Lumbar Spine

Question 1

What structure does the spinal cord pass through?

Answer 1

vertebral foramen

Question 2

Where do ligaments attach to on the spine?

Answer 2

spinous processes

Question 3

How are spinal nerves named?

Answer 3

after the superior vertebrae

Question 4

Where does spinal cord terminated? What does it become?

Answer 4

L1/L2; forms a point called conus medullairs, below this point is the caudal equina

Question 5

Lumbar puncture

Answer 5

lumbar puncture is a needle that allows to get a sample of CSF from subarachnoid space

Question 6

Epidural

Answer 6

an injection of medication (steroids, anesthetics, anti-inflammatories) into epidural space

Question 7

Where are lumbar punctures/epidurals done? What level?

Answer 7

below conus medullar is (around L3/4) to avoid the spinal cord

Question 8

Function of Intervertebral Discs

Answer 8

• allow movement between the vertebral bodies (squishy pad allowing for movement)
• transmit load between vertebral bodies (shock absorbers)

Question 9

Components of IVD

Answer 9

1. vertebral end-plate
2. nucleus pulposus
3. annulus fibrosis

Question 10

Vertebral end-plate

Answer 10

• a layer of cartilage covering superior and inferior surfaces of disc
• firmly attached by sharpy’s fibres
• diffusion of nutrients from vertebral body to disc (it is a form of connection between disc and vertebral body)

Question 11

Nucleus Pulposus

Answer 11

• semi-fluid gel
• 70-90% water
• proteoglycans make up 65% of dry weight- resist compressive forces
• deformable under pressure
• transmits applied pressure in all directions
• tolerant of compression, transmits pressure in all different directions

Question 12

Annulus fibrosis

Answer 12

• made of collagen arranged in a highly ordered fashion (50-60% of dry weight)- resists tension
• collagen are arranged in 15-25 concentric, circumferential lamellae
• oriented 65% to the vertical
• retains nucleus pulposus
• absorbs compression and can tolerate tensile forces

Question 13

Distraction

Answer 13

• superior-anterior glide of inferior articular process
• anthrokinematics; superior joint moving on inferior joint
• inferior articular process is on superior vertebrae, superior articular process is on inferior vertebrae.
• results in widening of IVF
• pulling bone off bone
• distraction can be used to treat

Question 14

Compression

Answer 14

• Inferior-posterior glide of superior vertebrae
• inferior articular process of superior vertebra
• results in narrowing of IVF
• pinches nerve
• compression is used to diagnose

Question 15

Disc Distraction

Answer 15

• separation of vertebral bodies increases the height of the IVD and all the collagen in annulus fibrosis are lengthened and tense, regardless of orientation
• tension through all collagen fibres
• distraction injuries are rare

Question 16

Disc Compression

Answer 16

• raises the pressure in the nucleus pulposus which becomes exerted radially onto the annulus fibrosis increasing the tension in the annulus
• the tension in annulus is exerted on nucleus preventing it from expanding radially. nuclear pressure is then exerted on vertebral end-plates.
• vertebral end-plates transmit the load from one vertebrae to the next

Question 17

Flexion(Anthrokinematics)

Answer 17

• superior-anterior glide of the inferior articular process of the superior vertebrae alone the superior articular process of the inferior vertebrae

Question 18

Extension (Anthrokinematics)

Answer 18

• inferior-posterior glide of the inferior articular process of the superior vertebrae along the superior articular process of inferior vertebrae
• If you have radiculopathy; extension should decrease symptoms

Question 19

Disc Flexion

Answer 19

• causes compression of annulus fibrosis in the direction of the movement and along annulus on the opposite side
• this pinches disc in the front which causes it to stretch out back
• forward bending: anterior end of vertebral body lowers will the posterior end rises
• nucleus pulposus will be compressed anteriorly and will migrate posteriorly
• when nucleus pulposus gets driven to the back it causes a disc herniation or bulge

Question 20

Torsion

Answer 20

• collagen fibres of annulus oriented in the same direction as twist will be stretched and resist torsional force, remainder are relaxed.
• only half of the annulus can share stress of twisting
• this may be why torsion is one of the primary MOIs

