Exam 1: Myelin and Metabolic Disorders Flashcards
Review – Myelin disorders: Autoimmune
Name the 4 autoimmune diseases/problem/issues that are related to mylelin disorders
1) Multiple Sclerosis (CNS)
2) Acute disseminated encephalomyelitis (acute) and acute hemorrhagic encephalomyelitis (hyperacute) (both CNS)
3) Neuromyelitis optica
4) Guillain-Barré (PNS)
Review – Myelin disorders: Metabolic
Name a Metabolic diseases/problem/issues that is related to mylelin disorders
Central pontine myelinolysis (rapid correction of hyponatremia/osmotic shock),
Marchiafava-Bignami
Review – Myelin disorders: Leukodystrophy
*Genetic/storage diseases (Often due to catabolic enzyme deficiency)*
Name the 3 Leukodystrophy diseases/problem/issues that are related to mylelin disorders
1) Krabbe
2) Metachromatic leukodystrophy (accumulation of sulfatides)
3) Adrenoleukodystrophy (accumulation of very long chain fatty acids),
Pelizaeus-Merzbacher (proteolipid protein gene),
Canavan (Aspartylcyclase activity )
Review – Myelin disorders: Nutritional
Name a Nutritional diseases/problem/issues that is related to mylelin disorders
Subacute Combined Degeneration of the Spinal Cord - Vitamin B12 Deficiency – degeneration of posterior, lateral, and other columns (PNS and CNS)
Review – Myelin disorders:
Myelin disorders can be Dysmyelination or Demyelination.
1) How does each one affect myelin?
2) What types of disorders are releated to each?
Faulty myelin production** (_Dys_myelination**)
- Genetic
- Metabolic
Attack on normal myelin (Demyelination)
- Immunologic
- Toxic/environmental/nutritional/metabolic
- Infectious
- Other
Review – Myelin is produced in?
CNS by the oligodendroglial cells
PNS by Schwann cells
Review – Myelin:
_____ axons
Allows _____ conduction of axonal impulses
Composed of _____ and _____
Review – Myelin:
Insulates axons
Allows saltatory (i.e. faster) conduction of axonal impulses
Composed of lipids and proteins
Review – Loss of myelin leads to?
• Short-circuits
• Slowing of conduction
• Failure of bodily functions
Multiple Sclerosis summarys - Etiology:
What is the basic etiology of MS?
autoimmune disease (immunologic)
Multiple Sclerosis - Cellular immunity:
• Initiated by _____ cells react against _____ _____
TH1 lymphocytes secrete _____ (IFN-γ) that activate _____ which injure myelin
TH17 lymphocytes promote recruitment of _____
• Plaques (lesions) contain _____ and _____
Multiple Sclerosis - Cellular immunity:
• Initiated by CD4+ T cells react against self myelin
TH1 lymphocytes secrete cytokines (IFN-γ) that activate macrophages which injure myelin
TH17 lymphocytes promote recruitment of leukocytes
• Plaques (lesions) contain macrophages** and **T-lymphocytes (mostly CD4+)
Multiple Sclerosis - Cellular immunity:
• Antibodies also present with uncertain role
_____ bands seen on CSF electrophoresis
___-cells present
Multiple Sclerosis - Cellular immunity:
• Antibodies also present with uncertain role
Oligoclonal bands seen on CSF electrophoresis
B-cells** present
*Pathogenetic evidence of infection; HumanHerpesvirus-6 antibodies are seen in ~40%
**B-cell depletion can decrease incidence of demyelinating diseases
Multiple Sclerosis - Risk factors/Pathogenesis:
• Familial risk
15-fold increase with _____ relative
Higher incidence (150-fold) with _____ twins
• Genetic linkage
___-hapotype of MHC
Siblings with MS may share same _____ receptor haplotype
Multiple Sclerosis - Risk factors/Pathogenesis:
• Familial risk
15-fold increase with 1st-degree relative
Higher incidence (150-fold) with monozygotic twins
• Genetic linkage
DR2-hapotype of MHC
Siblings with MS may share same T-cell receptor haplotype
Multiple Sclerosis - Risk factors/Pathogenesis:
• Weiner
single-nucleotide polymorphisms (SNPs) associated with a higher risk of developing MS were identified on the interleukin-___ receptor a gene, interleukin-___ receptor a gene, and confirmed in the ___-___ locus.
