09b: Neuro 2

Question 1

How long after ischemic stroke can liquefactive necrosis be seen macroscopically?

Answer 1

1-2 weeks

Question 2

Stroke affecting MCA: odds are, it’s what type of stroke?

Answer 2

Thombotic (ischemic)

Question 3

Stroke affecting multiple vascular territories: odds are, it’s what type of stroke?

Answer 3

Embolic (ischemic)

Question 4

Stroke resulting in wedge-shape area of necrosis: odds are, it’s what type of stroke?

Answer 4

Hypoxic (hypoperfusion, hypoxemia)

Question 5

T/F: All ischemic strokes treated with tPA

Answer 5

True (if no risk of hemorrhage)

Question 6

Most common cause of recurrent lobar hemorrhage (esp in older patients)

Answer 6

Amyloid angiopathy (beta amyloid deposits in small/med arteries, weakens walls, and ruptured vessels)

Question 7

Intraparenchymal hemorrhage most often occurs in (X) brain regions

Answer 7

X = basal ganglia and internal capsule (Charcot-Bouchard microaneurysm of lenticulostriate vessels)

Question 8

Wernicke’s aphasia usually associated with which visual field defect?

Answer 8

Contralateral (usually R since dominant hemisphere is L) superior quadrant defect (due to temporal lobe involvement)

Question 9

Contralateral paralysis and sensory loss of both face and body in the absence of cortical signs. Stroke in (X) artery

Answer 9

X = lenticulostriate

Question 10

Medial medullary syndrome: infarct of (X) arteries

Answer 10

X = Paramedian branches of anterior spinal artery/vertebral arteries

Question 11

Contralateral paralysis of upper and lower limbs, along with tongue deviation. Stroke in (X) artery

Answer 11

X = anterior spinal (affecting lateral corticospinal tract and caudal medulla)

Question 12

Dysphagia/hoarseness and an absent gag reflex. Stroke in (X) artery

Answer 12

X = PICA

Note: Nucleus ambiguus defects are specific to PICA lesions

Question 13

Wallenberg syndrome, stroke in (X) artery. Which sensory defects?

Answer 13

Aka Lateral medullary syndrome
X = PICA

Decreased pain/T from contralateral body, ipsilateral face (also seen in AICA stroke)

Question 14

Lateral pontine syndorme: stroke in (X) artery

Answer 14

X = AICA

Question 15

Facial nucleus is compromised if stroke occurs in (X) artery.

Answer 15

X = AICA (lateral pontine syndrome)

Note: Facial nucleus defects are specific to AICA lesions

Question 16

“Locked in” syndrome due to stroke in (X) artery and consciousness preserved due to sparing of (Y)

Answer 16

X = basilar
Y = Reticular activating system

Question 17

List the aphasia in which repetition is impaired

Answer 17

1. Wernicke’s
2. Broca’s
3. Conduction
4. Global

Question 18

Conduction aphasia: damage to…

Answer 18

Arcuate fasciculus (connecting broca and wernicke’s)

Question 19

List the aphasia in which repetition is intact

Answer 19

1. Transcortical motor (area around Broca)
2. Transcortical sensory (area around Wernicke’s)
3. Transcortical mixed (watershed areas around Broca, wernicke’s, arcuate fasciculus)

Question 20

Complex versus simple partial seizures

Answer 20

Whether or not consciousness is affected

Question 21

Generalized versus partial seizures

Answer 21

One (partial) versus both (generalized) cerebral hemisphere(s) involved

Question 22

Slow, snake-like writhing movements, especially of fingers/hands

Answer 22

Athetosis

Question 23

Sustained, involuntary contraction of muscles (ex: writer’s cramp, blepharospasm, torticollis)

Answer 23

Dystonia

Question 24

Patient with acute MI receives (X) treatment for the bradycardia and then suddenly develops severe unilateral eye pain. What’s is the cause?

