Nervous system

Question 1

112. Pathology of raised intracranial pressure:

CEREBRAL EDEMA general + morphology

Answer 1

= accumulation of excess fluid within the brain parenchyma

MORPHOLOGY:

• flattened gyri
• narrow sulk
• compressed ventricular cavities
• softer brain
• herniation

Question 2

112. Pathology of raised intracranial pressure:

CEREBRAL EDEMA vasogenic edema

Answer 2

• occurs when integrity of BBB is disrupted
• increased vascular permeability ⇒ fluid to IC space
• localized or generalized

Question 3

112. Pathology of raised intracranial pressure:

CEREBRAL EDEMA cytotoxic edema

Answer 3

• neuronal, glial, endothelial cell membrane injury ⇒ increased IC fluid
• due to generalized hypoxic/ischemic insult or exposure to toxins
• ischemia ⇒ cells can’t supply sodium pump ⇒ loss of membrane potential ⇒ inflow of water

Question 4

112. Pathology of raised intracranial pressure:

SUBFALCINE HERNIATION

Answer 4

• expansion of cerebral hemispheres displace the cingulate gyrus under the edge of falx cerebri
• associated with compression of branches of ACA ⇒ ischemia of anterior cerebrum

Question 5

112. Pathology of raised intracranial pressure:

TRANSTENTORIAL HERNIATION

Answer 5

• medial aspect of temporal lobe compressed against free margin of tentorium cerebelli
  ⇒ CN III compromised ⇒ pupillary dilation + blown pupil
• PCA compressed ⇒ ischemia to visual cortex
  + Duret hemorrhage in pons and midbrain

Question 6

112. Pathology of raised intracranial pressure:

TONSILLAR HERNIATION

Answer 6

• displacement of cerebellar tonsils through foramen magnum

⇒ life-treathening bc compromises vital respiratory and cardiac centers in medulla

Question 7

112. Pathology of raised intracranial pressure:

HYDROCEPHALUS pathophysiology

Answer 7

= increase in CSF volume within ventricular system

- occur as a consequence of impaired flow or impaired resorption of CSF, or overproduction of CSF

Question 8

112. Pathology of raised intracranial pressure:

HYDROCEPHALUS classification

Answer 8

1. Communicating
   - no blockage
   - decreased CSF resorption
   - meningitis ⇒ fibrotic tissue in arachnoid mater
   - whole ventricular system dilates
2. Non-communicating
   - obstruction of CSF flow
   - dilation of part of ventricular system
3. Hydrocephalus ex vacuo
   - atrophy of brain due to infarct or degenerative disease
   - dilation of ventricular system ⇒ increase in CSF volume

Hydrocephalus internus or externus

Question 9

112. Pathology of raised intracranial pressure:

HYDROCEPHALUS clinical features

Answer 9

Adults:
- develop after fusion of sutures ⇒ associated with expansion of ventricles + increased ICP
Children:
- develops before closure of cranial sutures ⇒ enlargement of head

Question 10

113. Congenital malformations of central nervous system:

NEURAL TUBE DEFECTS

Answer 10

• failure of neural tube to close or reopen after closure

- characterized by abnormalities involving neural tissue, meninges and overlying bone and soft tissues

Question 11

113. Congenital malformations of central nervous system:

SPINA BIFIDA OCCULTA

Answer 11

• neural tube defect
• asymptomatic bony defect
• posterior end affected

Question 12

113. Congenital malformations of central nervous system:

MENINGOCELE

Answer 12

• neural tube defect
• flattened, disorganized segment of spinal cord + overlying meningeal outpuching
• posterior end affected

Question 13

113. Congenital malformations of central nervous system:

MYELOMENINGOCELE

Answer 13

• neural tube defect
• extension of CNS tissues through defect in vertebral column ⇒ abnormal spinal cord
• mostly in lumbosacral region
• motor and sensory deficits in lower extremities and problems with bowel and bladder control

Question 14

113. Congenital malformations of central nervous system:

ANENCEPHALY

Answer 14

• neural tube defect
• malformation of the anterior end
• absence of brain and top of skull

Question 15

113. Congenital malformations of central nervous system:

ENCEPHALOCELE

Answer 15

• neural tube defect
• diverticulum of malformed CNS tissue extending through defect in cranium
• mostly occipital region and posterior fossa

Question 16

113. Congenital malformations of central nervous system:

MEGAENCEPHALY AND MICROENCEPHALY

Answer 16

• forebrain malformation
• volume of brain abnormally large or small
• occur with chromosome abnormalities, fetal alcohol syndrome and HIV-1 infection in utero
  ⇒ decreased number of neurons