Question 21

Shear

Answer 21

• forward sliding, fibres angled forward on lateral aspect of disc will predominately resist movement as they lie parallel to movement
• anterior and posterior fibres make some contribution but not nearly as much as lateral fibres
• fibres angled posteriorly will be relaxed

Question 22

Lumbar Lordosis Angle

Answer 22

L1-L5 (A angle)

Question 23

Sacral tilt

Answer 23

• angle from vertical when we align with spinous processes of sacrum

Question 24

Sacral Horizontal Angle

Answer 24

• angle derived off of horizontal where we’re looking at superior aspect of sacrum compared to horizontal and getting an angle

Question 25

Lumbosacral angle

Answer 25

• (wedge angle) angle between inferior aspect of lumbar vertebral body L5 and the superior aspect of sacrum. Acute angle can see L5 wanting to migrate forward. Increase in this wedge angle, more likely it will want to shear
• between bottom of last vertebrae and top of sacrum

Question 26

Lumbar Disc Herniation

- Pattern One

Answer 26

• displacement of disc material (nucleus pulposus or annulus fibrosis) beyond the intervertebral space
• herniation process begins from failure of innermost annular rings (lamellae) and progresses outwards to periphery or radially
• most often due to recurrent torsional strains (repetitive rotation)
• nucleus loses hydrostatic pressure and annulus bulges outward during disc compression
• when a tear occurs within fibres, material of nucleus pulposus can track out of the tear and into vertebral or iVF to impinge nerve structures

Question 27

Bulge

Answer 27

extension of disc beyond margins of adjacent vertebral end-plate.
- instead of kidney bean shape, we have a bulge going beyond vertebral end-plate

Question 28

Protrusion

Answer 28

• nucleus pulposus protrudes outward while annulus fibrosis remains in tact. start to get interruption of inner fibres which over time can lead into all fibres being compromised

Question 29

Extrusion

Answer 29

• nuclear material emerges through annular fibres but the posterior longitudinal ligament remains intact
• wall of annulus fibrosis has ruptured and disc material is able to exit. PLL holds disc material inside

Question 30

Sequestration

Answer 30

• nuclear material emerges through the annular fibres and the PLL is disrupted.
• a portion of nuclear material has protruded into epidural space, and material loses all connection with disc.
• body will sense disc material as foreign and cause inflammatory response

Question 31

Dis Herniation (central-vertebral foramen)

Answer 31

• often associated with back pain only
• may present with cauda equina syndrome which is a medical emergency
• LMN lesion
• above conus medullar is = spinal cord compression - UMN lesion

Question 32

Dis Herniation (posterolateral- IVF)

Answer 32

• most common (90-95%)
• PLL is weakest here
• can lead to lumbar radiculopathy
• LMN lesion

Question 33

Region Specific (low back) Red Flag Screening

Answer 33

Cauda Equina (SPINE)

Question 34

Cauda Equina S:

Answer 34

saddle anesthesia- loss of feeling around the buttocks, anus, and genitals

Question 35

Cauda Equina- P

Answer 35

pain- severe nerve pain in back and/or down one or both legs

Question 36

Cauda Equina- I

Answer 36

incontinence: bladder and/or bowel

Question 37

Cauda Equina: N

Answer 37

numbness: lack of sensation and/or weakness in the leg (gait disturbance)

Question 38

Cauda Equina: E

Answer 38

emergency: immediate referral to a neurosurgeon

Question 39

Disc herniation most common at L4/L5 and L5/S1- shear

Answer 39

• dramatic shear or decrease in lumbosacral wedge cause excessive anterior shear of L4 on L5 and L5 on S1. this puts a lot of strain on collagen fibres and overtime it can disrupt annulus fibres allowing disc to migrate outside centre of disc

Question 40

Disc herniation most common at L4/L5 and L5/S1: compression

Answer 40

• we get an increasing amount of weight-bearing load with the lower vertebral levels

Question 41

Disc Herniation- Subjective History

Answer 41

• twisting injury; frequently an element of combined flexion and rotation (golfing)
• pain in the back with or without radiating into the leg, sensory loss, paresthesia or muscle weakness
• may hear or feel something give- sudden onset of pain and is normally worse the following morning (night time has allowed for inflammatory response)