• Populations
More common in _____ populations in northern latitudes
Arguments of _____ factors
Multiple Sclerosis - Risk factors/Pathogenesis:
• Weiner
single-nucleotide polymorphisms (SNPs) associated with a higher risk of developing MS were identified on the interleukin-2 receptor a gene, interleukin-7 receptor a gene, and confirmed in the HLA-DRA locus.
• Populations
More common in Caucasian populations in northern latitudes
Possibly accounts for increased incidence in temperate latitudes (vs. equator)
Arguments of environmental factors
Migration studies show that risk can change with moves early in life.
Multiple Sclerosis - Pathogenesis:
• Infections (particularly early in life) may cause breakdown of _____ and entry of lymphocytes into _____
• _____ antibodies in ~40% of MS patients
• _____ and ____ have also been suggested as a potential triggers
Multiple Sclerosis - Pathogenesis:
• Infections (particularly early in life) may cause breakdown of BBB and entry of lymphocytes into CNS (no agent has been conclusively established)
• Human HerpesVirus-6 antibodies in ~40% of MS patients – more than EBV and CMV
• EBV and Chlamydia have been suggested as a potential triggers
Multiple Sclerosis - Clinical:
• Often begins with _____ nerve involvement (_____ neuritis)
• Often _____ and _____ course
• Female-to-Male ratio is ___:1
• Rarer before ___ and after___
• _____ seen on MR
• High _____-signal
Multiple Sclerosis - Clinical:
• Often begins with optic nerve involvement (Optic neuritis); May or may not proceed to MS – only 10 to 50% develop MS.
• Often remitting and relapsing course
• Female-to-Male ratio is ~2:1
• Rarer before 20 and after 50
• Lesions seen on MR
• High T2-signal
Multiple Sclerosis - Clinical: lesion deficits
Multiple lesions produce variety of deficits.
(I dont think we need to memorize these as much as understand what all can be affected. )
Visual, Spinal Cord, Cerebellar deficits, Lhermitte sign, Intranuclear ophthalmoplegia and other eye movement disorders, Depression and psychiatric conditions, and many other findings
Multiple Sclerosis - Clinical: lesion deficits
Visual: Intranuclear ophthalmoplegia, Pupillary abnormalities, Nystagmus
Spinal Cord: Acute transverse myelitis (spinal cord). Paralysis, Sensory loss (dorsal columns), Bladder control dysfunction
Cerebellar deficits: Ataxia, Scanning speech, Intention tremor
Lhermitte sign: Shocklike feeling with neck flection
Intranuclear ophthalmoplegia and other eye movement disorders
Depression and psychiatric conditions
Many other findings
Multiple Sclerosis - Pathology: (Gross)
_______ in _____ matter of brain and spinal cord
• Loss of _____ matter – _____ in areas that should be _____
• In brain, often adjacent to _____ ventricles
• Firmer than adjacent areas – _____
• Can show “_____” due to microscopic perivascular pattern
Multiple Sclerosis - Pathology: (Gross)
Lesions (plaques) in white matter of brain and spinal cord (CNS)
• Loss of white matter – grey-tan lesions in areas that should be white
• In brain, often adjacent to lateral ventricles
• Firmer than adjacent areas – gliosis
• Can show “fingers” due to microscopic perivascular pattern
Multiple Sclerosis - Pathology: (Micro)
acute (active), inactive, and shadow plaques
Acute (active) plaques
_____ attacking and engulfing myelin
_____, often ___vascular
_____ apoptosis
Multiple Sclerosis - Pathology: (Micro)
acute (active), inactive, and shadow plaques
Acute (active) plaques
Macrophages attacking and engulfing myelin
Inflammation** (lymphocytes and macrophages), often **perivascular
Oligodendroglial apoptosis
Multiple Sclerosis - Pathology: (Micro)
acute (active), inactive, and shadow plaques
Inactive plaques
Loss of myelin with fewer _____ cells
_____ of oligodendroglial cells
Gliosis
Relative _____ of axons
Multiple Sclerosis - Pathology: (Micro)
acute (active), inactive, and shadow plaques
Inactive plaques
Loss of myelin with fewer inflammatory cells
Reduction of oligodendroglial cells
Gliosis
Relative preservation of axons (vs. myelin loss)
Some axonal loss possible
Multiple Sclerosis - Pathology: (Micro)
acute (active), inactive, and shadow plaques
Shadow plaques
Evidence of _____ – axons with thin myelin
Multiple Sclerosis - Pathology: (Micro)
acute (active), inactive, and shadow plaques
Shadow plaques
Evidence of remyelination – axons with thin myelin
What disorder is shown in the image?