Question 17

113. Congenital malformations of central nervous system:

LISSENCEPHALY AND PACHGYRIA

Answer 17

• forebrain malformation
• absence of normal gyration ⇒ smooth surface brain
• cortex thickened and 4-layered
• single gene defect

Question 18

113. Congenital malformations of central nervous system:

POLYMICROGYRIA

Answer 18

• forebrain malformation
• increased number of irregularly formed gyri ⇒ irregular bumpy or cobblestone-like surface
• changes can be local or widespread

Question 19

113. Congenital malformations of central nervous system:

HOLOPROSENCEPHALY

Answer 19

• forebrain malformation
• disruption of normal midline patterning
• mild form: absence of olfactory bulb
• severe form: brain is not divided into hemispheres or lobes ⇒ cyclopia

Question 20

113. Congenital malformations of central nervous system:

CHIARI 1 MALFORMATION

Answer 20

• posterior fossa malformation
• cerebellar tonsils extend through foramen magnum
  ⇒ obstruction of CSF flow + compression of medulla
  ⇒ headache + cranial nerve deficits

Question 21

113. Congenital malformations of central nervous system:

ARNOLD-CHIARI MALFORMATION

Answer 21

• posterior fossa malformation
• small posterior fossa + misshapen midline cerebellum with downward extension of vermis through foramen magnum
  ⇒ hydrocephalus + lumbar myelomeningocele

Question 22

113. Congenital malformations of central nervous system:

DANDY-WALKER MALFORMATION

Answer 22

• posterior fossa malformation

- enlarged posterior fossa

Question 23

113. Congenital malformations of central nervous system:

SPINAL CORD MALFORMATIONS

Answer 23

MORPHOLOGY:

• discontinuous or confluent expansion of ependyma-lined central canal (hydromyelia)
• formation of fluid-filled cleft-like cavity (syringomyelia)
• may develop secondary to alteration in CSF flow by tumor or trauma
• associated with destruction of grey and white matter + surrounded by reactive gliosis
• cervical spinal cord mostly affected

Question 24

114. Cerebrovascular diseases:

GENERAL

Answer 24

= abnormality of the brain caused by:

• thrombotic occlusion ⇒ infarct
• embolic occlusion ⇒ infarct
• vascular rupture ⇒ intracranial hemorrhage

3 causes of ischemia/hypoxia:
⇒ generalized cerebral hypoxia/ischemia
⇒ infarct
⇒ vasculitis

Question 25

114. Cerebrovascular diseases:

GLOBAL CEREBRAL ISCHEMIA etiology

Answer 25

• when generalized reduction of cerebral perfusion ⇒ systolic pressure <55mmHg
• decrease in O2 saturation/ increase in CO2 saturation

Question 26

114. Cerebrovascular diseases:

GLOBAL CEREBRAL ISCHEMIA clinical features

Answer 26

MILD:
- transient postischemic confusional state ⇒ complete recovery
- irreversible CNS changes ⇒ pyramidal cells of hippocampus, Purkinje cells, pyramidal neurons in neocortex most susceptible
SEVERE:
- widespread neuronal death ⇒ neurological impairment and comatose
- brain dead
BORDERZONE INFARCT:
- zone between major cerebral arteries suffers hypo perfusion ⇒ hemorrhagic infarct(encephalo malacia rubra)

Question 27

114. Cerebrovascular diseases:

GLOBAL CEREBRAL ISCHEMIA morphology

Answer 27

• swollen brain ⇒ wide gyri, narrow sulci
• poor demarcation between white and grey matter
• herniation
  EARLY (12-24h):
  ⇒ red neurons, eosinophilia, neuronal pyknosis and karyorrhexis, neutrophilia
  SUBACUTE (24h-2w):
  ⇒ necrosis, macrophages, vascular proliferation, reactive gliosis
  REPAIR (>2w):
  ⇒ removal of necrotic tissue

Question 28

114. Cerebrovascular diseases:

GLOBAL CEREBRAL ISCHEMIA transient ischemic attack

Answer 28

= episode of neurologic dysfunction caused by ischemia without infarction ("mini stroke")
- due to disrupted cerebral blood flow
- symptoms: paralysis, weakness
  ⇒ resolve after minutes-hours
- no morphological changes
- warning sign for infarct

Question 29

114. Cerebrovascular diseases:

FOCAL CEREBRAL ISCHEMIA classification

Answer 29

1. Ischemic infarct - white infarct
   - artery occlusion
2. Hemorrhagic infarct - red infarct
   - repercussion of ischemic infarct
   - vein obstruction
   - borderzone infarct

