Brain Flashcards

Question 1

Q

Pott puffy tumour:

DDx?
Complications?
Treatment?

Answer

A

DDx of a hypodense expansile process exiting the sinus:
- mucocele
- infection
- lymphoma
- primary sinus neoplasm, e.g., SCC
- mucinous mets
Complications:
- Dural sinus thrombosis
- Abscess in the frontal lobes
- meningitis
- cerebritis
- subdural empyema
Tx: surgical drainage w/6 wks IV abx.
Other points:
- Presents as an abruptly forming forehead mass emanating from the frontal sinus.
- 9:1, M:F
  *

Question 2

Q

In patients over the age of 30, what is the prevalence of pineal calcification on CT scans?

Answer

A

50%

The prevalences of pineal and choroid plexus calcifications are correlated. Patients with pineal calcification are 4x as likely to have choroid plexus calcifications compared with individuals who demonstrate no pineal calcification.

Question 3

Q

What do the arrows indicate on this axial T1WI?

Answer

A

Superior cerebellar peduncles.

This image is obtained through the upper pons. The structures indicated by the arrow form the lateral borders of the upper part of the 4th ventricle and are the superior cerebellar peduncles.

Question 4

Q

Where is choroid plexus located & in what horns is it not?

Answer

A

Lateral ventricles: temporal horns, but NOT occipital.

Roof of 3rd.

Fourth.

Question 5

Q

Dx?

Unusual manifestation of these?

Answer

A

Oligodendroglioma: peripherally cortical mass w/heterogeneous enhancement & calcs.

Intraventricular location-3-8%.

Calcs in 20-90%.
Most commonly, heterog enhancement.
Most commonly peripheral, frontal lobe.
Vasogenic edema is not as common as with higher glade astros or mets.
If it has a 1p/19q deletion then it has a better outcome.

Question 6

Q

List the stages of active neurocysticercosis infection in order (earliest to latest).

Answer

A

VCGC: vesicular, colloidal, granular nodular, calcified nodular

Vesicular: the larva lodges in a capillary & forms a cyst to protect the larva (like the initial, vesicle stage of cold sores, the vesicles form first and are full of the pathogen).

This form can remain in the brain for years until there is host response and inflammation which can cause seizures.

Colloidal: this is when the scolex dies, it begins to degenerate & leak antigens, then inflammation begins, & edema surrounds the cyst. (Think “collision” with the immune system.)

Granular nodular: as the inflammatory response decreases, there is less edema, but thin rim enhancement persists, surrounding the more proteinaceous cyst.

Calcified nodular: inactive, calcified cyst, like a calcified granuloma.

Question 7

Q

In neurocysticercosis, which imaging characteristic has been postulated to be helpful for determining the death of a scolex?

Answer

A

Central dot of diffusion restriction, corresponding to the scolex.

Question 8

Q

What is the most common primary brain tumour in adults?

Answer

A

Astrocytoma/glial neoplasm.
These account for 15% of all intracranial primary neoplasms.

Question 9

Q

Dx? Surveillance MR for a known condition.

Answer

A

vHL: endolymphatic sac tumour & hemangioblastomas.

Question 10

Q

Most common primary brain tumour of the posterior fossa in adults?

Answer

A

Hemangioblastoma

70% of the time you’ll see flow voids in the periphery of the cyst.
90% are found in the cerebellum.
Associated w/polycythemia.

Question 11

Q

If I say posterior fossa cyst w/a nodule in peds you say…

Answer

A

Juvenile pilocytic astrocytoma

WHO grade 1, but the nodule will enhance (the exception to the low grade/no enhancement rule).

Question 12

Q

Dx, DDx?

Answer

A

Vestibular schwannoma: CP angle mass w/o restriction, trumpet-shaped, expanded IAC.

DDx:
- Meningioma: 15% of all IAC masses; strongly enhance as it’s extradural; will restrict as it’s highly cellular, w/dural tail & show hyperostosis; more common in women.
- Epidermoid: 5% of all; follows CSF appearance on CT/MR & restricts; peripheral enhancement, if any.
- Neurofibroma: rare as a primary intracranial lesion even in NF-1.