What are we supposed to know about this image?
Multiple Sclerosis
The area around the occipital horns of the lateral ventricle should be myelinated white matter.
What disorder is shown in the image?
What are we supposed to know about this image?
Multiple Sclerosis
The Luxol Fast Blue is used in MS sections; Luxol Fast Blue stains myelin blue.
The higher-power images show loss of myelin with relative preservation of axons (i.e. c/w demyelination).
What disorder is shown in the image?
What are we supposed to know about this image?
Multiple Sclerosis
Note the presence of multiple lesions. The characteristic “Dawson’s Fingers” are areas of demyelination adjacent to the ventricles (Fig. A).
Figure E shows a high cervical lesion and a lesion in the corpus callosum.
Multiple Sclerosis - Different courses:
Relapsing remitting – Relapses followed by Improvement after _____ (remission); _____ progression (most common)
Secondary progressive – Follows relapsing, remitting - _____ progression _____ remissions (i.e. remissions less common)
Primary progressive – Gradual progression _____ remissions
Relapsing progressive – _____ but still accumulate disability
Multiple Sclerosis - Different courses:
Relapsing remitting – Relapses followed by Improvement after attacks (remission); little or slow progression (most common)
Secondary progressive – Follows relapsing, remitting - Steady progression with or without remissions (i.e. remissions less common)
Primary progressive – Gradual progression without remissions
Relapsing progressive – Remissions but still accumulate disability
A classic MRI image is shown:
Where are the lesions?
What would be the likely histopathological appearance of these lesions?
What would be the most likely initial lesion/symptom in such a patient?
*These are post-mortem MR scans. There is no fluid within the ventricular system.
A classic MRI image is shown:
Where are the lesions?
What would be the likely histopathological appearance of these lesions?
What would be the most likely initial lesion/symptom in such a patient?
*These are post-mortem MR scans. There is no fluid within the ventricular system.
Central Pontine Myelinolysis (CPM)
• Thought to occur with _____ correction of _____natremia (_____ sodium) – osmotic shift
• Alternative – extreme _____-osmolality or other _____ imbalance
• Loss of myelin with _____ axon preservation: Central _____ pontis. Pontine _____. Can occur _____tentorially
• Rapidly progressive _____; ”_____ syndrome”
• Seen in _____, _____nourished conditions, severe electrolyte or osmotic imbalance, or in liver transplantation
Central Pontine Myelinolysis (CPM)
• Thought to occur with rapid correction of hyponatremia (low sodium) – osmotic shift
***You must correct severe hyponatremia in a slow, deliberate manner!!!***
• Alternative – extreme hypo-osmolality or other metabolic imbalance
• Loss of myelin with relative axon preservation: Central basis pontis. Pontine tegmentum. Can occur supratentorially
• Rapidly progressive quadriplegia; ”locked-in syndrome”
• Seen in alcoholism, malnourished conditions, severe electrolyte or osmotic imbalance, or in liver transplantation
Buzz words:
Rapidly progressive quadriplegia
”locked-in syndrome”
hyponatremia followed by IV hypertonic saline
If you see these buzzwords consider?
Buzz words:
Rapidly progressive quadriplegia
”locked-in syndrome”
hyponatremia followed by IV hypertonic saline
Central Pontine Myelinolysis (CPM)
Marchiafava-Bignami
• Myelin loss/necrosis in and around _____ _____ and _____ ______
• Classically thought to occur in _____ of _____ heritage
• Abuse of _____ (contaminant?)
• History of _____ and poor nutrition with overlap with other syndromes (_____-_____, Alcoholic _____ dysfunction)
Marchiafava-Bignami
• Myelin loss/necrosis in and around corpus callosum and anterior commissure
• Classically thought to occur in alcoholics of Italian heritage
• Abuse of cheap Italian red wine (contaminant?)
• History of alcoholism and poor nutrition with overlap with other syndromes (Wernicke-Korsakoff, Alcoholic cerebellar dysfunction)
Progressive Multifocal Leukoencephalopathy (PML)
• Result of infection with _____.
• _____ cells are infected.
• _____ results. See LFB-stained image.
• Astrocytic abnormalities are also present.
• PML is often an _____ infection.
Progressive Multifocal Leukoencephalopathy (PML)
• Result of infection with JC virus.
• Oligodendroglial cells are infected.
• Demyelination results. See LFB-stained image.
• Astrocytic abnormalities are also present.
• PML is often an opportunistic infection.
Sphingolipidoses
• This is a _____ pathway.
