21

Trapezius
Latissimus dorsi
Levator scapulae
Rhomboid minor
Rhomboid major
Serratus posterior superior 
Serratus posterior inferior

Question 22

Trapezius
group?
OINA?

Answer 22

Superficial (extrinsic)
O: Spinous process C7-T12
I: clavicle; scapula (spine, acromion)
N: Thoacodorsal
A: rotate scapula

Question 23

Latissimus dorsi
group?
OINA?

Answer 23

superficial (extrinsic)
O: Spinous process T6-S5
I: humerus
N: Thoracodorsal
A: Extend, adduct, IR arm

Question 24

Levator scapulae
group?
OINA

Answer 24

superficial (extrinsic)
O: TP C1-4
I scapula (medial) 
N: Dorsal scapular n, C3, C4 (dorsal rami) 
A: elevate scapula

Question 25

Rhomboid minor
group
OINA

Answer 25

superficial (extrinsic)
O: SP C7-T1
I: Scapula (spine)
N: Dorsal Scapular N
A: adduct scapula

Question 26

Rhomboid major
group:
OINA:

Answer 26

superficial (extrinsic)
O: SP T2-5
I: Scapula (medial border)
N: Dorsal scapular n
A: adduct scapula

Question 27

Serratus posterior superior
group
OINA

Answer 27

superficial (extrinsic) 
O: SP C7-T3
I: Ribs 2-5 (upper border) 
N: Intercostal N (T1-4) 
A: Elevate ribs

Question 28

Serratus posterior inferior
group:
OINA

Answer 28

superficial (extrinsic) 
O: SP T11-L3
I: Ribs 9-12 (lower border) 
N: intercostal n (T9-12) 
A: depress ribs.

Question 29

Name the 3 deep (intrinsic) layers of the back

Answer 29

Superficial layer: (spinotransverse group) 
Intermediate layer (sacrospinalis group (erector spinae) 
Deep layer (thransversospinalis group)

Question 30

Semispinalis capitis
group:
OINA:

Answer 30

Group: deep layers - transversospinalis group 
O: TP T1-6
I: Nuchal ridge
N: Dorsal primary rami
A: extends head

Question 31

Semispinalis (C&T)
group:
OINA:

Answer 31

Deep layer (transversospinalis group) 
O: TP
I: Spinous process
N: Dorsal primary rami
A: Extend, rotate to opposite side

Question 32

Multifidus (C2-S4)
group:
OINA:

Answer 32

deep layers: transversospinalis group 
O: TP
I: Spinous process
N: dorsal primary rami
A: flex laterally, rotate opposite

Question 33

Rotatores
group:
OINA:

Answer 33

deep layers: transversospinalis 
O: TP
I: SP + 1
N: dorsal primary rami
A: rotate superior vertebrae opposite

Question 34

Levator costarum
group:
OINA:

Answer 34

deep (intrinsic) 
deep layers: transversospinalis 
O: TP
I: Brevis: rib - 1; longus rib - 2
N: Dorsal primary rami
 A: elevate rib during inspiration

Question 35

Interspinales
Group:
OINA:

Answer 35

deep (intrinsic) 
deep layers: transversospinalis 
O: SP
I: SP + 1
N: Dorsal primary rami
A: extend column

Question 36

Intertransversari
Group:
OINA:

Answer 36

deep (intrinsic) 
deep layers - transversospinalis 
O: TP
I: TP+1
N: Dorsal primary rami
A: Laterally flex column

Question 37

Splenius capitis, splenius cervicis
group?
OINA:

Answer 37

deep (intrinsic)
Superficial layer - spinotransverse group
(thoracis, cervicis, and capitus)
O: Ligamentum nuchae; spinous process T1-6
I: Mastoid & nuchal line; TP C1-4
N: dorsal rami of inferior cervical nerves
A: both: laterally flex and rotate neck to same side.