Question 13

Q

Most common CP angle mass?

Answer

A

Vestibular schwannoma

85% of all CP angle masses.
Most commonly involve inferior division vestibular nerve (CN VIII).
- Most schwannomas occur along sensory nerve fibers, CN8 is the most common, followed by trigeminal nerve.
<20% are associated w/NF-2.
Pts commonly present w/hearing loss, but can also have vertigo, imbalance.

Question 14

Q

Dx?

Answer

A

Ependymoma: 4th vent, heterogeneous, toothpaste-like tumour squeezing through the foramen magnum.

Originate from ependymal cells of ventricles.
70% from 4th vent & often extend into foramen of Luschka & Magendie.
Bimodal: 6yo & smaller peak at 30yo.

Question 15

Q

The most common intraventricular mass in an adult?

Answer

A

Central neurocytoma

20-40yos
Swiss cheese appearance, but calcify a lot.
Most commonly in the lateral ventricle, attached to the septum pellucidum or ventricular wall.
WHO grade II.

Question 16

Q

Dx?

Answer

A

Epidermoid cyst: follows CSF, but restricts.

DDx: arachnoid cyst.

40-50% occur in the CPA.
- Also seen in 4th vent, sellar region & less commonly intraparenchymal.
Can be hyperdense on CT due to protein content (white epidermoid).

Question 17

Q

Primary CNS lymphoma is usually of what cell type?

Answer

A

Large B-cell.
- Over 50% solitary.
- Solid, uniformly enhancing & restricting lesion.
- Like to abut the CSF surface.
  - Periventricular & CC are the most common locations, followed by BG & thalami.

Question 18

Q

Dx:? 20yo male w/Hx of drug-resistant seizures.

Answer

A

DNET: temporal lobe, bubbly/cheesy, expansile cortical lesion which does not enhance.

Question 19

Q

Dx? 20yo.

From where, exactly, is this originating?
Next step?
What to look for intracranially, and if seen, what is the association?

Answer

A

Medulloblastoma: homogeneously enhancing, restricting, projecting into 4th vent.

Roof of 4th ventricle/vermis.
Image the spine as these love to drop met: Zuckerguss.
Dural calcs = Gorlin syndrome.
- Gorlin: basal cell cancer after radiation & odontogenic cysts.

Question 20

Q

Dx: pt w/TS?

From what structure is this arising?
What helps to differentiate these from subependymal nodules, also seen w/TS?

Answer

A

SEGA (subependymal giant cell astrocytoma): homogeneously enhancing, >1cm mass.

Lateral wall of ventricle near the foramen of Munro.
SEGAs grow.

These can calcify.
Occur in 15% of TS pts.

Question 21

Q

Which segment of the facial nerve most commonly exhibits physiologic enhancement?

Answer

A

The tympanic segment.

Question 22

Q

Dx?

Answer

A

Bell’s palsy: enhancing meatal & labyrinthine segment of the L facial nerve.

Acute peripheral nerve paralysis of unknown cause.
HSV reactivation is the most commonly proposed mechanism.

Question 23

Q

What is the most commonly involved cranial nerve in CNS Lyme disease?

Answer

A

CN 7, facial. Unilateral involvement is more common.

Question 24

Q

How common is isolated neurosarcoidosis w/o systemic manifestations of it?

Question 25

Q

According to the 2010 revised McDonald diagnostic criteria for MS, how is “dissemination in space” & “dissemination in time” defined?

Answer

A

Space: more than 1 in at least 2/4 designated areas of the CNS:
- Periventricular
- Juxtacortical
- Infratentorial
- Spinal cord
Time: T2 bright lesion that does enhance (active) and a T2 bright lesion that does not enhance (inactive).
- These lesions are in different phases of the disease, therefore, are separated by time.

Question 26

Q

What is a potentially lethal complication of natalizumab Tx for MS?

