Chapter 22

Question 1

what happens to the soma when there is reversible neuronal damage? irreversible?

Answer 1

reversible: somal swelling
irreversible: somal shrinkage

Question 2

what happens to the Nissl body when there is reversible neuronal damage? irreversible?

Answer 2

reversible: Nissl body displacement
irreversible: loss of Nissl body

Question 3

red neuron

Answer 3

dead neuron
shrunken soma, cerebral edema, loss of nucleolus & Nissl body
occurs bc of acute-hypoxic/ischemic injury

Question 4

what happens when Astrocytes are injured

Answer 4

hypertrophy & hyperplasia

enlarged nucleus, eosinophilic

Question 5

what happens when oligodendrocytes are injured

Answer 5

white matter damage = nuclear swelling
happens in acquired demyelinating disorders & leukodystrophies
enlarged nucleus

Question 6

what happens when microglia are injured

Answer 6

proliferate & enlarge

Question 7

what happens when ependymal cells are injured

Answer 7

ependymal granulations–> infections (CMV)

may involve chorioid plexus bc ependymal cells line ventricles & spinal cord

Question 8

when do intracellular inclusions occur?

Answer 8

viral infections (rabies = Negri body, CMV = owl's eyes)
parkinson disease = Lewy body
Alzheimers disease = neurofibrillary tangles & beta-amyloid plaques; tau proteins

Question 9

cerebral edema (general types)

Answer 9

vasogenic- BBB disruption, extracellular edema

cytotoxic- glial membrane injury, intracellular edema

Question 10

hydrocephalus

Answer 10

• MC because of disturbed flow/resorption
• 2 years = ↑ ICP, ventricular enlargement
• Hydrocephalus ex vacuo : compensatory: infarct, neurodegeneration
• congenital
• 50% idiopathic
ventriculoatrial shunt
Untreated: lethal tonsillar herniation, respiratory arrest

Question 11

Brain herniation (general)

Answer 11

• ↑ ICP
• Initially: vessel compression & CSF displacement
• Later: cerebrum shifts (herniation)
o ↓ blood supply = infarction; injury = swelling  Dangerous positive feedback loop!

Question 12

Brain herniation types

Answer 12

1. subfalcine/cingulate (MC)– abnormal posturing, coma
2. transtentorial/uncinated-CN III (blown pupil); hemiparesis & brainstem compression  Duret hemorrhage (flame-shaped hemorrhage)
3. Tonsillar–cardiorespiratory arrest

Question 13

Arnold-Chiari malformations

Answer 13

herniation of cerebellar tonsils
Type I (MC)–adults
Type II–infants, more severe, misshapen midline cerebellum

Question 14

cerebrovascular disease

Answer 14

3rd leading cause of mortality in US
MC cause of neurologic morbidity
Stroke = infarction
TIA = No infarction, temporary

Question 15

ischemia cell response

Answer 15

neutrophils (12-48 hrs) –>nuclear fragmentation (48 hrs-2 weeks) –>Macrophages & gliosis (months to years, cavitation)

Question 16

respirator brain

Answer 16

autolysis of neurons caused by mechanical ventilation

Question 17

Focal cerebral ischemia

Answer 17

arterial occlusion = localized ischemia
sustained = infarction
collateral flow limit injury = circle of willis (deep tissues have limited collateral flow)
Emboli (MC): cardiac mural thrombi

Question 18

MC cause of vessel wall injury

Answer 18

HTN

Question 19

primary brain parenchymal hemorrhage

Answer 19

spontaneous

HTN (MC)

Question 20

“worst HA i’ve ever had”

Answer 20

subarachnoid hemorrhage
ruptured saccular/berry aneurysm
MC in anterior circulation & branch points

Question 21

Arteriovenous malformation

Answer 21

• Tangle of arteries & veins
• MC cerebrovascular malformations
• Males
• Age 10-30

Question 22

Hypertensive cerebrovascular disease

Answer 22

1. Massive parenchymal hemorrhage
2. Lacunar infarct: single artery occlusion; silent  devastating
3. Slit hemorrhage: ruptured small cerebral vessel, ‘slit-like cavity’ remains
4. Acute hypertensive encephalopathy: global cerebral dysfxn; HA, confusion, vomiting, convulsions, coma