Answer 24

X = atropine (blocks vagal influence on SA/AV nodes, so useful in bradycardia treatment)

Glaucoma (atropine causes mydriasis and decreased outflow of aqueous humor through anterior chamber angle)

Question 25

What’s hydrocephalus ex-vacuo?

Answer 25

Appearance of high CSF (increased ventricle size) that is actually due to decreased brain tissue/neuronal atrophy (ex: HIV, AD, Pick)

ICP IS NORMAL!

Question 26

Immunoreactivity of CNS tumor for synaptophysin indicates (X) cell origin

Answer 26

X = neuronal

Question 27

Almost all volatile (ex: fluorinated) anesthetics (increase/decrease) cerebral blood flow and (increase/decrease) flow to other organs

Answer 27

Increase; decrease

Question 28

Huntington’s is a (GOF/LOF) mutation on chromosome 4 that causes which pathological interaction with proteins?

Answer 28

GOF

TF causes transcriptional suppression/silencing via histone deacetylation (silences genes for neuronal survival)

Question 29

Rapidly progressive dementia with myoclonus. EEG shows periodic sharp waves and high 14-3-3 protein in CSF

Answer 29

Creutzfeldt-Jakob disease

Question 30

Early personality/behavior changes (apathy, socially inappropriate behavior). Biopsy shows inclusions of hyperphosphorylated tau aka round (X) bodies. Diagnosis?

Answer 30

Frontotemporal dementia (Pick disease)

X = Pick

Question 31

Patients receiving GH preparation, implantable electrode, or corneal transplant at risk for which neuro disease?

Answer 31

Creutzfeldt-Jakob

Question 32

Pseudotumor cerebri, aka (X), risk factors

Answer 32

X = idiopathic intracranial HT

F, obesity, vitamin A excess, tetracycline

Question 33

Idiopathic intracranial HT typically presents with which eye findings?

Answer 33

1. Papilledema
2. Diplopia (CN VI palsy)

Vision changes transient when bending forward/lifting objects (valsalva) due to CSF compression of optic n (impaired axoplasmic flow)

Question 34

Normal pressure hydrocephalus Sx

Answer 34

Triad of: urinary (urge) incontinence, ataxia, cognitive dysfunction

“Wet, wobbly, and wacky”

Question 35

MS patients experience exacerbation of symptoms with (increased/decreased) body T

Answer 35

Increased (exercise, hot bath) due to decreased axonal transmission with heat

Question 36

28 yo female presenting with hemiparesis and bladder dysfunction. Reports sensation like “electric shock” running down spine when she looks down. Diagnosis?

Answer 36

Multiple sclerosis (with Lhermitte phenomenon)

Question 37

CSF: oligoclonal bands diagnostic for..

Answer 37

Multiple sclerosis

Question 38

Guillain-Barré: (symmetric/asymmetric), (ascending/descending) (sensory/muscle) dysfunction.

Answer 38

Symmetric; ascending

Muscle (weakness/paralysis; depressed reflexes)

Question 39

Lysosomal storage disease with globoid cells on histology

Answer 39

Krabbe

Question 40

Lysosomal storage disease due to arylsulfatase A deficiency

Answer 40

Metachromatic leukodystrophy

Question 41

X-linked disorder disrupting metabolism of VLCFAs and leading to their buildup in multiple systems (eventual coma/death)

Answer 41

Adrenoleukodystrophy

Question 42

Sturge-Weber is inherited in (X) fashion. Which gene is affected?