Answer

A

Progressive multifocal leukoencephalopathy (PML), due to JC virus reactivation in the setting of immunosuppression.

Question 27

Q

Basal meningeal enhancement is most commonly seen with which entity?

Answer

A

TB meningitis.

Question 28

Q

Which non-infectious etiology has a predilection for basal meningeal involvement?

Answer

A

Neurosarcoidosis.

Question 29

Q

A 22yo woman presents w/acute-onset painful unilateral visual blurring & and LP was performed. What is the associated CSF abnormality?

Answer

A

Oligoclonal bands in R optic neuritis w/MS.

Question 30

Q

Which intracranial mets are known to be hemorrhagic?

Answer

A

Melanoma
RCC
Choriocarcinoma
Breast
Lung
Thyroid
HCC
Osteogenic sarcoma

Question 31

Q

What is the most common developmental malformation of the CNS?

Answer

A

Holoprosencephaly.

Question 32

Q

Which cranial feature is highly prevalent with this condition?

Answer

A

Dandy-Walker malformation is the Dx: wide opening of the 4th vent w/no vermis.

Macrocephaly: it’s the most common clinical feature, affecting >90% of infants.

Question 33

Q

Dx?

What % of pts can have sarcomatous transformation?

Answer

A

Paget’s of the skull: thickened, enlarged skull w/hetero areas of sclerosis = “cotton wool” appearance.

<10%
* FD is usually more ground glass & involves the facial bones.

Question 34

Q

Dx?

What does this classic imaging finding predictive of?
Morphologically, what is it?

Answer

A

Joubert syndrome: molar tooth sign on axial imaging; also, batwing 4th vent.

Hypotonia, ataxia, developmental delay. (Can be seen in other disorders, e.g., COACH & Dekaban-Arima syndromes.)
Absence of decussation of the superior cerebellar peduncles & hypoplastic vermis.

Question 35

Q

Dx? 25yo female w/headache & blurred vision.

Next step?
How is the clinical Dx made?

Answer

A

Pseudotumour cerebri (idiopathic intracranial hypertension): partially empty sella.

MR venogram: to look for venous sinus issues.
Lumbar puncture w/opening pressure ~25mmHg.

Bilateral transverse sinus stenosis in the outer thirds of the sinuses is present in 90% of cases.

Question 36

Q

Dx?

What’s the most common malformation associated w/this?

Answer

A

Septo-optic dysplasia: absent septum pellucidum (could also be absent corpus callosum), prominent lateral vents, small optic nerves, small visual pathways, & low position of the fornix.

Schizencephaly.

Dx is made by 2+ of the following:
- Midline brain anomalies: absent septum pellucidum or CC
- Hypoplasia of the optic nerves
- Hypothalamic-pituitary dysfunction

Question 37

Q

Venous epidural hematomas are commonly associated w/injury to what structure?

Answer

A

Dural venous sinus.

Although epidural hematomas are most commonly arterial in origin.

Question 38

Q

Dx?

Answer

A

Subdural empyema w/cerebritis: extra-axial loculated enhancing collection w/associated restricted diffusion & adjacent parenchymal edema/gyral crowding.

Question 39

Q

Dx? 63yo s/p BMT for plasmacytoma of the skull.

What is the most likely agent?

Answer

A

multiple abscesses: in an immunocompromised pt, w/enhancing cystic lesions w/restricted diffusion at the brain base = cryptococcomas.

CNS cryptococcal infection.

Fungal infection by the bug, Cryptococcus neoformans.
Commonly seen in pts w/AIDS, cancer or post-BMT.
Has 3 classic Ix patterns: meningitis, cryptococcoma (as above), or gelatinous pseudocysts.
Tx: amphotericin B or fluconazole.
20% mortality in AIDS pts despite antifungal Tx.

Question 40

Q

What is the most common location for spinal TB?

Answer

A

Spinal TB = Pott disease

L1

Question 41

Q

Dx? 40yo immunocompetent, otherwise healthy male.

What is the mechanism for developing this?

