0:00

This is a patient who has left visual blurring.

0:06

What one sees is a T2-weighted fat-suppressed

0:10

scan above a FLAIR fat-suppressed scan in the

0:15

bottom left and post-gadolinium

0:18

T1 weighted scan on the bottom right.

0:22

One can readily see on the

0:25

T2-weighted scan,

0:27

an excellent distinction between orbital fat,

0:31

optic nerve sheath CSF,

0:34

and the optic nerve on the right side.

0:37

Allow me to label that fat.

0:44

This is the inferior rectus muscle.

0:46

This is the lateral rectus muscle,

0:49

medial rectus muscle.

0:55

And then we see the optic nerve sheath

0:58

complex with nicely demonstrating CSF

1:05

and the dark signal intensity optic nerve,

1:10

which has the same signal intensity

1:13

as white matter,

1:15

since it is effectively a white matter tract.

1:18

This is the normal side.

1:23

Contrast that with the left side.

1:27

Here we have an optic nerve that is much

1:29

brighter in signal intensity compared

1:32

to the frontal white matter.

1:34

It is abnormal.

1:36

We compare the size of the optic nerves.

1:40

This optic nerve is larger in size

1:43

than the right optic nerve.

1:46

Abnormal signal intensity enlargement two of

1:51

the imaging findings of optic neuritis.

1:55

We don't routinely perform fat-suppressed FLAIR imaging.

2:01

So what is the advantage here?

2:05

So we have FLAIR,

2:07

which is fluid attenuation inversion recovery.

2:10

So here we have the fluid which is the CSF being

2:15

suppressed as well as the fat being suppressed.

2:19

So as one would imagine,

2:21

you're no longer seeing bright CSF in the

2:25

optic nerve sheath. On a FLAIR scan,

2:28

all you're really seeing is the optic nerve

2:31

outlined by suppressed fluid as well as

2:37

suppressed fat. And here we have just that.

2:40

Let's compare the signal intensity of the normal

2:44

right optic nerve with the abnormal

2:46

left optic nerve.

2:47

And what one sees is that bright signal

2:50

intensity and the background is no longer CSF

2:55

on the T2-weight scan suppress CSF.

2:59

On the fat-suppressed FLAIR scan,

3:04

so suppressing both CSF as

3:07

well as the orbital fat.

3:10

On the right-hand side,

3:12

we have the different patient on post-gad

3:16

imaging. So in this case,

3:18

what we're seeing is a fat-enhancing,

3:23

prechias small left optic nerve.

3:27

So this is a different section on the same

3:31

diagnosis of left optic neuritis enlargement

3:37

as well as contrast enhancement.

3:40

Let me just say that there are examples where

3:44

one has enhancement of the optic nerve without

3:50

abnormal signal intensity as opposed

3:53

to demyelinating plaques,

3:55

where we usually are seeing bright signal

3:57

intensity on T2 or FLAIR and maybe

3:59

not enhancement with optic neuritis,

4:02

you can sometimes see enhancement without

4:07

high signal intensity on T2 or FLAIR.

4:11

And this has been experimentally demonstrated

4:13

in rabbits and mice that you can have active

4:19

demyelination with enhancement,

4:21

but without signal intensity abnormality

4:24

in the optic nerve.

4:25

That's different than typical white matter.

4:27

What is the ramifications of a

4:30

diagnosis of optic neuritis?

4:32

So with optic neuritis similar to

4:35

clinically isolated syndrome,

4:38

the five-year cumulative probability of having

4:40

a diagnosis of multiple sclerosis is 30%.

4:44

However, if one has concurrent brain lesions,

4:50

you see that that rate is nearly threefold

4:52

increase. So 16% without brain lesions,

4:58

51% with three or more brain lesions,

5:03

representing a threefold increase in the

5:06

conversion rate to multiple sclerosis,

5:08

all comers about 30%

5:13

with childhood optic neuritis ultimate

5:16

diagnosis of multiple sclerosis 22%.

5:19

And as you can see, at eight to ten years later,

5:25

that 30% may be as high as 49 or 50%,

5:30

depending upon whether or not

5:32

there are brain lesions.

5:33

So we sometimes talk about the

5:37

rule of optic neuritis,

5:38

which is the 50% rule and the 80% rule.

5:42

50% of patients who present with optic neuritis

5:47

will ultimately progress to multiple sclerosis.

5:50

However,

5:52

80% of patients with multiple sclerosis

5:56

have an episode at some point in their

5:58

life of optic neuritis 50% and 80%.

Optic Neuritis Review

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Pro Tip: Click on a word in the transcript to jump to that point in the video

0:00

This is a patient who has left visual blurring.

