imaging of white matter matters - lieberman's...
TRANSCRIPT
![Page 1: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/1.jpg)
Imaging of White Matter Matters
Eric Newman, Tufts University School of Medicine
Year IV
Gillian Lieberman, MD
September 14, 2012
Eric Newman, 2012
Gillian Lieberman, MD
![Page 2: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/2.jpg)
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Agenda
• Our Patient: Presentation
• Normal White Matter (WM) Features & Imaging
Characteristics
• Framework for Evaluation of WM Disease
• Diagnoses by Distribution
• Our Patient: Suspected Diagnosis
• Summary
Eric Newman, 2012
Gillian Lieberman, MD
![Page 3: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/3.jpg)
Our Patient: Presentation & Selected Imaging
• 60 year old female with
hypertension to 160/100,
headache & altered
mental status.
• Head non-contrast
commuted tomography
(C-): Nonspecific
hypodensity in right
parietooccipital region
• Head Magnetic
Resonance Imaging
(MRI): T2-
hyperintensity in bilateral
parietooccipital regions 3
Axial C- CT BIDMC PACS
Eric Newman, 2012
Gillian Lieberman, MD
Axial T2 MRI
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![Page 4: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/4.jpg)
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Let’s continue to view the normal features of WM &
a framework for evaluating WM disease.
Eric Newman, 2012
Gillian Lieberman, MD
![Page 5: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/5.jpg)
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Companion Patient #1: Normal WM: Features &
Imaging Characteristics
• In the brain, WM is located
centrally
• WM contains myelinated
axons
– Composed of hydrophobic
lipids
– High in fat & low in fluid
relative to gray matter (GM)
• WM on CT
– hypodense to GM
• WM on MRI
– Hyperintense to GM on T1
– Hypointense to GM on T2
www.brainexplorer.org/glossa
ry/white_matter.shtml
Coronal T1 MRI BIDMC PACS
Eric Newman, 2012
Gillian Lieberman, MD
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![Page 6: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/6.jpg)
WM Disease: Framework for Narrowing the
Differential Diagnosis
• Clinical
– Patient demographics
• Age
• Gender
– Patient history & physical exam
– Laboratory results
• Radiological
– MRI more sensitive than CT for evaluation of WM disease
– Distribution throughout the brain on imaging
• Multifocal
• Confluent
• Selective
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Eric Newman, 2012
Gillian Lieberman, MD
![Page 7: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/7.jpg)
Companion Patient #2: Perivascular spaces of Virchow-Robin: Normal Mimic of WM Disease
• Extensions of subarachnoid space surroundings small blood vessels
• Commonly visualized in – Brainstem
– Basal ganglia
– Subcortical WM
• Isointense to CSF on all pulse sequences – Hyperintense to brain parenchyma
on T2
– Signal nulls out with CSF signal on FLAIR
• Range from 1-2 mm to more than 1 cm in size
7 Axial T2 MRI BIDMC PACS
Eric Newman, 2012
Gillian Lieberman, MD
![Page 8: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/8.jpg)
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Let’s continue to view examples of multifocal WM
diseases.
Eric Newman, 2012
Gillian Lieberman, MD
![Page 9: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/9.jpg)
WM Lesion Distributions: Multifocal
• Multifocal examples – Small Vessel Ischemic Disease (SVID)
– Multiple Sclerosis (MS)
– Diffuse Axonal Injury (DAI)
– Progressive Multifocal Leukoencephalopathy (PML)
• Confluent examples
– Leukodystrophies in pediatric patient
– Chemotherapy & radiation changes
• Selective examples
– Central Pontine Myelinolysis (CPM)
– Marchiafava-Bignami disease
– Wallerian degeneration
– Posterior Reversible Encephalopathy Syndrome (PRES)
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Eric Newman, 2012
Gillian Lieberman, MD
![Page 10: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/10.jpg)
Companion Patient #3: SVID
• Risk factors similar to those of cardiovascular (CV) disease
• Locations
– Periventricular: associated with age
– Deep: associated with other CV risk factors
– Subcortical WM: common in women
• Associations
– Cognitive decline
– Dementia
– Gait disturbances
– Stroke
– Mortality
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Axial FLAIR MRI
Axial FLAIR MRI BIDMC PACS
Eric Newman, 2012
Gillian Lieberman, MD
![Page 11: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/11.jpg)
Companion Patient #4: MS
• Autoimmune demyelinating disease
• Most common in middle-aged females
• Sagittal FLAIR images useful to evaluate
– lesions within the corpus callosum
– Dawson’s Fingers
• Often enhancement acutely
• Multiple subtypes/variants – i.e. Balo’s concentric sclerosis
• Head MRI – 80 % sensitive & 90 % specific
• McDonald’s criteria – 2 MRI lesions
– 2 clinical episodes
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Sagittal FLAIR MRI
Axial FLAIR MRI BIDMC PACS
Eric Newman, 2012
Gillian Lieberman, MD
![Page 12: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/12.jpg)
Companion Patient #5: DAI
• Associated with severe shear forces that occur with rapid deceleration – i.e. motor vehicle collisions
• Affects interfaces with disparate densities – GM/WM interfaces
• Graded by location – Frontotemporal
– Corpus callosum
– Brainstem
• May show restricted diffusion on DWI
12 Axial DWI MRI BIDMC PACS
Axial FLAIR MRI
Eric Newman, 2012
Gillian Lieberman, MD
![Page 13: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/13.jpg)
Companion Patient #6: PML
• Involves reactivation of the John Cunningham (JC) virus in immunocompromised patients
• Male predominance
• Often involves – subcortical WM
– corpus callosum
– GM in up to 50%
• Enhancement is rare
• As with other multifocal processes, regions may become confluent over time.