Answer

A

CADASIL (cerebral autosomal dominant arteriopathy w/subcortical infarcts & leukoencephalopathy): multifocal hyperintense FLAIR abnormality w/in the bilateral anterior frontal & anterior temporal lobe subcortical white matter.

Inherited mutation of the NOTCH3 gene.

Leads to strokes in young people who are otherwise healthy & w/o stroke RFs.
Typically presents age 30-50 w/TIA/stroke Sx or migraines w/aura.
Progressive w/cognitive decline & early death.

Question 42

Q

Dx? 8yo boy w/hearing loss, decreasing school performance & progressive gain abnormalities.

Answer

A

X-linked adrenoleukodystrophy: symmetric parieto-occipital white matter abnormality w/U-fiber sparing & w/contrast enhancement surrounding it.

Caused by a variant of the ABCD1 gene.
Alexander disease is a DDx if this is in the frontal lobes.

Question 43

Q

Dx? 6mth old w/hypotonia, poor head control, loss of milestones & macrocephaly.

Answer

A

Canavan disease: diffuse T2 hyperintense white matter, globi palladi (putamen spared) & thalami & huge NAA spike.

Kids are normal for first 1-2 mos of life then develop symptoms.

Question 44

Q

Dx?

Answer

A

Wilson disease: increased signal in midbrain w/”face of giant panda”, bilateral putamen, caudate & anterior pons.

Copper metabolism inborn error (mutation of Cu-transporting gene, ATP7B).
AR inheritance.
Cu in brain, liver, eyes (Kayser-Fleischer rings along the periphery of the cornea).

Question 45

Q

Dx? 8yo girl w/progressive dystonia & dysphagia.

Answer

A

Hallervorden-Spatz syndrome: brain iron accumulation causing T2 hypointensity in the GP w/an anteromedial hyperintensity (“eye of the tiger” sign), w/strong susceptibility effect on GRE.

The degree of Fe deposition does not correlate w/Sx.

Question 46

Q

Dx? 40yo w/complex partial seizures.

Answer

A

Mesial temporal sclerosis: L hippocampal atrophy w/loss of normal architecture, so becomes hyperintense on FLAIR.

Question 47

Q

Dx? 45yo male w/increasing musle weakness & cramps.

Where, exactly, is this abnormality?
How does death normally occur?

Answer

A

Amyotrophic lateral sclerosis: increased signal in the bilateral corticospinal tracts & precentral/motor cortex.

Corticospinal tracts, precentral/motor cortex.
Respiratory failure.

Most cases are sporadic, there is no FHx.

Question 48

Q

Re: vascular territories, what supplies:

Putamen
GP

Answer

A

Putamen = lenticulostriates (from ACA & MCA)
GP = anterior choroidal (part of tetrafurcation of ICA, MCA, PCA)

Question 49

Q

Dx: if you see this in a kid.

Answer

A

Moyamoya w/watershed infarcts.

Question 50

Q

The stroke imaging signs on CT re: timing of mass effect & enhancement.

Answer

A

Mass effect: peaks at 3-5 days.
Enhancement rule of 3s:
- Enhancement starts in 3 days
- Peaks in 3 weeks
- Gone by 3 months

Question 51

Q

Dx?

Answer

A

Artery of Percheron stroke: V-shaped bilateral infarct of the paramedian thalami.

BEWARE! Can also see this w/vein of Galen thrombus!!!!
This only occurs w/this vascular variant.
There is a solitary trunk from one of the 2 PCAs to feed both thalami (normally there are several arteries originating from the PCA).

Question 52

Q

Dx?

What is the origin of the offending artery?

Answer

A

Recurrent artery of Heubner stroke: unilateral caudate infarct.

This is a deep branch off the proximal ACA.

Question 53

Q

Dx?

Answer

A

Fetal PCOM stroke: infarcts in anterior & posterior circulation of the same hemisphere.

Fetal PCOM: PCOM is larger than the P1 segment of the PCA.