• An absent or abnormal _____ leads to _____ of substrate, which can harm the cell by direct or indirect means.
Sphingolipidoses
- This is a catabolic pathway.
- An absent or abnormal enzyme leads to build up of substrate, which can harm the cell by direct or indirect means.
Krabbe Disease
• form of _____dystrophy
• Sphingolipidosis
• Deficiency of _____ β-galactosidase; required for conversion of galactocerebroside to ceramide and galactose. Galactocerebroside can _____.
• Most problems thought to be from?
• Galactosylsphingosine is produced – toxic to _____ cells
Krabbe Disease
- form of Leukodystrophy
- Sphingolipidosis
• Deficiency of galactocerebroside β-galactosidase; required for conversion of galactocerebroside to ceramide and galactose. Galactocerebroside can accumulate.
• Most problems thought to be from shifting galactocerebroside to alternative pathway
• Galactosylsphingosine**** is produced – toxic** to **oligodendroglial cells
Krabbe Disease
• Onset ___-___ months; Survival uncommon beyond ___ years
• Clinically – motor signs, Stiffness and _____, Worsening problems with _____
• Loss of myelin in _____ with characteristic _____ cells (very enlarged multinucleated _____) in CNS clustered around _____; severe _____
Krabbe Disease
• Onset 3-6 months; Survival uncommon beyond 2 years
• Clinically – motor signs, Stiffness and weakness, Worsening problems with feedings
• Loss of myelin in PNS and CNS with characteristic globoid cells (very enlarged multinucleated macrophages) in CNS clustered around blood vessels; severe gliosis
Buzz words:
“Globoid” cells
If you see these buzzwords consider?
Buzz words:
“Globoid” cells
Krabbe Disease
Much of the white matter is gray/yellow because of the loss of myelin. Inset picture: “Globoid” cells are the hallmark of the disease.
Adrenoleukodystrophy (Several forms)
• ___-linked form
• Mutations in _____ gene on Xq28
- Inability to _____ very-long chain fatty acids (VLCFA’s) within _____
- VLCFA’s _____ – toxic affects
- Myelin loss in _____ matter (with sparing of the immediate _____ _____) with gliosis and lymphocytic _____
Adrenoleukodystrophy (Several forms)
• X-linked form
• Mutations in ALD gene on Xq28
- Inability to catabolize very-long chain fatty acids (VLCFA’s) within peroxisomes
- VLCFA’s accumulate – toxic affects
- Myelin loss** in **deep white matter (with sparing of the immediate subcortical U-fibers) with gliosis and lymphocytic inflammation
Pelizaeus-Merzbacher
• ___-linked
• Gene encodes _____ protein
• Myelin _____ in cerebral hemispheres but some areas remain producing _____ appearance
• Early signs: _____ eye movements, _____tonia, choreoathetosis, and pyramidal signs
• Late signs: _____, _____, ataxia
Pelizaeus-Merzbacher
• X-linked
• Gene encodes proteolipid protein (PLP)
• Myelin almost completely lost** in **cerebral hemispheres but some areas remain producing tigroid appearance
• Early signs: Peduncular eye movements, hypotonia, choreoathetosis, and pyramidal signs
• Late signs: spasticity, dementia, ataxia
Subacute combined Degeneration of Spinal Cord
• Deficiency of vitamin _____
• Loss of myelin with _____ in posterior columns, corticospinal and other tracts
• _____ and axonal loss can occur
• Symptoms: Begins with slight _____, numbness and tingling in _____ extremities. Can progress to _____ weakness and total _____
Subacute combined Degeneration of Spinal Cord
• Deficiency of vitamin B12
• Loss of myelin with vacuolization in posterior columns, corticospinal and other tracts
• Gliosis and axonal loss can occur
• Symptoms: Begins with slight ataxia, numbness and tingling in lower extremities. Can progress to spastic weakness and total paraplegia
Vitamin B1 (Thiamine) deficiency
• _____-_____ Syndrome
• Often seen in _____ with poor _____
• Early Clinical: Psychoses and _____plegia acutely
• Late Clinical: Memory disturbances and _____
• Midline lesions** – **mamillary bodies, thalamus, periventricular regions; _____ early; _____ late
_____ leading to atrophy/cystic change in affected areas
• Treatment; _____ administration (_____ to glucose); Correction of other nutritional deficits
Vitamin B1 (Thiamine) deficiency
- Wernicke-Korsakoff Syndrome
- Often seen in alcoholics with poor nutrition
• Early Clinical: Psychoses and ophthalmoplegia acutely
• Late Clinical: Memory disturbances and confabulation
• Midline lesions – mamillary bodies, thalamus, periventricular regions; Hemorrhagic early; hemosiderin late
Necrosis leading to atrophy/cystic change in affected areas
• Treatment; Thiamine administration (prior to glucose); Correction of other nutritional deficits
Hepatic Encephalopathy
• Pathogenesis:
Follows _____ dysfunction
Altered _____ in the central nervous system and neuromuscular system
Elevated blood _____ level and other toxins promote generalized brain _____.