Answer 42

Not inherited (sporadic; somatic mosaicism)

GNAQ (activating mutation)

Question 43

Unilateral leptomeningeal angioma, seizures, intellectual disability, glaucoma in child

Answer 43

Sturge-Weber

Question 44

Child with unilateral port-wine stain in CN V1/V2 distribution

Answer 44

Sturge-Weber

Question 45

List the characteristic findings seen in Tuberous sclerosis

Answer 45

“HAMARTOMAS”

1. Hamartoma (skin/CNS)
2. Angiofibroma (skin)
3. Mitral valve regurg
4. Ash leaf spot
5. Rhabdomyoma (cardiac)
6. (Tuberous Sclerosis)
7. autosomal dOminant
8. Mental retardation
9. Angiomyolipoma (renal)
10. Shagreen patches, Seizures

Question 46

Tuberous sclerosis patient has subependymal brain tumor, most likely to be:

Answer 46

Giant cell astrocytoma

Question 47

Child with epilepsy, mental retardation and tram-track calcifications on brain imaging

Answer 47

Sturge-weber

Question 48

NF1 codes for (X), which normally has what function?

Answer 48

X = neurofibromin

Negative Ras regulator

Question 49

Patient with Café-au-lait spots and Lisch nodules

Answer 49

NF1

Lisch nodules are pigmented hamartomas in iris

Question 50

Optic glioma is seen most often in which neurocutaneous disorder?

Answer 50

NF1

Question 51

Patient with juvenile cataracts and at risk for meningiomas and ependymomas

Answer 51

NF2

Question 52

Hemangioblastomas in retina, brain stem, cerebellum, and spinal cord. Which disorder?

Answer 52

VHL

Question 53

Cavernous hemangiomas in skin/organs and multiple cysts (especially kidney, pancreas). Which disorder?

Answer 53

VHL

Question 54

Adult brain tumor with “fired egg” cells on histology

Answer 54

Oligodendroglioma

Question 55

Adult brain tumor arising in area of dural reflection and “dural tail/attachment” on imaging

Answer 55

Meningioma

Question 56

Patient with VHL presents with headache and hematocrit of 55%. Diagnosis?

Answer 56

Hemangioblastoma (producing EPO; secondary polycythemia)

Question 57

Adult brain tumor commonly at cerebellopontine angle

Answer 57

Schwannoma

Question 58

Child brain tumor that’s GFAP-positive with Rosenthal fibers

Answer 58

Pilocytic (grade 1) astrocytoma

Question 59

Brain tumor similar to germ cell tumors (seminomas)

Answer 59

Pinealoma (can produce beta-hCG)

Question 60

Brain tumor with “motor oil”-like fluid

Answer 60

Craniopharyngioma (cholesterol crystals in brown/yellow, viscous fluid)

Question 61

“Floppy baby” with marked hypotonia and tongue fasciculations due to congenital degeneration of anterior SC horns

Answer 61

Werdnig-Hoffmann disease (AR inheritance)

Question 62

At which SC level is the anterior spinal artery watershed area?

Answer 62

Mid-thoracic (artery of Adamkiewicz supplies ASA below T8)

Question 63

Patient with complete occlusion of anterior spinal artery will present with (UMN/LMN) deficit (above/at/below) level of lesion. Any sensory deficits?

Answer 63

UMN deficit below lesion; LMN deficit at level of lesion

Loss of pain/T below lesion (spinothalamic tract)

Question 64

Patient with Brown-Séquard syndrome above (X) SC level may present with (ipsi/contra)-lateral Horner’s

Answer 64

X = T1

Ipsilateral (damage of oculosympathetic pathway)

Question 65

(X) inherited disease closely mimics vitamin E deficiency

Answer 65

X = Friedreich’s ataxia

Question 66

T/F: Romberg and tandem walking is normal in peripheral vertigo

Answer 66

True

Question 67

Far-sightedness aka (X) treated with (concave/convex) lens

Answer 67

X = hyperopia (eye too short)

Convex (converging)

Question 68

Near-sightedness aka (X) treated with (concave/convex) lens

Answer 68

X = myopia (eye too long)
Concave (diverging)

“My-O my I want to dive into that cave”

Question 69

Presbyopia is the result of:

Answer 69

Decreased lens elasticity and strength of ciliary muscle (impaired accommodation)
Age-related

Question 70

Diabetic with glaucoma likely has (open/closed)-angle, secondary to (X)

Answer 70

Closed;
X = hypoxia inducing vasoproliferation in iris (contracts angle between iris and cornea, impeding flow through trabecular meshwork)

Question 71

Patient presents with sudden vision loss and reports halos around lights. Eye is very painful, red. Dx?

