Radiculopathy

Question 1

Radiculopathy is most commonly caused by compression of _____ or _____

Answer 1

nerve root, or disc herniation

Question 2

What are the different degenerative changes of the spine (3)

Answer 2

1. osteophytes
2. facet hypertrophy
3. ligamentous hypertrophy

also disc herniation or less commonly, trauma (root avulsion)

Question 3

____ is the cutaneous area supplied by one sensory nerve root level

Answer 3

dermatome

Question 4

Long thoracic nerve supplies which muscle

Answer 4

serratus anterior

Question 5

subscapular nerve supplies which 2 muscles

Answer 5

teres major

subscapularis

Question 6

which muscle does the lateral pectoral nerve supply?

Answer 6

pectoralis major

Question 7

which two muscles does the axillary nerve supply

Answer 7

deltoid

teres major

Question 8

what muscle does the dorsal scapular nerve supply

Answer 8

rhomboids

Question 9

____ All the muscles that are innervated by a single ventral root

Answer 9

myotome

Question 10

name the types of herniation:

Answer 10

Central

Paramedian (Lateral recess): subarticular (anterior SAP)

Foraminal (Far lateral): between pedicles

Extraforaminal: lateral to pedicle

Question 11

Lateral herniation: compresses ____

Medial herniation compresses the _____

Answer 11

Lateral herniation: compresses the lower nerve root (radiculopathy)
Medi1al herniation: compresses the spinal cord (myelopathy)

Question 12

midline herniaion compresses the

parasagittal herniation compresses the

far lateral herniation compresses the

Answer 12

Midline herniation: compresses the traversing nerve roots and/or cauda equina (L4-5 disc bulge = L5/S1/S2 radiculopathy)

Parasagittal herniation: compresses the traversing nerve root (L4-5 disc bulge = L5)

Far lateral herniation: compresses the exiting nerve root (L4-5 disc bulge = L4)

Question 13

Most common location for disc herniation

type?

which nerve root?

Answer 13

posterolateral disc herniation

L4-5 disc herniation = L5 radiculopathy

Question 14

Nerve root:

Pain location: paraspinal muscles, superior shoulder

Sensory disturbance: neck

Weakness: diaphragm, nuchal muscles, strap muscles

Reflex change: None

Answer 14

C3-4

Question 15

Nerve root:
Pain location: neck shoulder, anterior arm

Sensory disturbance: shoulder

Weakness: deltoid, SS/IS, rhomboids, biceps, brachoradiolis

Reflex change: Biceps, BR

Answer 15

C5

Question 16

Root:

Pain Location: neck, shoulder, anterior upper arm, extending to antecubital fossa

Sensory disturbance: Thumb, index finger, radial forearm

Weakness: deltoid, SS, IS, biceps, BR, PT, FCR, ECR

Reflex change:

Answer 16

Biceps, BR

Question 17

all muscles are innervated by atleast 2 root levels except:

Answer 17

rhomboids C5

Question 18

Root:

Pain Location: neck, shoulder, dorsum of forearm

Sensory disturbance: middle finger

Weakness: triceps, lats, PT, FCR, ECR

Reflex change: Triceps

Answer 18

C7

Question 19

Root:

Pain Location: neck, shoulder, ulnar forearm

Sensory disturbance: ring, little fingers, hypothenar eminence

Weakness: intrinsic hand muscles, finger extensors, finger flexors

Reflex change: none

Answer 19

C8

Question 20

Root:

Pain Location: neck, shoulder, ulnar arm

Sensory disturbance: ulnar forearm

Weakness: intrinsic hand muscles (horners syndrome)

Reflex change: none

Answer 20

T1

Question 21

Root:

Pain Location: anterior thigh, groin

Sensory disturbance: anterior thigh

Weakness: iliopsoas, adductors, quads

Reflex change: knee

Answer 21

L3

Question 22

Root:

Pain Location: anterior thigh

Sensory disturbance: medial calf, medial foot

Weakness: quads, adductors (iliopsoas)

Reflex change: knee

Answer 22

L4

Question 23

Root:

Pain Location: Posteriolateral thigh and calf, extending into great toe and dorsum of foot

Sensory disturbance: dorsum of foot, great toe, lateral calf

Weakness: tib ant, tib posterior, ext hallucis longus, peronei, gluteus medius, TFL

Reflex change: None

Answer 23

L5

Question 24

Root:

Pain Location: posterolateral thigh and calf, extending into lateral toes and heel

Sensory disturbance: lateral foot, posterior calf, sole of foot

Weakness: gastroc-soleus, hamstrings, gluteus maximus

Reflex change: ankle

Answer 24

S1

Question 25

What is the most common radiculopathy?
1. with percentage
2nd most common?

Answer 25

Lumbar 62-90%

L5
S1

Thoracic < 2%

Cervical 5-36% of all radiculopathies

Question 26

What are the most common cervical radiculopathies?

Answer 26

C7: 70%
C6: 19-25%
C8: 4-10%
C5: 2%

Question 27

What are the elecrodiagnostic criteria for radiculopathy? (3)

which gives definitive diagnosis?