Question 54

Q

Hemorrhagic xformation of acute stroke:

In what % of strokes does this happen?
What is the peak time for hemorrhagic transformation of acute stroke?
4 RFs for hem xformation.

Answer

A

50%
24-48 hrs (really, 6hrs - 4 days).
RFs:
1. multiple strokes
2. proximal MCA occlusion
3. Greater than 1/3 MCA territory
4. Absent collaterals

Question 55

Q

DDx restricted diffusion in a brain

Answer

A

BEEAACHH:

Bacterial abscess
Epidermoid cyst, epilepsy (post-ictal state)
Acute MS lesions, Acute stroke
CJD
HSV, hypercellular tumours (lymphoma)

Question 56

Q

Restricted diffusion & stroke:

When does restriction occur, & how long does this last?
FLAIR signal change?
What should you think of you see restriction w/o bright FLAIR in a suspected stroke pt?

Answer

A

W/in 30 mins to 2 wks.
After 6 hours.
Hyperacute stroke, i.e., <6hrs.

Question 57

Q

Aneurysms:

Which kidney disease is at increased risk?
Which circulation gets them most?
Which ones are most common in the posterior circulation?
RFs for rupture.
Most common aneurysm type.
1. Who gets them?
2. Where do they appear most?
3. % of the time they’re multiple?

Answer

A

PCKD
Anterior–90%
Basilar >> PICA (basilar has higher hemodynamic stress)
FEMALE, Hx SAH, larger size, smoking, posterior location.
Berry.
1. CHICKS!
2. 90% anterior
3. 15-20%

Question 58

Q

Aneurysm rupture:

Rupture risk?
Size for Tx?

Answer

A

1% per year when >10mm
7mm

Question 59

Q

Vasospasm:

Classic timing?
Classic territories?
Relationship to blood volume?
Which score for vasospasm risk?
3 non-SAH causes of vasospasm.

Answer

A

4-14 days post-SAH.
Multiple.
The higher the blood volume, the greater the risk.
Fisher
Meningitis, PRES, migraine.

Question 60

Q

Re: vascular dissection, which types favour which major arteries?

Answer

A

Penetrating trauma = carotids.

Blunt trauma (chiropractors!) = vertebrals.

Question 61

Q

CNS vasculitis:

Which is the most common systemic vasculitis to involve the CNS?
Which is the most common connective tissue disease?

Answer

A

PAN.
Lupus/SLE

Question 62

Q

Dx?

Name 3 associations
Age of pts?
Difference in clinical sequelae per age group?
Tx?

Answer

A

Moyamoya: enlargement of the basal perforating arteries.

NF, prior radiation, Downs
Bimodal: kids & middle age
Kids = stroke; adults = bleed
ECA to MCA anastomosis surgery.

2dry to non-atherosclerotic stenosis of the supraclinoid ICA, leading to occlusion.
“puff of smoke” angiographic appearance of the enlarged perforators (see below)
watershed infarcts
Can show pial vascular congestion = “ivy sign”

Question 63

Q

Dx?

Where does the pathology start?
Which path is involved?
Which nucs study can show this?

Answer

A

Crossed cerebellar diaschisis: supratentorial insult causing a contralateral cerebellar hemisphere insult

Supratentorially!!!!
Corticopontine cerebellar pathway.
FDG-PET.

Can be caused by anything: infarct, tumour resection, radiation.

Question 64

Q

Dx? 67yo male w/chronic HTN presents w/seizures, & visual disturbances.

What is the underlying path?
What % will restrict? EXAM QUESTION!!!!
What other conditions are associated?
Tx?

Answer

A

PRES: posterior, bilateral, subcortical (U-fibers) & white matter vasogenic edema pattern sparing gray matter.

The posterior circulation cannot autoregulate in response to the acute BP change.
25%.
Pre-eclampsia, chemo (cyclosporine) use.
Treat the underlying etiology.

Can also occur 2dry to sepsis or tacrolimus.

Answer 64

A

Sjogren’s: honeycombed appearance of the parotid glands.