Question 30

114. Cerebrovascular diseases:

FOCAL CEREBRAL ISCHEMIA etiology + risk factors

Answer 30

Occlusion of cerebral artery due to:

1. Atherosclerosis ⇒ in situ thrombosis (basilar a., MCA)
2. Embolism
   
   • from bifurcation of carotids
   • from mural thrombi
   • paradoxial

RISK FACTORS:

1. hypertension
2. diabetes mellitus
3. hypertriglyceremia
4. atherosclerosis
5. atrial fibrillation
6. transient ischemic attack

Question 31

114. Cerebrovascular diseases:

VASCULITIS

Answer 31

• may involve cerebral arteries ⇒ infarct
• inflammatory disorder, involves medium-sized parenchymal and subarachnoidal vessels
• chronic inflammation + destruction of vessel wall
• symptoms: cognitive dysfunction
• treatment: steroid and immunosuppression
• infectious arteritis can be caused by toxoplasma, aspergillosis, CMV encephalitis

Question 32

114. Cerebrovascular diseases:

LACUNAR INFARCTS

Answer 32

= hypertensive cerebrovascular disease

• HT ⇒ hyaline arteriolar sclerosis of deep arterioles of basal ganglia
• walls become weaker + more vulnerable to rupture
• small localized infarcts - few mm wide, mostly in deep grey matter + internal capsule
• clinically silent or neurologic impairment

Question 33

114. Cerebrovascular diseases:

FOCAL CEREBRAL ISCHEMIA morphology

Answer 33

Non-hemorrhagic infarct;
0-6h: normal tissue
6-12h: red neurons
12-48h: tissue is pale, soft, swollen + neutrophilia
2-10d: brain is gelatinous + friable, edematous
10d-3w: tissue liquefies, macrophages
3w-months: astrocyte + cytoplasmic enlargement regresses

Question 34

115. Intracranial hemorrhage:

CAUSES

Answer 34

⇒ hypertension
⇒ vascular malformation
⇒ bleeding disorder
⇒ trauma

Question 35

115. Intracranial hemorrhage:

APOPLEXIA

Answer 35

= intracerebral hemorrhage

• cause: HT
• rupture by:
  
  • arteriolosclerosis ⇒ narrowing of lumen, fibrinoid material deposition in vessel wall
  • Charcot-Bouchard ⇒ small micro aneurysm

Question 36

115. Intracranial hemorrhage:

HEMORRHAGE FROM VASCULAR MALFORMATION

Answer 36

TYPES:

1. arteriovenous malformation
   - abnormal connection of arteries to veins
   - loss of capillaries ⇒ increased pressure ⇒ prone to rupture
   
   • seizure disorder, intracerebral hemorrhage, subarachnoid hemorrhage
2. cavernous angiomas
3. capillary telangiectasias
4. venous angiomas

Question 37

115. Intracranial hemorrhage:

PURPURA CEREBRI

Answer 37

= small bleedings in brain
CAUSES:
 - thrombopathy
 - coagulopathy
 - vasculopathy

Question 38

115. Intracranial hemorrhage:

SUB-EPENDYMAL HEMORRHAGE

Answer 38

= bleeding under ependyma

• in immature babies ⇒ vasculature not well developed ⇒ sensitive to changes in pH and PaO2
• superimposed IRDS ⇒ low PaO2 ⇒ hypoxia ⇒ hemorrhage

Question 39

115. Intracranial hemorrhage:

SUBARACHNOID HEMORRHAGE

Answer 39

= bleeding between arachnoid mater and pia mater

• cause: rupture of berry aneurysm (disorder of ECM, polycystic kidney disease cause berry aneurysm)
• symptom: sudden, excrusiating headache + rapid unconsiousness

Question 40

115. Intracranial hemorrhage:

SUBDURAL HEMORRHAGE

Answer 40

= tear in bridging veins ⇒ hemorrhage between dura mater and arachnoid mater

• cause: trauma
• can be chronic in alcoholics (fall a lot)

Question 41

115. Intracranial hemorrhage:

EPIDURAL HEMORRHAGE

Answer 41

= tear in middle meningeal artery ⇒ separation of dura from skull

• cause: fracture of skull
• can compress brain surface
• symptom: lucid for many hours, neurological signs

Question 42

116. Degenerative diseases and dementias:

DEFINITIONS

Answer 42

Degenerative disease=
- progressive cellular degeneration of neurons ⇒ deterioration of brain function
Dementia=
- memory impairment + cognitive deficits with normal level of consciousness