13 Axial FLAIR MRI BIDMC PACS
Eric Newman, 2012
Gillian Lieberman, MD
![Page 14: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/14.jpg)
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Now that we have viewed examples of multifocal
WM lesions, let’s continue to view examples of WM
diseases that are more characteristically confluent in
appearance.
Eric Newman, 2012
Gillian Lieberman, MD
![Page 15: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/15.jpg)
WM Lesion Distributions: Confluent
• Multifocal examples – Small Vessel Ischemic Disease (SVID)
– Multiple Sclerosis (MS)
– Diffuse Axonal Injury (DAI)
– Progressive Multifocal Leukoencephalopathy (PML)
• Confluent examples
– Adrenoleukodystrophy (ALD) in a pediatric patient
– Chemotherapy & radiation changes
• Selective examples
– Central Pontine Myelinolysis (CPM)
– Marchiafava-Bignami disease
– Wallerian degeneration
– Posterior Reversible Encephalopathy Syndrome (PRES)
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Eric Newman, 2012
Gillian Lieberman, MD
![Page 16: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/16.jpg)
Companion Pt #7: ALD
• Leukodystrophies are metabolic & often present in infancy
• ALD – Posterior distribution involving periatrial
& occipital WM, corpus callosum & fornix
– May show enhancement
• Metachromatic Leukodystrophy – Frequently diffuse
• Alexander’s Disease – Often has a frontal distribution
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Axial T2 MRI Courtesy of Dr. Rojas
Eric Newman, 2012
Gillian Lieberman, MD
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Companion Patient #8: Radiation &
Chemotherapy Change
• Often symmetric
bilaterally with
scalloped outer margins
• Frequently involves
periventricular WM
• Associated w/ atrophy
• Often shows variable
peripheral enhancement
& restricted diffusion
• PET or perfusion MRI
may be helpful to
distinguish from tumor
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Axial FLAIR MRI McKinney, et al Axial DWI MRI McKinney, et al
Eric Newman, 2012
Gillian Lieberman, MD
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Now that we have viewed examples of confluent
WM lesions, let’s continue to view examples of WM
diseases that each tend to be selective for a particular
area of the brain.
Eric Newman, 2012
Gillian Lieberman, MD
![Page 19: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/19.jpg)
WM Lesion Distributions: Selective
• Multifocal examples – Small Vessel Ischemic Disease (SVID)
– Multiple Sclerosis (MS)
– Diffuse Axonal Injury (DAI)
– Progressive Multifocal Leukoencephalopathy (PML)
• Confluent examples
– Leukodystrophies in a pediatric patient
– Chemotherapy & radiation changes
• Selective examples
– Central Pontine Myelinolysis (CPM)
– Marchiafava-Bignami disease
– Wallerian degeneration
– Posterior Reversible Encephalopathy Syndrome (PRES)
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Eric Newman, 2012
Gillian Lieberman, MD
![Page 20: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/20.jpg)
Companion Patient #9: CPM
• Also known as osmotic demyelination syndrome
• Associated with – Rapid or overcorrection of
hyponatremia
– Alcoholism, malnutrition, debilitating disease
• Early – Localized to the central pons
– Sparing of corticospinal tracts • “Snake eyes” appearance
• Extra-pontine myelinolysis – Commonly involves midbrain &
basal ganglia. 20
Axial T2 MRI BIDMC PACS
Eric Newman, 2012
Gillian Lieberman, MD
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Companion Patients #10: Marchiafava-Bignami
Disease
• Relatively rare syndrome leading to demyelination & atrophy
• Characteristically involves corpus callosum
• More common in men
• Commonly associated with alcoholism
• Often shows restricted diffusion
21 Axial DWI MRI Courtesy of Dan Ginat, M.D.
Eric Newman, 2012
Gillian Lieberman, MD
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Companion Patients #11: Wallerian
Degeneration
• Also known as orthograde or anterograde degeneration
• Involves injury to axons anywhere along their course
• In central nervous system (CNS), often involves corticospinal tracts of cerebral peduncles
• Myelin clearance by microglia in CNS is relatively slow compared to clearance by macrophages in peripheral nervous system.