Answer 71

Acute close-angle glaucoma (emergency!) due to high IOP

Question 72

T/F: Closed-angle glaucoma is more common in US

Answer 72

False; open-angle glaucoma more common

Question 73

55 yo F presents with rapid loss of vision. Macula sows gray discoloration with areas of adjacent hemorrhages. Dx? Rx?

Answer 73

Wet (exudative) age-related macular degeneration (bleeding secondary to choroidal neovascularization)

Rx: Smoking cessation (if smoker) and anti-VEGF injections (ranibizumab)

Question 74

Age-related macular degeneration is typically of the (dry/wet) variant and patients can be advised to prevent these changes by (X)

Answer 74

Dry (over 80%) - gradual decrease in vision due to yellow ECM deposition

X = taking multivitamins and antioxidants

Question 75

Patient presents with acute, painless vision loss in R eye. Retina appears cloudy with cherry-red spot at fovea. Dx?

Answer 75

Central retinal artery occlusion

Question 76

Inherited retinal degeneration (painless, progressive vision loss), typically beginning with (X) symptom. What would you see on eye exam?

Answer 76

Retinitis pigmentosa
X = night blindness

Bone spicule-shaped deposits around macula

Question 77

Pupillary reflex: CN II carries signal to (X) which activates (Y)

Answer 77

X = pre-tectal nuclei
Y = bilateral Edinger-Westphal nuclei (both pupils constrict)

Question 78

Temporal aneurysm compressing L lateral retinal fibers (prior to lateral geniculate nucleus synapse). What would the patient see (visual defect)

Answer 78

L eye only, loss of nasal vision (due to compromised L temporal retinal fibers)

Question 79

Pupillary dilator muscles controlled by (X). Where does the primary neuron originate from?

Answer 79

X = sympathetics

Hypothalamus (travels down SC to synapse in lateral horn of T1)

Question 80

Pupillary dilator muscles: where does the secondary neuron originate from?

Answer 80

Lateral horn at level of T1 (travels to superior cervical ganglion, upward along sympathetic chain, to level of C2)

Question 81

Pupillary dilator muscles: where does the tertiary neuron originate from?

Answer 81

Superior cervical ganglion (travels along internal carotid and enters orbit as long ciliary nerve)

Question 82

(Motor/parasympathetic) output of CN III is most affected by vascular disease

Answer 82

Motor (more interior fibers)

Parasympathetics (peripheral fibers) first to be affected by compression

Question 83

PCA infarct: which visual defect?

Answer 83

L hemianopia with macular sparing (macular fibers transmit to separate area of visual cortex)

Question 84

Potency of anesthetic depends on its (X) solubility and onset of action depends on (Y) solubility

Answer 84

X = lipid (high lipid solubility, high potency/low MAC and short duration of action due to quick redistribution)
Y = blood (low blood solubility, fast onset of action; like NO)

Question 85

Local anesthetics (lidocaine, procaine, etc.) work by which MOA?

Answer 85

Block Na channels (bind specific receptors on inner portion of channel)

Question 86

Local anesthetics: (charged/uncharged) form binds Na channel receptor

Answer 86

Charged

uncharged form crosses membrane

Question 87

Infected tissue will (increase/decrease) amount of local anesthetic necessary for effect

Answer 87

Increase

Infected tissue is acidic, so environment facilitates ionization of anesthetic (less effective in crossing membrane to bind channel)

Question 88

Lidocaine injected for dental procedure. What is the order in which sensations are lost in the area of injection?

Answer 88

1. Pain
2. T
3. Touch
4. Pressure

(small fibers affected before large; myelinated before unmyelinated)