Question 43

116. Degenerative diseases and dementias:

ALZHEIMER DISEASE general

Answer 43

• slow loss of intellectual function + alteration of mood and behavior
  ⇒ progressive disorientation, memory loss, aphasia
  ⇒ disabled, mute, immobile
• increasing incidence with age

Question 44

116. Degenerative diseases and dementias:

ALZHEIMER DISEASE pathogenesis

Answer 44

• sporadic or familial
  FAMILIAL:
• accumulation of Beta amyloid (APP cleaved by beta-site of enzyme + gamma-seretase)
• mutations in APP ⇒ earlier onset of disease
• Down syndrome ⇒ APP located on chromosome 21
• allele of apolipoprotein E4 ⇒ increase risk + earlier onset
• SORL1 protein deficiency ⇒ late onset ⇒ alter intracellular trafficking of APP

⇒⇒ accumulations alter neurotransmission + are toxic to neurons and synapses + local inflammatory response to plaque
⇒ plaques, neurofibrillary tangles, neuronal loss

Question 45

116. Degenerative diseases and dementias:

PARKINSONS DISEASE general

Answer 45

• death of dopamine- containing cells in substansia nigra

- diagnosis: no etiology + response to L-DOPA treatment

Question 46

116. Degenerative diseases and dementias:

PARKINSON DISEASE pathogenesis

Answer 46

• sporadic or AD/AR
• AD: alpha-synuclein mutation
• Lewy body = intramural inclusion of alpha-synuclein ⇒ shows defective degradation of the protein in the proteasome

Question 47

116. Degenerative diseases and dementias:

PARKINSONS DISEASE clinical features

Answer 47

Parkinsonism=

• diminished facial expression
• stooped posture
• slowness of voluntary movement
• festinating gait
• rigidity and tremor
• progresses over 10-15 years
• develop dementia

Question 48

116. Degenerative diseases and dementias:

HUNTINGTON DISEASE general

Answer 48

• inherited AD neurodegenerative disease
• age: 40-50s
• progressive movement disorders and dementia caused by tandem repeats
• death in about 15 years

Question 49

116. Degenerative diseases and dementias:

HUNTINGTON DISEASE pathogenesis

Answer 49

• tandem repeat CAG mutation in gene 4p16.3 ⇒ Huntingtin protein
• the larger the number of repeats ⇒ the earlier onset of the disease
  
  • the mutated Huntingtin protein binds to and sequesters transcription factors ⇒ reduced synthesis of proteins
  • mutated Huntingtin protein causes functional abnormalities in mitochondria ⇒ neurodegeneration

Question 50

116. Degenerative diseases and dementias:

HUNTINGTON DISEASE clinical features

Answer 50

• Huntington chorea: involuntary jerky movement
• may develop parkinsonism
• forgetfulness + emotional disorders ⇒ dementia

Question 51

116. Degenerative diseases and dementias:

AMYOTROPHIC LATERAL SCLEROSIS general

Answer 51

• degeneration of motor neurons in ventral horn of spinal cord
• sensory systems and cognitive functions unaffected
• lateral sclerosis= degeneration of corticospinal tracts
• age: 50s

Question 52

116. Degenerative diseases and dementias:

AMYOTROPHIC LATERAL SCLEROSIS etiology

Answer 52

• familial AD or sporadic
• Mutation in gene superoxide dismutase SOD1 on chromosome 21
• missense mutations ⇒ misfiling of protein ⇒ apoptosis

Question 53

116. Degenerative diseases and dementias:

AMYOTROPHIC LATERAL SCLEROSIS clinical features

Answer 53

Loss of upper motor neurons:
  ⇒ paresis
  ⇒ hyperreflexia
  ⇒ spasticity
  ⇒ positive Babinski sign
Loss of lower motor neurons:
  ⇒ denervation of muscular targets with symptoms of muscular atrophy
  ⇒ weakness
  ⇒ fasciculation

Early symptoms:
- weakness of hands, cramping of arms and legs
Late symptoms:
- muscle mass + strength decreases, involuntary contractions

Question 54

117. Infections of the nervous system:

BRAIN INFECTIONS ROUTES

Answer 54

1. Hematogenous spread
2. Direct implantation (post-traumatic, iatrogenic)
3. Local extension
4. Peripheral nerves

Question 55

117. Infections of the nervous system:

MENINGITIS classification

Answer 55

1. Infectious meningitis
   - acute pyogenic meningitis
   - aseptic meningitis
   - chronic meningitis
2. Non-infectious meningitis
   - spread of cancer
   - drugs
   - inflammatory lesions