• Clinical:
Disturbances in _____ (subtle to coma/death)
Fluctuating neurologic signs including _____, _____reflexia, and particularly asterixis (i.e. _____ movements)
_____ if clinical condition is addressed
• Pathology:
Few gross changes (outside of edema)
Alzheimer Type ___ _____ develop – enlarged, folded, cleared nuclei
*Note the lobulated and enlarged _____ nucleus in the lower portion of the photograph
Hepatic Encephalopathy
• Pathogenesis:
Follows liver dysfunction
Altered neurotransmission in the central nervous system and neuromuscular system
Elevated blood ammonia level and other toxins promote generalized brain edema.
• Clinical:
Disturbances in consciousness (subtle to coma/death
Fluctuating neurologic signs including rigidity, hyperreflexia, and particularly asterixis (i.e. flapping movements)
Reversible if clinical condition is addressed
• Pathology:
Few gross changes (outside of edema)
Alzheimer Type 2 astrocytes develop – enlarged, folded, cleared nuclei
*Note the lobulated and enlarged astrocyte nucleus in the lower portion of the photograph
Carbon monoxide
• Results in _____ discoloration of skin
• Global hypoxic changes – necrosis of layers ___ and ___ of cortex, hippocampus cerebellar _____ cells
• ___lateral necrosis of _____ pallidus
Carbon monoxide
• Results in cherry–red discoloration of skin
• Global hypoxic changes – necrosis of layers III and V of cortex, hippocampus, cerebellar Purkinje cells
• Bilateral necrosis of globus pallidus
In picture: Carbon monoxide poisoning. (a) Hemorrhagic discoloration (arrows) of the pallidum in acute carbon monoxide poisoning. The dorsal part of the nucleus is most severely affected. (b) and (c) Examples of symmetric (b) and asymmetric (c) cavitation of the dorsomedial part of the pallidum in survivors of acute carbon monoxide poisoning. Note the ill-defined gray discoloration of the cerebral white matter and thinning of the corpus callosum in (c). (d) Cavitated necrosis (arrows) in the cerebral white matter in a survivor of acute carbon monoxide poisoning. (e) The frontal white matter has a gelatinous gray appearance and is focally cavitated in the brain from a long-term survivor of carbon monoxide poisoning. The arcuate fibers are spared.
Ethanol
• Degeneration of _____-_____ cerebellar _____
• Clinical – _____ ataxia
Other Pathology – Ethanol-related (emphasize) including Marchiafava Bignami Cerebellar Degeneration, Wernicke-Korsakoff, Myopathy and Neuropathy, Fetal Alcohol Syndrome, Hepatic Encephalopathy
Ethanol
• Degeneration of anterior-superior cerebellar vermis
• Clinical – truncal ataxia
Other Pathology – Ethanol-related (emphasize) including Marchiafava Bignami Cerebellar Degeneration, Wernicke-Korsakoff, Myopathy and Neuropathy, Fetal Alcohol Syndrome, Hepatic Encephalopathy
A 50 yo man has ataxia secondary to chronic alcohol abuse**. Imaging of his **cerebellum shows atrophy. What part of the cerebellum is most likely to be atrophic?
A. Anterior-superior Vermis
B. Posterior-inferior Vermis
C. Lateral
D. Tonsils
A 50 yo man has ataxia secondary to chronic alcohol abuse**. Imaging of his **cerebellum shows atrophy. What part of the cerebellum is most likely to be atrophic?
A.
Anterior-superior Vermis
A 35 year-old died 10 years after resection** of her **terminal ileum** due to **Crohn disease. A spinal cord section is shown. What is the etiology?
A. Chronic aluminum toxicity
B. Thiamine deficiency
C. Vitamin A toxicity
D. Vitamin B12 deficiency
E. Vitamin D deficiency
A 35 year-old died 10 years after resection of her terminal ileum due to Crohn disease. A spinal cord section is shown. What is the etiology?
D.
Vitamin B12 deficiency
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