0:06

What one sees is a T2-weighted fat-suppressed

0:10

scan above a FLAIR fat-suppressed scan in the

0:15

bottom left and post-gadolinium

0:18

T1 weighted scan on the bottom right.

0:22

One can readily see on the

0:25

T2-weighted scan,

0:27

an excellent distinction between orbital fat,

0:31

optic nerve sheath CSF,

0:34

and the optic nerve on the right side.

0:37

Allow me to label that fat.

0:44

This is the inferior rectus muscle.

0:46

This is the lateral rectus muscle,

0:49

medial rectus muscle.

0:55

And then we see the optic nerve sheath

0:58

complex with nicely demonstrating CSF

1:05

and the dark signal intensity optic nerve,

1:10

which has the same signal intensity

1:13

as white matter,

1:15

since it is effectively a white matter tract.

1:18

This is the normal side.

1:23

Contrast that with the left side.

1:27

Here we have an optic nerve that is much

1:29

brighter in signal intensity compared

1:32

to the frontal white matter.

1:34

It is abnormal.

1:36

We compare the size of the optic nerves.

1:40

This optic nerve is larger in size

1:43

than the right optic nerve.

1:46

Abnormal signal intensity enlargement two of

1:51

the imaging findings of optic neuritis.

1:55

We don't routinely perform fat-suppressed FLAIR imaging.

2:01

So what is the advantage here?

2:05

So we have FLAIR,

2:07

which is fluid attenuation inversion recovery.

2:10

So here we have the fluid which is the CSF being

2:15

suppressed as well as the fat being suppressed.

2:19

So as one would imagine,

2:21

you're no longer seeing bright CSF in the

2:25

optic nerve sheath. On a FLAIR scan,

2:28

all you're really seeing is the optic nerve

2:31

outlined by suppressed fluid as well as

2:37

suppressed fat. And here we have just that.

2:40

Let's compare the signal intensity of the normal

2:44

right optic nerve with the abnormal

2:46

left optic nerve.

2:47

And what one sees is that bright signal

2:50

intensity and the background is no longer CSF

2:55

on the T2-weight scan suppress CSF.

2:59

On the fat-suppressed FLAIR scan,

3:04

so suppressing both CSF as

3:07

well as the orbital fat.

3:10

On the right-hand side,

3:12

we have the different patient on post-gad

3:16

imaging. So in this case,

3:18

what we're seeing is a fat-enhancing,

3:23

prechias small left optic nerve.

3:27

So this is a different section on the same

3:31

diagnosis of left optic neuritis enlargement

3:37

as well as contrast enhancement.

3:40

Let me just say that there are examples where

3:44

one has enhancement of the optic nerve without

3:50

abnormal signal intensity as opposed

3:53

to demyelinating plaques,

3:55

where we usually are seeing bright signal

3:57

intensity on T2 or FLAIR and maybe

3:59

not enhancement with optic neuritis,

4:02

you can sometimes see enhancement without

4:07

high signal intensity on T2 or FLAIR.

4:11

And this has been experimentally demonstrated

4:13

in rabbits and mice that you can have active

4:19

demyelination with enhancement,

4:21

but without signal intensity abnormality

4:24

in the optic nerve.

4:25

That's different than typical white matter.

4:27

What is the ramifications of a

4:30

diagnosis of optic neuritis?

4:32

So with optic neuritis similar to

4:35

clinically isolated syndrome,

4:38

the five-year cumulative probability of having

4:40

a diagnosis of multiple sclerosis is 30%.

4:44

However, if one has concurrent brain lesions,

4:50

you see that that rate is nearly threefold

4:52

increase. So 16% without brain lesions,

4:58

51% with three or more brain lesions,

5:03

representing a threefold increase in the

5:06

conversion rate to multiple sclerosis,

5:08

all comers about 30%

5:13

with childhood optic neuritis ultimate

5:16

diagnosis of multiple sclerosis 22%.

5:19

And as you can see, at eight to ten years later,

5:25

that 30% may be as high as 49 or 50%,

5:30

depending upon whether or not

5:32

there are brain lesions.

5:33

So we sometimes talk about the

5:37

rule of optic neuritis,

5:38

which is the 50% rule and the 80% rule.

5:42

50% of patients who present with optic neuritis

5:47

will ultimately progress to multiple sclerosis.

5:50

However,

5:52

80% of patients with multiple sclerosis

5:56

have an episode at some point in their

5:58

life of optic neuritis 50% and 80%.

Report

Description

Faculty

David M Yousem, MD, MBA

Professor of Radiology, Vice Chairman and Associate Dean

Johns Hopkins University

Lesson

Protocols and Anatomy

Lesson

Demyelination Case Review

Lesson

Dysmyelination Case Review

Lesson

Summary

Optic Neuritis Review