Question 56

117. Infections of the nervous system:

ACUTE PYOGENIC MENINGITIS

Answer 56

BACTERIA:
 - neonates: E.coli, S.agalactiae
 - adolescents: N.meningitides
 - elderly: S.pneumoniae, L.monocytogenes
SYMPTOMS:
 - headache
 - photophobia
 - irritability
 - clouding of consciousness
 - neck stiffness
- Lumbar puncture ⇒ increased pressure, neutrophilic, elevated protein, reduced glucose
- untreated ⇒ fatal

Question 57

117. Infections of the nervous system:

ASEPTIC MENINGITIS

Answer 57

VIRUS:
 - enterovirus
 - HSV-2
CLINICAL FEATURES:
 - less severe + self-limited
 - increased lymphocytes
 - protein elevation moderate
 - glucose normal
 - brain swelling

Question 58

117. Infections of the nervous system:

CHRONIC MENINGITIS

Answer 58

TUBERCULOUS MENINGITIS:
- generalized symptoms: malaise, headache, mental confusion, vomiting
- high protein, normal glucose
- tuberculoma
- leads to arachnoid fibrosis, hydrocephalus
NEUROSYPHLIS:
- tertiary stage of syphilis
- invasion of brain by T.pallidum
NEUROBORRELIOSIS:
- Borrelia burgdorferi
- symptoms: aseptic meningitis, facial nerve palsies, encephalopathy, polyneuropathies

Question 59

117. Infections of the nervous system:

ENCEPHALITIS general

Answer 59

= acute inflammation of the brain

- causative agents: bacterial, viral, fungal

Question 60

117. Infections of the nervous system:

BACTERIAL ENCEPHALITIS

Answer 60

• can spread directly to brain

- syphilis ⇒ neurosyphilis ⇒ encephalitis

Question 61

117. Infections of the nervous system:

ARBOVIRUS

Answer 61

• cause epidemic encephalitis

- generalized neurologic symptoms ⇒ seizures, confusion, delirium, stupor, coma, reflex assymetry, ocular palsies

Question 62

117. Infections of the nervous system:

HSV-1

Answer 62

• causes encephalitis
• any age group, mostly children + young adults
  Symptoms:
  ⇒ alterations in mood
  ⇒ memory
  ⇒ behavior

Question 63

117. Infections of the nervous system:

VZV

Answer 63

• chickenpox ⇒ latent in sensory ganglia ⇒ shingles

- immunosuppressed patients ⇒ encephalitis

Question 64

117. Infections of the nervous system:

CYTOMEGALOVIRUS

Answer 64

• fetuses + immunocompromised

- in-utero infection ⇒ periventricular necrosis, microcephaly

Question 65

117. Infections of the nervous system:

POLIOVIRUS

Answer 65

• enterovirus ⇒ paralytic poliomyelitis
• symptoms:
  
  • gastroenteritis
  • damages motor neurons
  • flaccid paralysis
  • death from paralysis of respiratory muscles
  • post-polio syndrome ⇒ decreased muscle bulk and pain

Question 66

117. Infections of the nervous system:

RABIES

Answer 66

• causes encephalitis
• virus enters CNS by ascending along peripheral nerves
• symptoms:
  
  • flu-like (malaise, headache, fever)
  • extraordinary CNS excitability
  • periods of alternating mania and stupor
  • coma + death

Question 67

117. Infections of the nervous system:

HUMAN IMMUNODEFICIENCY VIRUS HIV

Answer 67

• Aseptic HIV-1 meningitis
• HIV-1 meningoencephalitis
  ⇒ AIDS-dementia complex
  ⇒ chronic inflammation with microglial nodules
• Vacuolar myelopathy
  ⇒ spinal cord tracts

Question 68

117. Infections of the nervous system:

FUNGAL ENCEPHALITIS

Answer 68

1. Candida albicans ⇒ multiple microabscesses
2. Mucor ⇒ mostly in diabetics with ketoacidosis
3. Aspergillus fumigatus ⇒ widespread septic hemorrhagic infarctions
4. Cryptococcus neoformans ⇒ often associated with AIDS

Question 69

117. Infections of the nervous system:

PROTOZOAL ENCEPHALITIS

Answer 69

TOXOPLASMOSIS:

• connatal:
  
  • multifocal nectosis
  • calcification
  • hydrocephalus
• immunocompromised:
  