Dry eyes & mouth.
1000x risk for NHL (MALT type).

Autoimmune-lymphocyte induced destruction of the parotids.
*

Answer 65

A

Osmotic demyelination syndrome (central pontine myelinolysis): T2 bright central pons, sparing the periphery.

Rapid correction of hyponatremia.
Labile emotional response: slurred speech, sensitive gag reflex.

Will show early restricted diffusion in the lower pons.
This can also be seen in post-xplant pts.

Answer 66

A

Wernicke encephalopathy: high T2/FLAIR in medial thalami & periaqueductal gray matter, but also, mamillary bodies.

Acute confusion, ataxia, ophthalmoplegia.
Thiamine (vit B1) deficiency; Tx is to replace this.

Answer 67

A

Marchiafava-Bignami: swelling/T2 bright signal at the CC body.

Confusion, gait disturbance, seizure, muscle rigidity.
Acute demyelination.
Body, genu, splenium.

Answer 68

A

Methanol toxicity: hemorrhagic putamen

PUT the methanol away!!!!
Can also see optic nerve atrophy & white matter necrosis.

Answer 69

A

cerebellar vermis

Answer 70

A

CO poisoning: T2 bright globus pallidus, putamen spared; w/restricted diffusion; (CO causes globus warming!!!)

Globus pallidus: globus warming!!!!

Answer 71

A

Parotid gland, Stensen’s duct.
CN 7-facial.
Retromandibular vein: runs just medial to the facial nerve.

Answer 72

A

Parotid
Submandibular
Sublingual

Answer 73

A

perineural spread

Answer 74

A

Palatine tonsils: posterosuperior tongue
Adenoid tonsils: nasopharyngeal
Lingual tonsils: base of tongue

Answer 75

A

carotid artery
jugular vein
CN 10-vagus
internal jugular vein nodes: levels 2-4

Answer 76

A

masseter
temporalis
lateral pterygoid
medial pterygoid
- Plus the inferior alveolar nerve: branch of V3 (trigeminal mandibular)
- Mandibular ramus

Answer 77

A

alar fascia

Answer 78

A

papillary thyroid cancer

Answer 79

A

1, 2, 5.
Structures:
1. anterior belly digastric
2. jugular vein
3. posterior submandibular gland/sylohyoid muscle

Answer 80

A

Fossa of Rosenmuller

Answer 81

A

Fossa of Rosenmuller nasopharyngeal SCC.

These are some early signs.

Answer 82

A

Clivus: 30% have skull base erosion.
90%: retropharyngeal nodes are usually the first involved.

Answer 83

A

The involved side!

Answer 84

A

CN 10-vagus

recurrent laryngeal branch of the vagus nerve

Answer 85

A

mandibular sarcoma

Answer 86

A

thyroglossal duct cyst

Below the level of the hyoid bone.

Answer 87

A

Ranula: large cystic mass in the sublingual space w/signs of sialadenitis in the R sublingual gland.

Sublingual gland mucoceles.
If they extend into the submandibular space then they are plunging.

Answer 88

A

Skull table:

Paget’s: prefers inner table, so hits the otic capsule = deafness
FD: prefers outer table, so misses the otic capsule

Age:
- Paget’s: 80s
- FD: 30s, younger pt

Answer 89

A

deafness

Makes sense as it prefers the inner table, so hits the otic capsule

Answer 90

A

infundibular pattern

Disease is limited to the maxillary sinus.
Obstruction at the ostium/infundibulum.

Answer 91

A

Sinonasal polyposis: widening of the infundibulum w/bony modeling & erosion.

CF
Aspirin sensitivity

Answer 92

A

Mucocele: “expanded, airless sinus”; thinned but intact bone.

Frontal sinus.
Not centrally, but peripherally it might from the adjacent inflamed mucosa.
T1 bright as it’s mucus.

Answer 93

A

Esthesioneuroblastoma: dumbbell appearance w/growth up and into the skull & down to the sinuses; often marginal cysts in the mass.