Question 42

Uneven loading

Answer 42

• increase in hydrostatic pressure putting an increased pressure on annulus but the challenge is that annulus is already under tension from being in flexed position
• axial loading with a forward bend will result in uneven loading through disc with significant tensile forces applied through posterior half of disc
• repetitive uneven loading (improper lifting) can lead to micro-failure of posterior annulus fibrosis and can result in herniation

Question 43

Disc Herniation : subjective history-aggravating factors

Answer 43

• sitting,
• bending forward (lifting)
• coughing
• sneezing
• getting up from a chair

Question 44

Disc Herniation: subjective history- easing factors

Answer 44

• z lying (supine and prone)
• standing
• walking

Question 45

Disc Herniation: objective

Answer 45

• neurological exam +/- signs and symptoms of unilateral nerve root involvement
• • compression test
• traction may relieve pain (nerve gets stuck)
• • straight leg raise test at 30-70 degrees- reproducing symptoms between these degrees

Question 46

What things do you notice compromised with disc herniation?

Answer 46

• changes in sensation of L5 dermatome
• fatiguable weakness of L5 myotome
• hypo-reflex of L5 nerve root
• pain with compression

Question 47

Disc herniation treatment: education

Answer 47

• avoid rotation, flexion (sitting, side-lying)

- encourage extension (standing, walking, prone lying, cobra) to drive disc forward

Question 48

Disc herniation treatment: exercise

Answer 48

• Mckenzie extension protocol
• isometric core strengthening initially
• nerve flossing if radiculopathy

Question 49

Disc herniation treatment: manual therapy

Answer 49

• segmental (open up foramen), global traction

Question 50

Disc herniation treatment: other

Answer 50

• NSAIDs (family physician)

Question 51

Disc Herniation- Surgery

Answer 51

spinal fusion vs lumbar disectomy

• surgery is not common
• disectomy will take out things so nerve has more room

Question 52

Disc Herniation: pattern two pain

Answer 52

• pain is intermittent and comes with extension only

Question 53

Disc Herniation: pattern two- facet joint background

Answer 53

• facet joint syndrome is an articular disorder related to lumbar facet joints and their innervations–produces radiating pain
• strain of lumbar facet joint is highest at end-range extension
• with a reduction of disc height, mechanical load will increase which can also lead to degeneration
• felt as unilateral back pain
• combined extension and back bend
• lose disc height, joint is closed more often - now bearing more load than it is designed to

Question 54

Facet Joint pain

Answer 54

• joint can refer pain
• L3/L4 will have back pain but can also have pain going from back down posterior leg and lateral calf
• L4/L5 has pain down hamstring passed knee and more posterior distribution of this pattern
• felt as unilateral pain +/- referral

Question 55

Pattern Two Aggravating Factors

Answer 55

• extension

- ipsilateral side-bending

Question 56

Pattern Two Easing Factors

Answer 56

• flexion (sitting) or slouching to allow superior anterior glide to open joint
• posterior pelvic tilt (reduces lordosis)

Question 57

Pattern Three:

Answer 57

• lumbar radiculopathy
• range of symptoms due to pinching a nerve root within IVF
• most commonly due to herniated disc
• Symptoms include: tingling, burning, numbness, weakness, pain and altered reflexes (similar to neuropathic pain)
• pinching of L5 nerve root

Question 58

L4 nerve injury flow chart

Answer 58

L4 pain is along L4 dermatome, L4 to the floor..

• down across the knee and towards floor to medial malleolus and big toe. Tingling and burning through these.
• weakness is through L4 which is knee extension, we resit knee extension or quads and repeat and would notice fatiguable weakness.
• impaired weakness of L4 nerve root
• diminished knee reflex

Question 59

L5 nerve injury flow chart:

Answer 59

• follow pain and tingling along L5 dermatome
• fatiguable weakness of dorsiflexion
• reflex can be considered medial hamstring

Question 60

S1 nerve injury flow chart

Answer 60

• pain goes down posterior leg to heel
• S1 myotome is calf raises
• reflex is achilles tendon (hypo-reflexive)

Question 61

Sciatica

Answer 61

• sciatica pain radiates unilaterally from lower back to lower leg, foot and toes (peripheral nerve pattern)
• leg pain is more than back pain
• numbness and paresthesia may occur in same distribution
  example of peripheral neuropathy NOT radiculopathy
• common cause is piriformis

Question 62

What is sciatica?

