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Training Collections
Library Memberships
Black Friday Save 30%On-demand course library with video lectures, expert case reviews, and more
Fellowship Certificate™ Programs
Black Friday Save 30%Practice-focused training programs designed to help you gain experience in a specific subspecialty area.
Ultimate Learning Pass
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Get access to free live lectures, every week, from top radiologists.
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Dr. Resnick's MSK Conference
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Supplement your training program with case-based learning for residents, registrars, fellows, and more.
For Private Practices
Upskill in high growth, advanced imaging areas.
Emergency Call Prep
Prepare trainees to be on call for the emergency department with this specialized training series.
4 topics, 23 min.
36 topics, 3 hr. 5 min.
ADC Positive Multiple Sclerosis
16 m.ADC Negative Multiple Sclerosis
10 m.Non-enhancing Multiple Sclerosis
6 m.ADC Positive Multiple Sclerosis, Optic Neuritis
7 m.Criteria for Diagnosing Multiple Sclerosis
7 m.MS Plaques
9 m.Expanded Disability Status Scale
4 m.Tumefactive Demyelinating Lesion Summary
4 m.Tumefactive Demyelinating Lesion Vs. Astrocytoma
3 m.Tumefactive Demyelinating Lesion
2 m.Clinically Isolated Syndrome
7 m.Optic Neuritis as an Early Sign of Multiple Sclerosis
6 m.Optic Neuritis Review
7 m.Neuromyelitis Optica Spectrum Disorder – Summary
8 m.Monophasic Neuromyelitis Optica Spectrum Disorder
5 m.Neuromyelitis Optica Spectrum Disorder
7 m.ADEM Summary
5 m.Acute Disseminated Encephalomyelitis
3 m.Suspected Infarct, ADEM
4 m.Progressive Multifocal Leukoencephalopathy Summary
4 m.Progressive Multifocal Leukoencephalopathy
3 m.PML in Autoimmune Deficient Patient
7 m.Immune Reconstitution Inflammatory Syndrome
4 m.COVID Leukoencephalopathy
3 m.Osmotic Demyelination
4 m.Osmotic Demyelination Summary
6 m.Focal Splenium Demyelination
4 m.Splenium Demyelination Due to Anti-epileptic Drug Withdrawal
4 m.Splenium Demyelination Summary
5 m.Vascular Etiologies of White Matter Lesion
12 m.CADASIL Disease
3 m.CADASIL, Hypertensive Hemorrhage
4 m.Binswanger Disease
5 m.Posterior Reversible Encephalopathy Syndrome Summary
7 m.PRES, Patient on Cancer Medication
4 m.Resolved PRES
2 m.6 topics, 28 min.
1 topic, 5 min.
0:01
This was a patient who had progressive
0:03
neurologic deficits, including left hemiparesis.
0:08
The patient had lupus and was a patient on
0:14
dialysis for end-stage renal disease
0:17
associated with the lupus.
0:20
The patient had had a previous lesion
0:23
identified in the cerebellum,
0:25
which was thought to represent an infarct.
0:27
As we scroll the case here,
0:30
what we see is a lesion that is affecting the
0:33
frontal opercular region down to the perinsular
0:36
region and lateral temporal lobe
0:39
on the left side.
0:41
However, more inferiorly,
0:43
we have a hippocampal lesion posteriorly
0:46
on the right side,
0:47
and then as we get into the posterior fossa,
0:51
we see involvement of the pons, the medulla,
0:55
as well as the cerebellum.
0:58
This does not look like an infarct.
1:00
It is crossing multiple vascular distributions,
1:03
and therefore is unlikely
1:05
to represent an ischemic lesion.
1:07
We can verify that on our ADC maps
1:10
to the far right,
1:11
which show no evidence of dark signal,
1:14
which would indicate restricted diffusion.
1:17
If we look at the scans post-contrast,
1:22
one found that the patient did not show evidence
1:26
of gadolinium-enhancing lesions.
1:29
Here is the FLAIR scan showing the extent
1:32
of the lesions in the posterior fossa,
1:37
the temporal frontal opercular region
1:42
on the left side,
1:43
as well as in that posterior temporal lobe,
1:46
hippocampal region.
1:49
Given that this patient has absence
1:52
of restricted diffusion,
1:55
multifocal lesions,
1:57
including ones in the posterior fossa
2:01
In a patient with end-stage
2:03
renal disease and lupus,
2:05
we have a setup for the possibility of
2:07
progressive multifocal leukoencephalopathy,
2:11
which was the final diagnosis.
2:13
Again, we would not expect restricted diffusion,
2:16
we would not expect contrast enhancement,
2:19
we would not expect hemorrhage,
2:21
and we would expect the potential
2:23
for resolution over time.
Interactive Transcript
0:01
This was a patient who had progressive
0:03
neurologic deficits, including left hemiparesis.
0:08
The patient had lupus and was a patient on
0:14
dialysis for end-stage renal disease
0:17
associated with the lupus.
0:20
The patient had had a previous lesion
0:23
identified in the cerebellum,
0:25
which was thought to represent an infarct.
0:27
As we scroll the case here,
0:30
what we see is a lesion that is affecting the
0:33
frontal opercular region down to the perinsular
0:36
region and lateral temporal lobe
0:39
on the left side.
0:41
However, more inferiorly,
0:43
we have a hippocampal lesion posteriorly
0:46
on the right side,
0:47
and then as we get into the posterior fossa,
0:51
we see involvement of the pons, the medulla,
0:55
as well as the cerebellum.
0:58
This does not look like an infarct.
1:00
It is crossing multiple vascular distributions,
1:03
and therefore is unlikely
1:05
to represent an ischemic lesion.
1:07
We can verify that on our ADC maps
1:10
to the far right,
1:11
which show no evidence of dark signal,
1:14
which would indicate restricted diffusion.
1:17
If we look at the scans post-contrast,
1:22
one found that the patient did not show evidence
1:26
of gadolinium-enhancing lesions.
1:29
Here is the FLAIR scan showing the extent
1:32
of the lesions in the posterior fossa,
1:37
the temporal frontal opercular region
1:42
on the left side,
1:43
as well as in that posterior temporal lobe,
1:46
hippocampal region.
1:49
Given that this patient has absence
1:52
of restricted diffusion,
1:55
multifocal lesions,
1:57
including ones in the posterior fossa
2:01
In a patient with end-stage
2:03
renal disease and lupus,
2:05
we have a setup for the possibility of
2:07
progressive multifocal leukoencephalopathy,
2:11
which was the final diagnosis.
2:13
Again, we would not expect restricted diffusion,
2:16
we would not expect contrast enhancement,
2:19
we would not expect hemorrhage,
2:21
and we would expect the potential
2:23
for resolution over time.
Report
Description
Faculty
David M Yousem, MD, MBA
Professor of Radiology, Vice Chairman and Associate Dean
Johns Hopkins University
Tags
Neuroradiology
MRI
Brain
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