Imaging of Peripheral Nervous System

Question 1

What is the PNS?

Answer 1

Everything outside the brain and the spinal cord

All the caudate quania, rootlets and the plexus as well as the peripheral nerves

Question 2

What is the nerves?

Answer 2

1. Numerous parallel axons
2. Axons surrounded by Schwann cells
3. Wrapped in connective tissue
   - Endoneurium
   - Perineurium
   - Epineurium
4. Nerve fascicles - groups of axons bound into bundles

Question 3

What are some limitations to nerve conduction studies?

Answer 3

1. Can be time consuming
2. May be uncomfortable for patients
3. May not be feasible (anti-coagulant/skin disorder)
4. May not reveal precise site of lesion - proximally in the legs
5. May not characterise structural lesions - axonal or demyelination

Question 4

Magnetic Resonance Imaging

Answer 4

1. Non-invasive
2. Operator dependent
3. High spatial and contrast resolution
4. Precise anatomic lesion localisation
5. Can characterise underlying structural cause
6. May detect denervation change earlier than EMG

Question 5

What is ultrasound used for?

Answer 5

• Difficult to assess proximal nerves
• Useful Ix in the appropriate clinical setting
• Superficial peripheral nerves
• Operator dependent denervation changes more difficult to assess

Question 6

What are the indication of when to image?

Answer 6

• Lesion localisation when clinically difficult
(spinal root vs plexus vs peripheral nerves)
• Lesion characterisation
• Single vs multiple nerve involvement
• Extent of abnormality/disease burden
• Establish continuity of nerve (trauma and compression)

Question 7

What are the potential issues?

Answer 7

1. Small structures
2. Similar contrast to muscles & vessels on conventional sequences
3. Adjacent to vessels
4. Anatomic complexity

Question 8

What are the common requests?

Answer 8

1. Lower limb: sciatic nerve
2. Upper limb: median, ulnar, radial nerve
3. Pelvis: fermoral, pudendal nerve

Question 9

Why should imaging be targeted as possible?

Answer 9

1. Shorter examination
2. Improved patient compliance
3. Smaller field of view (FOV)
4. Improved diagnostic quality

Question 10

What are the sequences?

Answer 10

1. T1w (anatomic detail)
2. T2w with fat suppression (tissue contrast)
3. Post-gadolinium T1 with fat suppression (BNB)
4. More advanced:
   - 3D T2w (e.g. SPACE)
   - Hybrid T2w & DWI (e.g. 3D DW-PSIF)
   - DWI/DTI & tractography

Question 11

What are the technical aspects?

Answer 11

1. 3 Tesla (higher signal:noise ratio)
2. Phased-array multi-channel coils
   - Dedicated joint/extremity coils
   - Flexible surface coils wrapped around limbs
3. Small FOV
4. High in-plane spatial resolution
5. Thin slices - axial and longitudinal planes

Question 12

What is found in the lower limbs?

Answer 12

Sciatic nerve

Question 13

Where is sciatic nerve formed from?

Answer 13

L4-L5 to S3 nerve roots

Question 14

Where do sciatic nerve pass in front of?

Answer 14

poiriformis muscles and then down the back of the leg through the foramen and they lie just behind the hamstring muscles

Question 15

What are the 2 nerves that the sciatic nerve is split into?

Answer 15

1. Tibial nerve - carry into the posterior calf

2. Common peroneal nerve wounds around to the lateral side of the lower leg

Question 16

Where do the sciatic nerve go through?

Answer 16

The sciatic foramen and in between gluteus maximus and the hamstring muscles

Question 17

How not to do it

Answer 17

• They have not put flexible coils over the front of the body – lost signal
• Large FOV – it is very hard to pick out the sciatic nerve
• Large FOV for the size of the patient

Question 18

What are the three main nerves of the upper limb?

Answer 18

1. Median nerve [to look for brachial artery and it is medial to it]
2. Between brachial artery and percilic vein

Question 19

Where do median nerve descend down to?

Answer 19

the arm, initially lateral to the brachial artery. Halfway down the arm, the nerve crosses over the brachial artery, and becomes situated medially. The median nerve enters the anterior compartment of the forearm via the cubital fossa.

Question 20

Where do ulnar nerve sit behind?

Answer 20

Percilic nerve on top of the triceps

Radial nerve sits lateral

Question 21

What do radial nerve innervate?

Answer 21

The muscles located in the posterior arm and posterior forearm

Question 22

Where do ulnar nerve sit on top?

Answer 22

Of the triceps and behind the basophilic vein

Question 23

Where do the median nerve sit between?

Answer 23

Artery or lateral to the artery

Question 24

What to look for in the nerve (direct evidence)?

Answer 24

1. Increased STIR
2. Nerve calibre (focal vs diffuse)
3. Contrast enhancement

Question 25

What to look for muscle (indirect evidence - denervation)?

Answer 25

1. Increased STIR signal (water deposition)
2. Increased T1 signal (fatty replacement)
3. Pattern of involvement

Question 26

What to look for in a normal nerve?

Answer 26

1. Size = similar to adjacent arteries
2. Signal intensity = minimally hyperintense on STIR
3. Fasicular pattern = preserved
4. Enhancement = Absent (except DRG)
5. Perineural fat = Preserved

Question 27

What to look for in an abnormal nerve?

Answer 27

1. Size = Focal or diffuse enlargement
2. Signal intensity = Hyperintense on STIR
3. Fascicular pattern = Enlarged or disrupted
4. Enhancement = Present if BNB disrupted
5. Perineural fat = Effaced

Question 28

What is the importance of muscle denervation?

Answer 28

1. Neuronal integrity necessary for muscle function
2. Occurs distal to level of nerve lesion
3. Pattern can help distinguish site of lesion
   - L5 nerve root compression vs common peroneal

Question 29

What is the prognostic significance of muscle denervation?

Answer 29

1. Water deposition (acute) vs fatty replacement (chronic)
2. Acute denervation change is reversible
3. Early treatment –> potential functional recovery