Answer 62

• impingement of sciatic nerve
• can have leg pain because issue is distal to the hip
• piriformis; abnormal deformity or hypertrophy
• issue of peripheral nerve
• sciatic nerve is L5-S3 combined
• versus a radiculopathy would only affect one single nerve root

Question 63

Radiculopathy/Neuropathy Treatment: education

Answer 63

• z lying

Question 64

Radiculopathy/Neuropathy Treatment: exercise

Answer 64

• exercise will aggravate pain so start with pain reducing positions
• change positions frequently from sit to stand to lie or walking (any posture that stays too long will cause pain)
• gentle nerve flossing

Question 65

Radiculopathy/Neuropathy Treatment: manual therapy

Answer 65

• traction: opening up the IVF to try to decompress or go into a flexed position to open up IVF

Question 66

Radiculopathy/Neuropathy Treatment: other

Answer 66

• acupuncture

Question 67

Pattern Four

Answer 67

central stenosis (neurogenic claudication)

• degenerative condition in which there is diminished space available for neural and vascular elements
• degenerative changes of vertebral foramen (osteophytes, calcification)
• compression can cause radiation pain to thigh/glutes
• symptoms are usually bilateral but asymmetric
• narrowing can cause impingement of cauda equina or spinal cord

Question 68

Central Stenosis

Answer 68

• people with this tend to lean forward or hunch over to allow for flexion which would be an easing factor
• if they like flexion you can identify stenosis

Question 69

Central Stenosis: aggravating factors

Answer 69

• standing, walking, downstairs

Question 70

Central Stenosis: easing factors

Answer 70

• flexion
• sitting
• stooped position
• upstairs

Question 71

Central Stenosis Causes:

Answer 71

• disc herniation
• ligamentum flavum hypertrophy- most common
• ligamentum flavus tends to buckle anteriorly with extension which causes vertebral canal to narrow
• flexion we can stretch out
• facet joint antipathy; age related changes, degenerative discs, osteophytes
• spondylolisthesis - dislocation of spine

Question 72

Central Stenosis Surgery: laminectomy

Answer 72

• surgical removal of part of or all of the lamina (neural arch) to reduce compression in central canal

Question 73

Disc Herniation vs Central Stenosis: Disc Herniation

Answer 73

• better with extension, pinching the back driving it forward
• worse with flexion
• flexion pinches front of the disc and drives the nuclear material to the back and puts pressure on structures

Question 74

Disc Herniation vs Central Stenosis: Central stenosis

Answer 74

• worse with extension, will impinge central canal

- better with flexion; we reduce stenosis and create space in vertebral canal

Question 75

Spondylosis

Answer 75

• unilateral or bilateral bony defect (stress fracture) in the pars interarticularis
• micro-trauma usually due to repetitive extension
• worsened with repetitive activity (flexion or exntension )
• typically affects adolescents, particularly athletes (male ?female)
• gymnasts, dance, rowing, football
• radicular symptoms are rare

Question 76

Spondylosis mostly occurs at L5- why?

Answer 76

• during extension, L4 inferior articular process and S1 superior articular process cause pinching force on the L5 pars interarticularis
• lumbosacral angle- lower vertebrae is in more lordosis than higher levels
• ## due to increased anterior pelvic tilt

Question 77

Spondylosis: scotty dog fracture

Answer 77

• outline of scotty dog, fracture happening making it look like dog is wearing collar
• patients will be asymptomatic
• found on x ray when looking for something else
• joining between spinous and transverse process to the neural arch

Question 78

Sponylolisthesis

Answer 78

• slippage of one vertebral body with respect to the adjacent vertebral body causing mechanical or radicular symptoms
• most often preceded by spondylosis
• due to fracture of par interarticularis, we need fracture to allow for translation

Question 79

Sponylolisthesis: retrolisthesis

Answer 79

anterior slippage (most common)

Question 80

Sponylolisthesis: retrolisthesis

Answer 80

posterior slippage (superior vertebrae is transported posterior)

Question 81

Sponylolisthesis most common at L5/S1, why?

