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Training Collections
Library Memberships
On-demand course library with video lectures, expert case reviews, and more
Fellowship Certificate™ Programs
Practice-focused training programs designed to help you gain experience in a specific subspecialty area.
Ultimate Learning Pass
Unlock access to our full Course Library and all self-paced Fellowships.
Continuing Medical Education (State CME)
Complete all of your state CME requirements in one convenient place.
Noon Conference (Free)
Get access to free live lectures, every week, from top radiologists.
Case of the Week (Free)
Get a free weekly case delivered right to your inbox.
Case Crunch: Rapid Case Review (Free)
Register for free live board reviews.
Dr. Resnick's MSK Conference
Learn directly from the MSK Master himself.
Lower Extremities MRI Conference
Musculoskeletal Imaging
Emergency Imaging
PET Imaging
Pediatric Imaging
For Training Programs
Supplement your training program with case-based learning for residents, registrars, fellows, and more.
For Private Practices
Upskill in high growth, advanced imaging areas.
Compliance
NewTrack, fulfill, and report on all your radiologists' credentialing and licensing requirements.
Emergency Call Prep
Prepare trainees to be on call for the emergency department with this specialized training series.
Lesson
Huntington's Chorea
22 topics, 1 hr. 2 min.
Introduction to Neurodegenerative Diseases
3 m.Huntington’s Disease
3 m.Types of Movement Disorder
4 m.Extrapyramidal Anatomy
4 m.Neuroanatomy and Neurophysiology of the corpus striatum 1
4 m.Neuroanatomy and Neurophysiology of the corpus striatum 2
4 m.Huntington’s Chorea Case Review
5 m.Measurements and Ratios in Huntington’s Chorea
3 m.Epidemiology of Huntington's disease
5 m.Clinical Implications Part 2
4 m.Genetic Choreas
4 m.Imaging Differentiators in Genetic Choreas
3 m.Sydenham’s Chorea
4 m.Immunologic Causes of Chorea
3 m.Infectious Causes of Chorea
3 m.Drug Induced Choreas
3 m.Vascular Choreas
3 m.Neoplastic Disorder Choreas
2 m.Metabolic Causes of Chorea Part 1
2 m.Metabolic Causes of Chorea Part 2
3 m.MR Spectroscopy in Huntington's Chorea
3 m.Huntington’s Chorea on PET
3 m.Lesson
Parkinson's Disease
9 topics, 26 min.
Lesson
Parkinson Plus Syndromes
12 topics, 48 min.
Lipoid Proteinosis or Urbach-Wiethe Disease
3 m.Parkinson’s Disease (PD) vs Lewy Body Dementia (LBD)
5 m.Progressive Supranuclear Palsy (PSP)
6 m.Progressive Supranuclear Palsy (PSP) vs Creutzfeldt–Jakob disease (CJD)
4 m.Multiple System Atrophy (MSA)
3 m.Midbrain Anatomy: PSP
3 m.Bilateral Corpus Striatum Caudoputamen Hyperintensity Differential Diagnosis
6 m.Dystonia
6 m.Bilateral Corpus Striatum Caudoputamen Hyperintensity: Wilson’s Disease
5 m.Wilson’s Disease: Panda Sign
3 m.MSA Subtypes: MSA-C
5 m.Parkinsonian Syndromes: MSA-P
6 m.Lesson
Clinical Implications of Huntington's Chorea
20 topics, 1 hr. 16 min.
Cerebellopontine Atrophy Differential in Older Population
7 m.GCA Scale for Assessing Neurodegenerative Disease
3 m.Medial Temporal Lobe Scale
3 m.Fazekas Scale
3 m.Koedam Parietal Atrophy Scale
3 m.Mild Cognitive Impairment Syndrome
8 m.Differential Diagnosis of Cognitive Decline
5 m.Alzheimer's Disease: Part 1
3 m.Alzheimer's Disease: Part 2
4 m.Creutzfeldt-Jakob Disease: Part 1
3 m.Creutzfeldt-Jakob Disease: Part 2
5 m.Subcortical arteriosclerotic encephalopathy
5 m.Using Fiber Tracking in Neurodegenerative Disease Cases
2 m.Vascular Dementia Differential Diagnosis: Part 1
5 m.Vascular Dementia Differential Diagnosis: Part 2
6 m.Dementia of Unknown Type
4 m.Pick's Disease
4 m.Pick’s Disease Subtypes
3 m.The Role of PET in Pick's disease
3 m.Differential Diagnosis of Parkinsonian Symptoms
5 m.0:00
This is a 66-year-old man known
0:03
to me on Parkinson's therapy,
0:06
switched to another therapy upon which the
0:10
diagnosis of a possible stroke was entertained,
0:13
and therefore he got diffusion imaging,
0:16
which was negative, by the way,
0:18
did not show evidence of a stroke.