  • necrotizing endephalitis

Question 70

117. Infections of the nervous system:

HELMINTH ENCEPHALITIS

Answer 70

ECHINOCOCCUS:
⇒ granulosus + multilocularis
T.SOLIUM :
⇒ cysticerosis

Question 71

118. Prions:

PRION DISEASES pathogenesis

Answer 71

= misfolded abnormal forms of a normal cellular protein, PrPc
⇒ acts as infectious agent ⇒ propagates + injures cells near by
- PrPc ⇒ PrPsc ⇒ resistant to protease digestion ⇒ initiate similar transformation to other PrPc molecules
⇒ accumulation of PrPsc in neural tissue ⇒ cell injury

PrPc: alpha-helix, soluble, non-infectious
PrPsc: beta-sheat, insoluble, infectious

Question 72

118. Prions:

CREUTZFELDT-JAKOB DISEASE

Answer 72

• manifests as rapidly progressive dementia
• sporadic / familial
• peak incidence age: 70s
• symptoms:
  
  • memory and behavior changes
  • dementia
• uniformly fatal, duration 7months

Question 73

118. Prions:

VARIANT CREUTZFELDT-JAKOB DISEASE

Answer 73

• affects young adults
• symptoms:
  
  • behavior changes
  • progresses more slowly
• consequence of exposure to prion disease of cattle, bovine spongiform encephalopathy
• similar pathologic appearance than other CJDs - spongiform change + absence of inflammation

Question 74

119. Primary diseases of myelin. Acquired metabolic and toxic disturbances of the brain:
     CNS AND PNS MYELIN

Answer 74

CNS MYELIN:
 - multiple layers of oligodendrocytes
 - 1 oligodendrocyte ⇒ processes to many different axons
 - internodes + nodes of Ranvier
 - dominant in white matter
PNS MYELIN:
 - made by Schwann cells
 - each cell contract to only 1 internode
 - specialized proteins + lipids

Question 75

119. Primary diseases of myelin. Acquired metabolic and toxic disturbances of the brain:
     DEMYELINATING DISORDERS

Answer 75

• acquired diseases
• characterized by damage to previously normal myelin
• Diseases:
  
  • multiple sclerosis (immune-mediated injury)
  • progressive multifocal leukoencephalopahty (viral infection of oligodendrocytes)

Question 76

119. Primary diseases of myelin. Acquired metabolic and toxic disturbances of the brain:
     DYSMYELINATION

Answer 76

• characterized by defective structure and function of myelin sheaths
• associated with mutations affecting proteins required for formation of normal myelin or in mutation affecting synthesis/degradation of lipids
• leukodystrophies

Question 77

119. Primary diseases of myelin. Acquired metabolic and toxic disturbances of the brain:
     MULTIPLE SCLEROSIS general + etiology

Answer 77

• autoimmune inflammatory disease with demyelination
• age: 15-45 years old
• more in women 2:1
• relapsing and remitting episodes
  ETIOLOGY:
• combination of environmental + genetic factors ⇒ loss of tolerance to self proteins

Question 78

119. Primary diseases of myelin. Acquired metabolic and toxic disturbances of the brain:
     MULTIPLE SCLEROSIS clinical features

Answer 78

• pattern of relapsing-remitting disease ⇒ gradual accumulation of increasing neurologic deficits
• Visual impairment ⇒ unilateral
• Brain stem symptoms ⇒ cranial nerve signs, ataxia
• Spinal cord symptoms ⇒ motor and sensory impairment of trunk + limbs, spasticity, difficulty with bladder control
• Cognitive function

Question 79

119. Primary diseases of myelin. Acquired metabolic and toxic disturbances of the brain:
     MULTIPLE SCLEROSIS morphology

Answer 79

MACROSCOPIC:
- grayish plaques in white matter
- mostly periventricular
MICROSCOPIC:
- active: macrophages
- inactive: no macrophages
- active plaque: fragmentation of myelin, preserve axon, luxol in macrophages
- subacute plaque: myelin loss, PAS positive, astrocytosis, perivascular lymphocytic infiltrate
- inactive plaque: no inflammation, no myelin
- on periphery ⇒ iron deposits
- shadow plaque: between normal and affected are ⇒ thin myelin

Question 80

119. Primary diseases of myelin. Acquired metabolic and toxic disturbances of the brain:
     MULTIPLE SCELROSIS 4 patterns

Answer 80

1. Classic ⇒ Charcot
2. Acute ⇒ Marburg, aggressive
3. Neuromyelitic optica ⇒ Devic syndrome, affects optic nerve + spinal cord
4. Concentric sclerosis ⇒ Balo, demyelinated tissues form concentric layers

Question 81

119. Primary diseases of myelin. Acquired metabolic and toxic disturbances of the brain:
     POST INFECTIOUS DEMYELINATION