Question 23

polyarteritis nodosa

Answer 23

• Systemic autoimmune vasculitis
• Fibrinoid necrosis
• Small cerebral arteries & heart

Question 24

1⁰ angiitis of the CNS

Answer 24

• Chronic inflammation
• Multiple parenchymal & subarachnoid vessels
• Only Brain & Spinal cord
• Idiopathic, Males

Question 25

general CNS trauma

Answer 25

MALES
• Silent=frontal
• disabling=cord
• fatal=brainstem
• Damage to parenchyma &/or cerebral vessels
• Assess: ABCD (airway, breathing, circulation, disability)

Question 26

Contusion

Answer 26

• Rapid displacement
• Impact site = coup injury
• Opposite impact site = contrecoup injury
• Gyri susceptible, frontal & temporal lobes

Question 27

Laceration

Answer 27

• Tearing of cerebral parenchyma

Question 28

Diffuse axonal injury (DAI)

Answer 28

SERIOUS
angular acceleration, shaking
• may NOT involve physical impact
• causes diffuse WHITE matter/axonal damage
• MC near lateral ventricles & brain stem
severe edema
• Cause of 50% post-traumatic comas

Question 29

concussion

Answer 29

reversible
absence of contusion
secondary to trauma
• Standard neuroimaging studies are NORMAL!! =CT CANNOT confirm presence of concussion!

Question 30

what does a concussion look like on a CT?

Answer 30

IT LOOKS LIKE NOTHING

Question 31

**bonus: What does osteoporosis look like on x-ray?

Answer 31

IT LOOKS LIKE NOTHING; unless 30-40% already gone

Question 32

Epidural hematoma

Answer 32

ARTERY
lucid during bleed
emergency
MC middle meningeal artery

Question 33

subdural hematoma

Answer 33

VEINS
shaken baby
infants & geriatrics
MC self limited

Question 34

MC CNS malformation

Answer 34

Neural tube defects

Question 35

spina bifida occulta

Answer 35

Neural tube defect
bony defect
asymptomatic

Question 36

myelomeningocele

Answer 36

Neural tube defect
extension of CNS thru lumbosacral vertebral defect
urinary incontinence

Question 37

anencephaly

Answer 37

Neural tube defect

absence of brain

Question 38

encephalocele

Answer 38

Neural tube defect

CNS diverticulum thru cranium

Question 39

hydromyelia

Answer 39

spinal cord abnormality
cavity
connected to 4th ventricle

Question 40

syringomyelia

Answer 40

spinal cord abnormality
syrinx
cyst w/in cord
adults

Question 41

1. Intraparenchymal hemorrhage

Answer 41

prematurity,
near ventricles,
may cause hydrocephalus

Question 42

Infarct (perinatal brain injury)

Answer 42

supratentorial white matter,
chalky plaques,
possible cyst

Question 43

cerebral palsy

Answer 43

perinatal brain injury
NON-progressive
motor neuron defect

Question 44

how are infections of NS acquired MC?

Answer 44

hematogenous

Question 45

epidural abscess

Answer 45

‘makes the cavity’

cord compression = emergency

Question 46

subdural empyema

Answer 46

‘fills an already made cavity with pus’

infxn of skull/sinus = subdural space = emergency

Question 47

meningitis types (list)

Answer 47

acute pyogenic
aseptic
chronic: insidious onset

Question 48

acute meningitis

Answer 48

HA, nuchal rigidity, photophobia
CSF: ↑pressure, ↑neutrophils, ↑proteins (exudate), ↓ glucose, bacterial culture
fatal if untreated

Question 49

aseptic meningitis

Answer 49

• nuchal rigidity, pyrexia, ↓ consciousness, cerebral edema –> self-limiting,
CSF: ↑ lymphocytes

Question 50

Chronic: insidious onset meningitis

Answer 50

tuberculous: CSF = moderate ↑ WBC’s & ↑ proteins
Spirochetal: 3⁰ syphilis or Lyme disease