0:21
And most likely his symptoms were related to
0:25
tardive dyskinesia with the development of
0:27
choreoathetosis, secondary to the new medication.
0:31
Now, on the EPI image,
0:33
you can see very close opposition of the
0:36
red nuclei to the substantia nigra.
0:40
And the substantia nigra is thickened from
0:43
anterior to posterior due to accumulation
0:46
of iron in the compacta region.
0:48
Now, this is not as easily appreciated
0:51
or not as specifically identified as it
0:54
is in the middle image,
0:56
which is a blood iron-sensitive sequence
0:59
known as blood-sensitive imaging,
1:01
BSI, SWAN, or SWI,
1:05
susceptibility-weighted imaging.
1:08
When we look at this image,
1:10
we see right there that there is a paucity
1:12
of iron in the red nucleus.
1:14
So there's depigmentation of the red nucleus.
1:17
The compacta stripe is very thin on one cut
1:20
and on the next cut, the two absolutely,
1:23
positively bleed together.
1:25
Then in the lateral aspect of the nigra,
1:28
maybe there's a little bit of a swallowtail here,
1:30
but there's not much of a swallowtail on the
1:33
patient's right side, the viewer's left.
1:36
And the iron distributions and stores
1:39
are completely blunted.
1:41
Now, on the diffusion tensor image,
1:44
attenuation of the white matter tracks posteriorly
1:48
due to visual spatial agnosia and loss of visual
1:52
spatial function is not specific
1:54
to Parkinson's disease.
1:56
It's seen in dementia with Lewy bodies,
1:59
as well as classic Parkinson's disease,
2:02
although some have described it as a more
2:05
severe attenuation seen in LBD.
2:08
So we've got three findings here, at least.
2:12
Attenuation of the white matter tracks in the
2:15
visual spatial pathway,
2:17
bleeding together of the rubro nigral interface
2:23
with loss and thinning of the compacta zone,
2:26
and loss of iron in the outer half
2:29
to outer third of the substantia
2:32
nigra with loss of the normal wispy swallow
2:35
tail in the lateral aspect of the midbrain.
Parkinson’s Disease (PD)
HIDEInteractive Transcript
0:00
This is a 66-year-old man known
0:03
to me on Parkinson's therapy,
0:06
switched to another therapy upon which the
0:10
diagnosis of a possible stroke was entertained,
0:13
and therefore he got diffusion imaging,
0:16
which was negative, by the way,
0:18
did not show evidence of a stroke.
0:21
And most likely his symptoms were related to
0:25
tardive dyskinesia with the development of
0:27
choreoathetosis, secondary to the new medication.
0:31
Now, on the EPI image,
0:33
you can see very close opposition of the
0:36
red nuclei to the substantia nigra.
0:40
And the substantia nigra is thickened from
0:43
anterior to posterior due to accumulation
0:46
of iron in the compacta region.
0:48
Now, this is not as easily appreciated
0:51
or not as specifically identified as it
0:54
is in the middle image,
0:56
which is a blood iron-sensitive sequence
0:59
known as blood-sensitive imaging,
1:01
BSI, SWAN, or SWI,
1:05
susceptibility-weighted imaging.
1:08
When we look at this image,
1:10
we see right there that there is a paucity
1:12
of iron in the red nucleus.
1:14
So there's depigmentation of the red nucleus.
1:17
The compacta stripe is very thin on one cut
1:20
and on the next cut, the two absolutely,
1:23
positively bleed together.
1:25
Then in the lateral aspect of the nigra,
1:28
maybe there's a little bit of a swallowtail here,
1:30
but there's not much of a swallowtail on the
1:33
patient's right side, the viewer's left.
1:36
And the iron distributions and stores
1:39
are completely blunted.
1:41
Now, on the diffusion tensor image,
1:44
attenuation of the white matter tracks posteriorly
1:48
due to visual spatial agnosia and loss of visual
1:52
spatial function is not specific
1:54
to Parkinson's disease.
1:56
It's seen in dementia with Lewy bodies,
1:59
as well as classic Parkinson's disease,
2:02
although some have described it as a more
2:05
severe attenuation seen in LBD.
2:08
So we've got three findings here, at least.
2:12
Attenuation of the white matter tracks in the
2:15
visual spatial pathway,
2:17
bleeding together of the rubro nigral interface
2:23
with loss and thinning of the compacta zone,
2:26
and loss of iron in the outer half
2:29
to outer third of the substantia
2:32
nigra with loss of the normal wispy swallow
2:35
tail in the lateral aspect of the midbrain.
Report
Description
Faculty
Stephen J Pomeranz, MD
Chief Medical Officer, ProScan Imaging. Founder, MRI Online
ProScan Imaging
Tags
Syndromes
Neuroradiology
MRI
Drug related
Brain
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