Answer 81

• not related to direct spread of infectious agent but immune response to pathogen antigen ⇒ cross react with myelin antigens
  1. Acute disseminated encephalomyelitis
  
  • symptoms after week or two after infection
  • diffuse brain involvement ⇒ headache, lethargy, coma
  • progresses rapidly ⇒ fatal
    2. Acute necrotizing hemorrhagic encephalomyelitis
  • affects young adults + children

Question 82

119. Primary diseases of myelin. Acquired metabolic and toxic disturbances of the brain:
     CENTRAL PONTINE MYELINOLYSIS

Answer 82

• nonimmune process
• loss of myelin in center of pons after rapid correction of hyponatremia
• causes: alcoholism + severe electrolyte imbalance
• symptoms:
  
  • rapidly evolving quadriplegia

Question 83

119. Primary diseases of myelin. Acquired metabolic and toxic disturbances of the brain:
     LEUKODYSTROPHIES

Answer 83

• inherited dysmyelinating diseases
• caused by abnormal myelin synthesis or turnover
• some involve lysosomal enzymes or peroxisomal enzymes
• some involve mutations in myelin proteins (AR)
  CLINICAL FEATURES:
• diffuse involvement of white matter ⇒ deterioration in motor skills, spasticity, hypotonia and ataxia

Question 84

119. Primary diseases of myelin. Acquired metabolic and toxic disturbances of the brain:
     HYPOGLYCEMIA

Answer 84

• resemble global hypoxia (mostly evident in hippocampus)

- Purkinje cells spared

Question 85

119. Primary diseases of myelin. Acquired metabolic and toxic disturbances of the brain:
     HYPERGLYCEMIA

Answer 85

• found in inadequately controlled DM + ketoacidosis or hyperosmolar coma
• symptom:
  
  • confusion
  • stupor
  • coma
• must be corrected gradually (otherwise severe central edema)

Question 86

119. Primary diseases of myelin. Acquired metabolic and toxic disturbances of the brain:
     HEPATIC ENCEPHALOPATHY

Answer 86

• decreased hepatic function ⇒ depressed level of consciousness ⇒ coma
• early: flapping tremor
• liver fails to clear ammonia ⇒ alteration of synaptic transmission + metabolic alteration in astrocytes

Question 87

119. Primary diseases of myelin. Acquired metabolic and toxic disturbances of the brain:
     NUTRITIONAL DISEASES

Answer 87

VITAMIN B12 DEFICIENCY:

• ascending + descending fibers of spinal cord
• numbness in legs ⇒ spastic weakness ⇒ paraplegia

Question 88

119. Primary diseases of myelin. Acquired metabolic and toxic disturbances of the brain:
     TOXIC DISORDERS

Answer 88

1. Metals (lead)
2. Arsenic and mercury
3. Industrial chemicals (organophosphates)
4. Methanol ⇒ blindness
5. Environmental pollutants (CO)
6. Ethanol
   ⇒ excessive intake: brain swelling + death
   ⇒ chronic: cerebellar dysfunction (trunkal ataxia, unsteady gait, nystagmus)
7. Chemotherapeutic agents
8. Ionizing radiation
   ⇒ headache, nausea, vomiting, papilledema
   ⇒ coagulative necrosis in white matter

Question 89

120. Tumors of central and peripheral nervous system:

CHARACTERISTICS OF CNS TUMORS

Answer 89

HISTOLOGY:
 - distinction between benign and malignant more subtle
PATTERN OF GROWTH:
 - of low grade lesions may still infiltrate ⇒ serious clinical defects
CLINICAL COURSE DEPENDENT ON SITE:
 - benign tumor can compress medulla
METASTATIC PROPERTIES:
 - rarely metastasize outside CNS
 - subarachnoid space provide pathway

Question 90

120. Tumors of central and peripheral nervous system:

CLASSIFICATION OF CNS TUMORS

Answer 90

1. GLIOMAS
   - astrocytoma
   - oligodendroglioma
   - ependyoma
2. NEURONAL TUMORS
   - central neurocytoma
   - ganglioglioma
   - dysembryoplastic neuroepithelial tumor
3. POORLY DIFFERENTIATED TUMORS:
   - medulloblastoma
4. MENINGIOMA
5. METASTATIC TUMORS

Question 91

120. Tumors of central and peripheral nervous system:

FIBRILLARY ASTROCYTOMA

Answer 91

• location: cerebral hemispheres
• symptoms:
  
  • seizures
  • headaches
  • focal neurologic deficits
• spectrum of histologic differentiation
• types depending on differentiation
  