Neural crest, olfactory cells, from cribiform plate.
Bimodal: 20s/60s
Neural crest, so octreotide.

Answer 94

A

Submandibular gland/Wharton duct.
Fatty gland atrophy.

Answer 95

A

Submandibular: Wharton; looks like an upside down W in floor of mouth.
Parotid: Stensen; lateral to mandible.
Sublingual: Rivinus.

Answer 96

A

Sublingual: above the mylohyoid line. L comes before M, so that’s how you remember that sublingual is above submandibular.

Anterior mandibular teeth.

Submandibular:

2nd, 3rd molars.

Answer 97

A

Ludwig angina:

Odontogenic infection.

Aggressive cellulitis in floor of mouth.
May be gas everywhere.

Answer 98

A

Osteonecrosis of the mandible.

Bisphosphonate use
Radiation

Answer 99

A

Floor of mouth dermoid: fat-containing.

Can have a “sack of marbles” appearance.

Answer 100

A

HPV-related SCC: large, necrotic level 2A nodes.

Answer 101

A

A: lamina papyracea: (medial orbital wall).

B: uncinate process: bony projection alongside the infundibulum.

C: cribiform plate: roof of the nasal cavity.

D: inferior turbinate: largest of the nasal turbinates.

Answer 102

A

Inferior meatus.

Answer 103

A

Acute, invasive funal sinusitis: hyperattenuating material in the L maxillary sinus w/anterior fat infiltration.

Aspergillus or Mucor in diabetics/immunocompromised pts.

Answer 104

A

CN4-trochlear; SO muscle.

Lateral rectus = CN6-abducens.
superior rectus, inferior rectus, medial recturs = CN3-oculomotor.

Answer 105

A

NF-1 & optic nerve glioma: expansion of bilateral optic nerves by gliomas.

NF-related are more indolent & occur near the globe whereas sporadic are most often at the chiasm.
70%

Answer 106

A

rhabdomyosarcoma

Extraconal.

Answer 107

A

Inferior rectus.
IMSLO
NO!

Answer 108

A

Orbital subperiosteal abscess: lenticular, rim-enhancing fluid collection under the periosteum, typically from the ethmoid sinus.

Acute bacterial rhinosinusitis from the ethmoid sinuses.
Surgical decompression + IV abx.
Cavernous sinus thrombosis, abscess, meningitis.

Answer 109

A

Tolosa-Hunt syndrome: R lateral rectus swelling & orbital fat enhancement w/enhancing soft tissue in the R cavernous sinus.

IgG4.

Answer 110

A

Orbital lymphangioma: multicystic mass in the R orbit w/fluid-fluid levels.

They don’t, unlike orbital varices.

Answer 111

A

Melanoma

Liver MR: they have a strong predilection for liver mets.

Answer 112

A

Optic nerve sheath meningioma: “tram track” thickening/calcs; circumferential enhancement around the optic nerve.

Answer 113

A

Orbital dermoid: fat/fluid level in characteristic location: superolateral.

Superolateral.
First 10 yrs.

Answer 114

A

Benign: orbital dermoid.
Malignant: rhabdomyosarcoma: favours the superior medial orbit (see below).

Answer 115

A

Chlamydia psittaci.
Upper outer.
Restricts & enhances homogeneously.

Answer 116

A

Metastatic neuroblastoma: bilateral infiltrative intra-orbital masses.

Answer 117

A

Orbital pseudotumour:

IgG4 idiopathic inflammatory condition.
Lateral rectus, as seen here.
Does NOT spare the myotendinous junctions.
T2 dark.

Answer 118

A

Lymphocytic hypophysitis: enlarged pituitary stalk.

IgG4 disease.
Rx ipilimumab, an immunotherapy Rx given to pts w/melanoma & RCC.

Looks like a pituitary adenoma but has a T2 dark rim.

Answer 119

A

Pre-septal = outside the orbital septum, so outside the cone/eyeball; post-septal is within the cone.
Sac = medial; gland = lateral.
Paranasal sinusitis.