Question 38

Iliocostalis, longissiumus
group:
OINA:

Answer 38

deep (intrinsic)
intermediate layer - sacrospinalis group (erector spinae)
(thoracis, cervicis, capitus)
O: Common origin: sacrum, iliac crest, and lumbar spinous process
I: Ribs; T&C spinous process, mastoid process
N: Dorsal rami of spinal nerves
A: Laterally flex, extend, and rotate head (to same side) and vertebral column

Question 39

Spinalis
group:
OINA

Answer 39

deep (intrinsic)
intermediate layer - sacrospinalis group (erector spinae)
(thoracis, cervicis, capitus)
O: sacrum, iliac crest, and lumbar process
I: T spine - spinous process
N: dorsal rami of spinal nerves
A: laterally flex, extend, and rotate head (to same side) and vertebral column)

Question 40

Back pain per age 
likely etiology: 
Young: 
Middle Age: 
Elderly:

Answer 40

Young: disc injuries, spondylolisthesis
Middle age: Sprain/strain, nucleus pulposis/disc (HNP), degenerative disc disease (DDD)
Elderly: spinal stenosis, herniated disc, DDD, spondylosis

Question 41

Character of pain
What etiology?
1. Radiating (shooting)
2. Diffuse, dull, non radiating

Answer 41

1. Radiculopathy (herniated nucleus pulposis HNP)

2. Cervical or lumbar strain

Question 42

Location of pain:
Etiology:

1. Unilateral vs bilateral
2. Neck
3. Arms (+/- radiating)
4. Lower back
5. Legs (+/- radiating)

Answer 42

1. Unilateral - herniated nucleus pulposis;
   Bilateral: systemic or metabolic disease, space-occupying lesion
2. cervical spondylosis (+/- myelopathy), neck sprain or muscle strain
3. cervical spondylosis, (+/- myelopathy), HNP
4. DDD, back sprain/muscle strain, spondylolisthesis
5. Herniated nucleus pulposis, spinal stenosis

Question 43

Occurrence of pain:
Night pain:
With Activity:

Answer 43

infection or tumor

usually mechanical etiology

Question 44

Alleviation of pain (name etiology)

1. with arms elevated:
2. sit down

Answer 44

1. herniated cervical disc (HNP)

2. spinal stenosis (stenosis relieved)

Question 45

Exacerbation of pain (name etiology)

1. back extension

Answer 45

1. spinal stenosis (going down stairs), DJD/facet hypertrophy

Question 46

Trauma (name etiology of back pain)

MVA seatbelt:

Answer 46

cervical strain (whiplash), cervical fractures, ligamentous injury

Question 47

Activity that causes pain:

sports: stretchinginjury:

Answer 47

burner/stinger - esp in football, fractures

Question 48

Neurologic symptoms

1. pain, numbness tingling:
2. spasticity, clumsiness:
3. bowel/bladder symptoms

Answer 48

1. radiculopathy, neuropathy, cauda equina syndrome
2. myelopathy
3. cauda equina syndrome

Question 49

which test?

hyperextension and flexion of neck ipsilateral to the side of the lesion causing radicular pain in neck and down affected arm

Answer 49

spurling maneuver

Question 50

Which test?

passively flex hip, stop when pain occurs. Lower leg until pain resolves, then dorsiflex the foot

Answer 50

straight leg raise (Lasegue’s Test)

Question 51

Which test?

Estimation of rib hump and evaluation of curve unwinding as patient turns trunk from side to side

Answer 51

Forward bending test

Question 52

Segmental innervation of lower leg movements:
Hip flexion:
Hip extension:

Knee extension:
Knee flexion:

Dorsiflexion
Plantar flexion

Inversion
Eversion

Answer 52

Hip flexion: L2/3
Hip extension: L5/S1

Knee extension: L3/4
Knee flexion: L5/S1

Dorsiflexion: L4/5
Plantar flexion: S1/2

Inversion: L4/5
Eversion: L5/S1

Question 53

Name Motor, Refex, and sensory:

C5
C6
C7
C8
L4
L5
S1

Answer 53

C5: Deltoid, biceps brachii, shoulder
C6: biceps brachii, brachioradialis, Thumb
C7: Triceps brachii, Triceps brachii, Middle two fingers
C8: Interossei, none, lateral two fingers

L4: Quadriceps/dorsiflexion; patella tendon; medial calf/ankle
L5: Extensor halluces longus, none (hamstrings?), Dorsal foot and 1st web space
S1: Plantarflexion/Gastroc; Achilles tendon; plantar and lateral foot

Question 54

Waddells signs:

Answer 54

Presence indicates nonorganic pathology

1. exaggerated response/overreaction
2. pain to light touch
3. nonanatomic pain localization
4. negative flip sign with positive straight leg test

Ortiz:
•Signs (DO ReST) Comments
•Distraction: Presentation of severe radicular pain with the supine straight leg raising tes tbut no pain in the seated straight leg raising test. Both should be positive.
•Overreaction: Inappropriate, disproportionate reactions to a request. This may manifest with exaggerated verbalizations, facial expressions, tremors, or collapsing.
•Regionalization: Motor or sensory abnormalities without anatomic basis such as in a stocking glove distribution, give-way weakness or cog-wheel type of rigidity.
•Simulation: Leg or lumbar pain with a light axial load on the skull. Or a presentation of lumbar pain with simultaneous pelvis and shoulder rotation in unison.
•Tenderness: Exaggerated sensitivity or dramatic reproduction of pain with light touch of the soft tissue or with skin-rolling.

Question 55

•Bowstring Test

Answer 55

Raise leg, flex knee, popliteal press

radicular pain with popliteal pressure indicates sciatic nerve cause

Question 56

•Femoral Nerve Stretch Test (Reverse SLR Test or Ely’s Test)

Answer 56

a test to determine if a patient has shortening of the rectus femoris muscle. The patient is
positioned prone. The examiner passively flexes the knee of the test extremity. If the ipsilateral buttock
rises off the plinthe the test is positive.

Question 57

•Hoffmann’s Sign

Answer 57

positive Hoffmann’s reflex reflects presence of an upper motor neuron lesion from spinal cord compression;

• is elicited by flipping either the volar or dorsal surfaces of the middle finger and observing the reflex contraction of the thumb and index finger;
• this sign is evidence by upper motor neuron disease because here should normally be no reaction;
• positioning the neck in extension (sometimes flexion) may worsen the reflex;

Question 58

•FABERE (Patrick’s Test)

Answer 58

a test designed to alert the examiner to the possibility of hip pathology or SI jointdysfunction. The examiner places the test limb in flexion, abduction and external rotation so that the footof the test limb rests on the patients opposite knee. The examiner then passively presses the test limbtoward the table while applying stabilizing counter pressure on the opposite ilium. The test is positive ifthere is noted pain in the back or the tested limb or if the tested limb remains in a plane above theopposite limb. This may indicate tightness of the hip flexors, adductors or joint capsule of the hip.

Question 59

•Gaenslen Test

Answer 59

The patient lie supine on a treatment table. With one leg hanging over the side of the
table in hyperextension the other knee is drawn to the chest by the patient. The clinician may aid the
patient in moving the hip into hyperextension with gentle pressure. A positive test is indicated by pain in
the ipsilateral sacroiliac joint. Which may be due to an Ipsilateral joint lesion, hip pathology, or an L4
nerve.

Question 60

•Iliac Compression Test

Answer 60

Also called Erichsen’s test. The examiner presses the iliac
crests together. If pain is felt over the joint the reaction is
regarded as evidence of an intra-articular sacroiliac lesion.Forcible separation of the iliac crests is more likely to cause pain by stretching the anterior sacroillac ligaments when the sacroiliac joint is affected

Question 61

Thoracolumbar fractures:
Mechanism (2)
_____ is most common site of fx/injury
What is the three column theory?

Answer 61

MVA or fall (lap belt can be fulcrum to cause flexion distraction fracture)
Thoracolumbar junction most common site

Denis 3 column theory
This model is used to predict the soft tissue injury from bone injury. Spinal stability is dependent on at least two intact columns. When two of the three columns are disrupted, it will allow abnormal segmental motion, i.e. instability.

So a simple anterior wedge fracture or just sprain of the posterior ligaments is a stable injury.
However a wedge fracture with rupture of the interspinous ligaments is unstable, because the anterior and the posterior column are disrupted.
A burst fracture is always unstable because at least the anterior and middle column are disrupted.

1 column injured unstable.
Burst fx caused by 1 flexion and 2 axial compression
Chance fx: flexion/distraction fx, all 3 columns fail in tension

Question 62

Criteria to predict soft-tissue injury from bony vertebral injury are:

Answer 62

Angulation greater than 20 degrees.

Translation of 3.5 mm or more.