22 Axial FLAIR MRI BIDMC PACS
Eric Newman, 2012
Gillian Lieberman, MD
![Page 23: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/23.jpg)
Our Patient: Suspected Diagnosis
• 60 year old female with
hypertension to 160/100,
headache & altered
mental status.
• Absence of restricted
diffusion in regions
corresponding to T2
hyperintensity
– No cytotoxic edema to
raise concern for infarct
• Diagnosis: PRES
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Axial DWI MRI BIDMC PACS
Eric Newman, 2012
Gillian Lieberman, MD
Axial T2 MRI
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Companion Patient #12: PRES
• Controversial mechanism, but thought to be related to chronic hyperperfusion & blood-brain barrier breakdown
– Results in plasma leakage & vasogenic edema
• Associated w/ HTN & immunosuppressant therapy
• Often involves bilateral occipital & parietal watershed areas
– May involve GM & frontal lobes
• WM injury is largely reversible.
24 Axial FLAIR MRI BIDMC PACS
Eric Newman, 2012
Gillian Lieberman, MD
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![Page 25: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/25.jpg)
Summary
• Relative to GM, WM is normally high in fat & low in fluid
making it hyperintense to GM on T1 & hypointense on T2
– Demyelination leads to T2 hyperintensity
• Diagnosis of WM disease relies upon
– Clinical features
• Patient demographics: age, gender
• Patient history & physical exam: signs, symptoms & chronicity
• Laboratory results
– Characteristic radiologic distributions
• Multifocal: MS commonly in middle-aged females, SVID in older patients
• Confluent: Leukodystrophies in children, radiation & chemotherapy change
• Selective: CPM in central pons early, PRES in bilateral parietooccipital lobes
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Eric Newman, 2012
Gillian Lieberman, MD
![Page 26: Imaging of White Matter Matters - Lieberman's eRadiologyeradiology.bidmc.harvard.edu/LearningLab/central/Newman.pdf · Imaging of White Matter Matters Eric Newman, Tufts University](https://reader031.vdocuments.net/reader031/viewer/2022011800/5ac693de7f8b9af91c8e4456/html5/thumbnails/26.jpg)
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References
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Clinics of North America 1993;3(2):361-375.
• Caldemeyer KS, Edwards MK, Smith RR, Moran CC. Viral and postviral demyelination central
nervous system infection. Neuroimaging Clinics of North America 1993;3(2):305-316.
• Gean-Marton AD, Vezina GL, Marton KI, Stimac GK, Peyester RG, Taveras JM, Davis KR,.
Abnormal corpus callosum: A sensitive and specific indicator of multiple sclerosis. Radiology
1991;180:215-221.
• Lee BCP. Magnetic resonance imaging of metabolic and primary white matter disorders in
children. Neuroimaging Clinics of North America 1993;3(2):267-287.
• McKinney AM, Kieffer SA, Paylor RT, SantaCruz KS, Kendi A, Lucato L. Acute Toxic
Leukoencephalopathy: Potential for Reversibility Clinically and on MRI With Diffusion-
Weighted and FLAIR Imaging. American Journal of Roentenology 2009; 193:192-206.
• Johnson BA. A practical approach to white matter disease. Advanced MRI from head to toe; 2002.
• Ahsan H, Rafique MZ, Ajmal F, Wahid M, Azeemuddin M, Iqbal F. Magnetic resonance imaging
(MRI) findings in white matter disease of brain. J Pak Med Assoc. 2008 Feb;58(2):86-8.
• Hesselink JR. Differential diagnostic approach to MR imaging of white matter diseases. Top
Magn Reson Imaging. 2006 Aug;17(4):243-63.
Eric Newman, 2012
Gillian Lieberman, MD
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Acknowledgements
I would like to give special thanks to Dr. Bhadelia, Dr. Rojas,
Dr. Moonis, & Dr. Lieberman for their help in making this
presentation possible.
Eric Newman, 2012
Gillian Lieberman, MD