  • type 1-3: diffuse astrocytoma and anaplastic astrocytoma
  • type 4: glioblastoma multiforme
• poor prognosis
• treatment: resection, radiotherapy + chemotherapy (survival of 8-10 months)

Question 92

120. Tumors of central and peripheral nervous system:

PILOCYTIC ASTROCYTOMA

Answer 92

• benign tumors
• affects children + young adults
• location: cerebellum, 3rd ventricle, optic nerve, cerebral hemispheres
• morphology: cystic appearance, bipolar cells, GFAP positive hairlike projections

Question 93

120. Tumors of central and peripheral nervous system:

OLIGODENDROGLIOMA

Answer 93

• arise from oligodendrocytes
• loss of heterozygosity for chromosomes 1p and 19q
• age: 40-50s
• symptoms: neurologic complaints, seizures
• location: cerebral hemispheres- white matter
• better prognosis
• treatment: surgery, chemotherapy, radiotherapy
• survival 5-10years

Question 94

120. Tumors of central and peripheral nervous system:

EPENDYMOMA

Answer 94

• arise next to ependyma-lined ventricular system
• location: 4th ventricle in childhood, spinal cord in adults
• CSF dissemination is common
  MORPHOLOGY:
• solid/papillary masses outputting into ventricle
• pseudo-rosettes

Question 95

120. Tumors of central and peripheral nervous system:

CENTRAL NEUROCYTOMA

Answer 95

• arise from neural tissue
• low-grade tumor
• location: within or adjacent to ventricular system
• characterized by evenly spaced, round and uniform nuclei

Question 96

120. Tumors of central and peripheral nervous system:

GANGLIOGLIOMA

Answer 96

• arise from neural tissue
• tumors with mixture of glial elements and mature-appearing neurons
• slow growing
• glial component becomes anaplastic ⇒ progress rapidly
• symptoms: seizures

Question 97

120. Tumors of central and peripheral nervous system:

DYSEMBRYOPLASTIC NEUROEPITHELIAL TUMOR

Answer 97

• low-grade tumor
• age: childhood
• slow growth + good prognosis after resection
• symptom: seizures
• location: superficial temporal lobe
• morphology: small round cells with features of neurons arranged in columns and around central cores of processes

Question 98

120. Tumors of central and peripheral nervous system:

MEDULLOBLASTOMA

Answer 98

• age: childhood
• location: cerebellum
• neuronal + glial markers, but undifferentiated
• highly malignant
• poor prognosis without treatment
• radiosensitive
• with total excision 5 years survival - 75%

Question 99

120. Tumors of central and peripheral nervous system:

MENINGIOMA

Answer 99

• benign tumor in adults
• location: attached to dura or arise from meningothelial cells of arachnoid
• may be found along any external surface of the brain+ in ventricular system ⇒ stromal arachnoid cells of choroid plexus

Question 100

120. Tumors of central and peripheral nervous system:

SCHWANNOMA

Answer 100

• benign tumors
• arise from Schwann cells
• symptoms due to compression of involved nerve or adjacent structures
• location: cranial vault, cerebellopontine angle, within dura or extradural
• easily surgically removed

Question 101

120. Tumors of central and peripheral nervous system:

NEUROFIBROMA

Answer 101

1. Cutaneous + solitary neurofibroma
   - location: skin, peripheral nerves
   - skin tumors: nodules, hyper pigmentation, grow large + pedunculated
2. Plexiform neurofibroma
   - involve major nerve trunks
   - potential for malignant transformation

Question 102

120. Tumors of central and peripheral nervous system:

MALIGNANT PERIPHERAL NERVE SHEATH TUMOR

Answer 102

• highly malignant sarcomas
• locally invasive
• multiple recurrence
• metastatic spread
• arise de novo or from transformation of plexiform neurofibroma
• can occur after radiation therapy

Question 103

120. Tumors of central and peripheral nervous system:

METASTATIC TUMORS

Answer 103

PRIMARY SITES:

• lung
• breast
• skin (melanoma)
• kidney
• GI tract
• form sharply demarcated masses, at grey-white matter junction, surrounded by edema

Question 104

120. Tumors of central and peripheral nervous system:

METASTATIC TUMORS/ PARANEOPLASTIC SYNDROMES

Answer 104

1. Subacute cerebellar degeneration ⇒ ataxia with destruction of Purkinje cells, gliosis, mild inflammatory infiltrate
2. Limbic enceohalitis ⇒ subacute dementia with perivascular inflammatory cuffs, microglial nodules, neuronal loss, gliosis
3. Subacute sensory neuropathy ⇒ altered pain sensation with loss of sensory neurons of dorsal root ganglia + inflammation