Answer 81

dramatic lumbosacral angle which can cause spondylitis which can break open the dam for anterior translation.
L5-S1 has the most shear happening because vertebral bodies sit on an angle here on a down slope
- can be due to congenital, acquired or idiopathic causes, can be caused by repetitive extension

Question 82

difference between spondylosis vs spondylolisthesis

Answer 82

spondylosis- scotty dog has collar

spondylolisthesis- head of dog is detached

Question 83

Grade 1 slippage:

Answer 83

less than 25% slippage, see only a sliver pulled forward

Question 84

Grade 2 slippage:

Answer 84

25-50% slippage, slippage of superior vertebrae on adjacent vertebral body

Question 85

Grade 3 slippage:

Answer 85

50-75% slippage,

Question 86

Grade 4:

Answer 86

> 75% slippage, spine is dislocated
- the more we translate it the worse it is, and cauda equina has to made 90 degree turn prior to going down which causes pressure and traction on nerves

Question 87

Spondylolisthesis- Clinical Presentation: Subjective

Answer 87

• onset of pain, if present, is typically insidious in nature and initially mild in severity
• pain is diffuse, dull ache
• may radiate to glutes or posterior thigh
• sciatica or other radicular
• positional worsening of pain may not be present
• some people may not feel pain

Question 88

Spondylolisthesis: Objective

Answer 88

• increased lumbar lordosis (more extension and more tendency for vertebral body to slip forward)
• palpable step deformity
• maintaining posture of trunk extension relieves symptoms

Question 89

Spondylolisthesis treatment: Education

Answer 89

• avoid recurring trauma resulting from repeated flexion, hyper-extension and twisting (stop whatever compromised bony structure)
• low aerobic impact sports are recommended
• avoid running
• weight loss

Question 90

Spondylolisthesis treatment: exercise

Answer 90

• core strengthening
• isometric, isotonic (strengthen without moving) repetitive flexion and extension can hurt them.
• movements in closed-chain kinetics, anti-lordotic movement patterns of the spine

Question 91

Spondylolisthesis treatment: other

Answer 91

surgery:
- spinal fusion
- cauda equina decompression ?

Question 92

Ankylosis Spondylitis

Answer 92

• chronic inflammatory rheumatic disease primarily involving sacroiliac joints and spine
• subtype of spondyloartropathies
• onset is 20-40 years old, male: female is 2-3:1
• unknown cause- genetic component (HLA-B27 gene)
• disease occurs at enthesis (attachment points between tendon, ligament, capsule)
• inflammation > bone erosion> syndesmophyte formation

Question 93

Syndesmophyte

Answer 93

• bony growth originating inside a spinal ligament or of the annulus fibrosis
• Bony bridge forming within the anterior longitudinal ligament fusing multiple vertebral segments
• starts with bone growth originating at spinal ligament of annulus fibrosis and progresses dramatically asa fusing bony bridge

Question 94

Ankylosis Spondylitis Clinical Presentation

Answer 94

• pain is worse in the morning or after prolonged rest
• low back pain > 3 months
• morning stiffness > 30 mins (biggest indicator of inflammatory pain)
• nocturnal back pain
• improves with activities
• responds well to NSAIDs
  also associated with
• neck pain
• anterior uveitis
• inflammatory bowel disease
  -chest pain
• various enthesitis

Question 95

Ankylosis Spondylitis Diagnosis

Answer 95

• limited lumbar spine motion
• decreased chest expansion for age and sex
• x-ray sacroilitis
• elevated inflammatory markers (erythrocyte sedimentation rate, C-reactive protein, +ve HLA B27

Question 96

Ankylosis Spondylitis Treatment; Conservative- exercise

Answer 96

• extension-based exercise +++

- cardiovascular exercise

Question 97

Ankylosis Spondylitis Treatment: conservative- manual therapy

Answer 97

• increase spinal mobility (if in remission)

-

Question 98

Ankylosis Spondylitis Treatment: pharmacological

Answer 98

• NSAIDs- considered first-line drug treatment
• tumor necrosis factor (TNF) inhibitors
• biologic disease-modifying anti-rheumatic drugs (DMARDs)
  i. e; methotrexate