Question 51

Parenchymal infections

Answer 51

1. bacterial abscess: localized, liquefactive necrosis
2. viral encephalitis: diffuse, assoc w meningitis, poliovirus, varicella-zoster virus
3. fungal: mixed granulomas, meningitis, MC among immunosuppressed

Question 52

Multiple Sclerosis

Answer 52

• MC disorder of myelin
• Episodic, ‘relapsing-remitting’, incomplete recovery
• White matter lesions (plaques)
• Risks: young adults, females, family history

Question 53

Thiamine disorders

Answer 53

• Wernicke-Korsakoff syndrome

* Beriberi: LE paralysis, paresthesia, nystagmus, pain

Question 54

Cobalamin disorder

Answer 54

demyelination

Question 55

hypoglycemia

Answer 55

mimics global hypoxia; hippocampus

Question 56

hyperglycemia

Answer 56

uncrontrolled DM

Question 57

patterns of neuronal loss (dementia)

Answer 57

o Cortex = memory, language, insight/planning
o Cerebellum = ataxia
o Motor neurons = weakness

Question 58

alzheimer disease

Answer 58

•	MC cause of dementia in elderly
•	Brain: β-amyloid plaques
o	Neurotoxic, Tau proteins
insidious/progressive
lethal infection: pneumonia
•	10% genetic  down syndrome, early onset

Question 59

Parkinson Disease

Answer 59

• Parkinsonism tremor,
• Damage to dopaminergic neurons  altered CNS synaptic transmission, Substantia nigra,
• Lewy bodies–> neuronal inclusions: α-synuclein
• Avg onset: 45-65 years
• Progressive
• Tx: L-DOPA; does not slow progression just treats symptoms, becomes less effective

Question 60

Huntington Disease

Answer 60

• Autosomal dominant
• Severe cerebral atrophy  caudate & putamen nuclei, severity depends on degree of neuronal loss; intranuclear inclusions = Huntingtin protein
• 1⁰ feature: chorea, entire body ↓ cognition: memory loss = severe dementia
• Delayed age of onset: 30-40 years
• MC lethal w/in 15 years

Question 61

Amyotrophic Lateral Sclerosis (ALS)

Answer 61

BOTH UMN & LMN death!!
• Preserves sensation & **extraocular motor fxn
• MC males
• Insidious: asymmetric distal extremity weakness
• RAPID progression
fasciculations: involuntary muscle contraction
• Eventual respiratory paralysis: Death  respiratory infxn (pneumonia)
• 10% familial;

Question 62

CNS tumors general info

Answer 62

• Spinal more common than cranial
• Most are 1⁰  no premalignant stages, non-resectable = bad
• Rarely mets outside CNS

Question 63

types of gliomas

Answer 63

astrocytoma (diffuse & pilocytic), oligodendroglioma, ependymoma

Question 64

diffuse astrocytoma

Answer 64

Malignant
•	80% of adult gliomas
•	Cerebral
•	Poorly circumscribed
o	Glioblastoma = worst
BAD prognosis

Question 65

pilocytic astrocytoma

Answer 65

benign
• Cerebellar, spinal cord
• Well circumscribed
kids/young adults

Question 66

Oligodendroglioma

Answer 66

benign or malignant
cerebral: frontal & temporal
adults

Question 67

Ependymoma

Answer 67

• Periventricular region: kids
• Spinal canal: adults
o NF2

Question 68

medulloblastoma

Answer 68

malignant, KIDS
MC embryonal malignancy
20% pediatric brain tumors
•	Only CEREBELLAR
•	Tx: excision
•	Similar to PNETS, just in CNS

Question 69

primary CNS lymphoma

Answer 69

• Aggressive, extranodal lymphoma
• MC CNS tumor in immunosuppressed pts
• Spread via ventricles
Any age But risk ↑ with age (>60)

Question 70

meningioma

Answer 70

•	MC benign tumor of adults (FEMALES) 
•	Invasive
•	Transformed arachnoid cells
•	Risks: history of irradiation, NF2
•	Easily excised 
Female
Adults

Question 71

CNS metastasis

Answer 71

• 25% of intracranial tumors
• Mets from: lung, breast, melanoma,
• Syncytial (whorled) cell clusters