Answer 27

Abnormal findings in two or more muscles that receive innervation from the same root, preferably via different peripheral nerves

Normal findings directly above and below the affected root level

Definitive Diagnosis: paraspinal involvement

Question 28

what is the protocol for assessing radiculopathy

Answer 28

1 At least 1 motor and 1 sensory NCS in most relevant area
(If abnormal, or if polyneuropathy suspected, further evaluation should be performed of either ipsilateral or contralateral limbs to define the cause of the abnormality)

2 Examine at least 5 muscle of involved limb

3 Examine at least 1 muscle innervated by each root level

• Examine 1 or 2 additional muscles innervated by the suspected root and a different peripheral nerve
• Demonstrate normal muscles above and below the involved root

4 Examine paraspinal muscles (except for sacral radiculopathies or prior posterior spine surgery)

Question 29

Which is the deepest paraspinal muscle?

a. semispinalis
b. multifidus
c. longissimus
d. spinalis

why is it tested during radiculopathy exams

Answer 29

b multifidus

Considered by some as the only paraspinal muscle one to have monosegmental innervation but overlap likely exists

Abnormalities are not pathognomotic of radiculopathy

other disorders can cause paraspinal abnormalities (diabetes, motor neuron disease, local muscle trauma, etc)

Question 30

on radic study, if needle EMG abnormal, what should you do next? (2)

Answer 30

If needle EMG abnormal, needle 1 or more contralateral muscles

Perform median F-waves and compare with contralateral side if necessary

Option 1: to exclude bilateral radiculopathy, or to differentiate b/t radiculopathy and polyneuropathy, motor neuron disease, etc.

Question 31

what are the typical findings on sensory and motor NCS for radic?

Answer 31

sensory - normal

motor: Usually normal unless severe axonal loss leads to reduction in amplitude

SNAPs normal b/c continuity b/t peripheral nerve and cell body (DRG) remains intact… so Wallerian degeneration does not occur

Disc herniation proximal to the dorsal root ganglion results in sparing of the continuity between the distal sensory nerve fibers (to digits) and the cell body within the dorsal root ganglion.

Question 32

H reflex for S1 radiculopathy;

Significant if

• latency difference > _____
• Amplitude difference if > _____

Relevance:
Sensitivity:
Specificity:

Answer 32

Significant if:
- Latency difference > 1.0-1.8ms

• Amplitude difference > 50%

Relevance:
- Sensitivity: 36.4% if absent, 18.2% if asymmetric

• Specificity: 91% if absent, 100% if asymmetric

So helpful if positive due to high specificity

Question 33

Why are F-waves so low in sensitivities

Answer 33

Sensitivity low b/c:
Only assess motor fibers
Affected portion of pathway is so small compared with total pathway being assessed, abnormalities may be obscured
The muscle tested also contains motor axons derived from more than one root, so any slowing may be masked by normal conduction along fibers traversing the unaffected root. I.e., the shortest latency (which is what is measured) may just represent the healthy axons

specificity is anywhere between 62-95.5 depending upon study

Question 34

Needle EMG for lumbosacral radiculopathy:

Sensitivity:
Specificity:
PPV:
NNV:

Answer 34

Sensitivity: 29-92%
Specificity: 37-100%
PPV: 66-100
NNV: 33-66

Research results vary depending upon ‘gold standard’ used (MRI, surgical visualization, history, exam, etc)

Sensitivity goes way up if there is weakness (motor involvement) on exam

Sensitivity goes up with more muscles tested (to a certain point)

Question 35

Needle EMG for cervical radiculopathy:

Sensitivity:
Correlation with radiological findings:

Answer 35

Sensitivity (moderate): 50-71%

Correlation with radiological findings (high specificity): 65-85%

Question 36

The study of paraspinals improves ______

Limitations:

• Sensitivity:
• Specificity:

Answer 36

Improves localization

Limitations:
Sensitivity: 50-66%
Specificity: 85-90%

Localization: suggests lesion proximal to plexus

• Can occur in normal aging/asymptomatic patients
• Should not be used as sole criteria for diagnosis
• Cannot exclude radic if findings are absent

Question 37

What are three factors affecting EMG findings?

Answer 37

Muscle sample selection
Timing
Type of fibers involved (sensory, motor, both)

Question 38

what is the goal for muscle selection for EMG (radic study)

Answer 38

find 2 muscles innervated by the same root level but different peripheral nerve while demonstrating that the level above and below are normal

Question 39

PSW/Fibs indicate _____

CRD indicate ____

Neuropathic MUAPs indicate ____

Answer 39

ongoing denervation

chronic denervation

chronic

If radiculopathy causes axonal damage, wallerian degeneration causes distal axon death.

Neuropathic MUAPs = chronic denervation with subsequent reinnervation

Question 40

What will you see on EMG during denervation process?

1 week

3 weeks

5-6 weeks

Answer 40

1 week

• Reduced recruitment (can be seen immediately)
• Paraspinals with PSWs and fibs

3 weeks
- Proximal limb muscles with PSWs and fibs

5-6 weeks
- Distal limb muscles with PSWs and fibs

• Proximal-to-distal sequence

Question 41

Reinnervation occurs ____ direction

begins after _____

Can be seen ______ after injury

Results in ____ units

Answer 41

Occurs proximally-to-distally

Reinnervation begins after denervation

Can be seen months to years after injury

Results in neuropathic units