Answer 120

A

Dacryocystitis: inflammation & dilation of the lacrimal sac (not duct–recall, the duct is lateral, the sac is medial).

Obstruction then staph/strep infection.

Answer 121

A

Optic neuritis: enhancement, but not enlargement, of the optic nerve.

If the nerve is also enlarged then think ON glioma, then think NF1.

Answer 122

A

Coloboma: focal discontinuity of the globe.

Failure of the choroidal fissure to close.
CHARGE syndrome.

Answer 123

A

A: PCA: the basilar artery bifurcates into these.

B: SCA: the more superior of the 2 basilar artery branches.

C: basilar

D: AICA: the more inferior of the 2 basilar artery branches.

E: PICA: this is the last branch of the vertebral a.

F: vertebral a:

Answer 124

A

Nasal mucosa

This leads to recurrent epistaxis.

Answer 125

A

Cortical venous reflux.
Mostly post-traumatic.
Sigmoid & transverse.

Answer 126

A

Zygomaticomaxillary complex # (tripod #).

Zygoma, inferior orbit, lateral orbig.

Answer 127

A

Labyrinthitis: cochlea & semicircular canal enhancement on post-con T1 images.

Answer 128

A

Superior semicircular canal dehiscence: absent osseous roof.

Noise-induced vertigo (aka Tullio’s phenomenon).

Answer 129

A

Large vestibular aqueduct syndrome: >1.5mm enlargement.

Progressive sensorineural hearing loss–they are NOT born deaf.
Failure of the endolymphatic sac to resorb endolymph, leading to dilation.
BILATERAL, like the pic.
The normal VA is never larger than the adjacent posterior semicircular cana.
100% w/cochlear deformity–absence of bony modiolus in 90%.

Answer 130

A

Large vestibular aqueduct syndrome.

Answer 131

A

Michel deformity/aplasia: complete absence of the cochlea, vestibule & VA.

Thalidomide.
Look for the missing vestibular aqueduct. It will be present in LO.

Answer 132

A

Endolymphatic sac tumour: crumbled up/missing vestibular aqueduct w/amorphous internal calcs.

vHL
T2 bright w/intense enhancement (see below).

Hypervascular w/flow voids & tumour blush on angio.

Answer 133

A

Most medial point of the petrous ridge–between the pontine cistern & cavernous sinus.

This is where CN6-abducens runs.

Answer 134

A

Petrous apicitis: enhancement of the petrous apex; erosion on CT.

Gradenigo.
1. Otomastoiditis, LR palsy, face pain (trigeminal neuropathy).
Dorello’s canal runs through the petrous apex, where CN6-abducens, runs.
Infectious otomastoiditis.

Answer 135

A

A: pterygopalatine fossa.

B: foramen ovale.

C: foramen spinosum.

D: carotid canal.

Answer 136

A

A: optic canal.

B: SOF

C: foramen rotundum: comes out at you like a gun; transmits the V2 (maxillary); “R2V2”.

D: vidian canal

Oculomotor (CN3), trochlear (CN4), ophthalmic (V1) & abducens (CN6) nerves, & superior/inferior orbital veins.

Answer 137

A

McCune Albright.

Ethmoid & sphenoid.
Precocious puberty, endocrine dysfunction, abnormal pigmentation (cafe au lait spots).

Answer 138

A

Malignant/necrotizing otitis externa: more aggressive version of OE w/swolled EAC soft tissues, w/abscesses & adjacent bony destruction.

Pseudomonas.
95%.

Answer 139

A

A: superior semicircular canal.

B: lateral SCC.

C: tympanic segment of facial nerve canal.

D: vestibule.

Answer 140

A

A: CN7-facial

B: CN8-VC, superior vestibular

C: CN8-VC inferior vestibular

D: CN8-VC, cochlear

Answer 141

A

Mondini malformation (aka incomplete partition 2): modiolus deficiency w/only 1.5 turns of the cochlea & a cystic cavity instead of the middle & apical turns; additionally, an enlarged vestibular aqueduct.