Pathology

Question 0

Describe Viral Meningitis (Symptoms, Cells, Glucose, and Protein)

Answer 0

Symptoms: Less acute than bacterial, less severe symptoms
Cells: Lymphocyte predominant
Glucose: Decreased
Protein: Slightly elevated

Question 1

Describe Bacterial Meningitis (Symptoms, Cells, Glucose, and Protein)

Answer 1

Symptoms: High fever, HA, nuchal rigidity, Kernig and Brudzinski signs
Cells: PMN predominant
Glucose: Decreased
Protein: Increased

Question 2

Describe Fungal Meningitis (Symptoms, Cells, Glucose, and Protein)

Answer 2

Symptoms: Seen in Immunocompromised patients
Cells: Lymphocyte predominant
Glucose: Normal
Protein: slightly elevated

Question 3

What is Kernig’s Sign?

Answer 3

Pain elicited while straightening knee with hip flexed at 90degrees

Question 4

What is Brudzinski’s Sign?

Answer 4

Patient flexes knees in response to passive flexion of neck.

Question 5

List layers that needle of lumbar puncture goes through

Answer 5

Skin–> subcutaneous tissue–> supraspinaous/interspinous ligaments–> Ligamentum flavum–> Epidural fat–> Epidural space–> Dura mater–> Arachnoid space–> Subarachnoid space!

Question 6

What is Noncommunicating Hydrocephalus?

Answer 6

Ventricles do NOT communicate with subarachnoid space, but CSF production continues

Question 7

What is Communicating Hydrocephalus?

Answer 7

Ventricles DO communicate with subarachnoid space. Can arise from:

1) CSF overproduction
2) CSF obstruction
3) poor CSF absorption

Question 8

What is Normal Pressure Hydrocephalus? (Symptoms)

Answer 8

Chronic form, with equilibrium between production/absorption. Often proceeded by high-pressure phase.
Symptoms: “Wet, wacky, and wobbly”–> Urinary incontinence, progressive dementia, and ataxic gait.

Question 9

What is Hydrocephalus ex vacuo?

Answer 9

expansion of ventricular volume secondary to loss of brain tissue

Question 10

What is Pseudotumor Cerebri? (Symptoms, causes)

Answer 10

Benign intracranial HTN. Increased resistance to CSF outflow. Seen in obese women.
Symptoms: HA, visual changes. Slit-like ventricles on imaging

Question 11

Where do eyes look in Stroke/ Seizure?

Answer 11

Stroke: TOWARD stroke
Seizure: AWAY from a seizure

Question 12

What is the difference between Dyslexia and Alexia?

Answer 12

Dyslexia: congenital
Alexia: acquired

Question 13

What is Apraxia?

Answer 13

inability to carry out learned movements (combing hair, brush teeth)

Question 14

What kind of memory loss results from Hippocampal lesion?

Answer 14

Anterograde memory loss

Question 15

What can lesion to Amygdala cause? What is this syndrome called?

Answer 15

Kluver-Bucy sundrome.

Psychic blindness, personality changes (abnormal docility), hyperorality, hypersexuality

Question 16

What is difference between lesion proximal and distal to CN VIII decussation?

Answer 16

Proximal to decussation and Sup. Olive–> Unilateral hearing loss
Distal to decussation and medullary cochlear nuc–> Bilateral hearing diminished, WITHOUT hearing loss

Question 17

What is the clinical presentation of hydrocephalus? (3)

Answer 17

1) Headache
2) vomiting without nausea
3) papilledema

Question 18

How do you treat hydrocephalus?

Answer 18

ventricular-peritoneal shunt

Question 19

What can cause Dandy-Walker Malformation?

Answer 19

Riboflavin inhibitors, posterior head trauma, viral infection (rubella, CMV)

Question 20

Which form of hydrocephalus is common in babies?

Answer 20

Congenital aqueduct of Sylvius Stenosis (between 3rd and 4th ventricles)

Question 21

Hydrocephalus Ex Vacuo in Elderly (Cause, symptoms, Diag, Tx)

Answer 21

Cause: significant neuronal loss
Symptoms: HA, vomiting w/o nausea, papilledema
Diagnosis: MRI, CT
Tx: None

Question 22

Meningitis

Answer 22

Cause: Inflamm of leptomeninges
Symptoms: meningismus, nuchal rigiditty, HA, fever, vomiting w/o nausea, papilledema
Diagnosis: CT prior to Lumbar puncture to prevent tonsillar herniation
Tx: Abx

Question 23

What MUST you do before performing lumbar puncture in patient that is thought to have increased intracranial pressure (ICP)?

Answer 23

inspection for papilledema and loss of venous pulsations on PE and CT–> to prevent tonsillar herniation wit decreased ICP

Question 24

Who are at higher risk for meningitis? How can meningitis cause hydrocephalus?

Answer 24

elderly, very young (<3yo) and those living in close quarters. Scarring of meninges and edema can cause hydrocephalus.

Question 25

Subarachnoid hemorrhage (cause, symptoms, diagn, tx, prognosis)

Answer 25

Cause: ruptured aneurysm (Ant. comm artery) or congenital malformation
Symptoms: “Worst HA of my life”, CN III palsy, decreased levels of consciousness, hydrocephalus symptoms, bloody/xanthochromic spinal tap
Diag: CT, xanthochromic CSF
Tx: surgical excision of aneurysm, or fill with metal coil to PREVENT
Prognosis: 45% die w/in 1month.

Question 26

Normal Pressure Hydrocephalus (Cause, symptom, diagnosis, treatment)

Answer 26

Cause: meningitis, subarachnoid hemorrhage, atherosclerosis–> reduced resorption of CSF.
Symptoms: bladder incontinence, dementia, and ataxia (“Magnetic gait”). NO papilledema or HA because ICP not increased.
Diag: CT/MRI (ventriculomegaly w/o proportional sulcal atrophy or increased CSF), clinical signs
Tx: shunt

Question 27

For cardiovascular disorders, when do you use CT and when do you use MRI?

Answer 27

CT: hemorrage/ blood
MRI: infarction

Question 28

What happens after thrombotic stroke (Pale Infarction)? (days, weeks,…)

Answer 28

Liquifactive necrosis due to lack of reperfusion
1-2 Days: edema, loss of demarcation between white/gray matter, myelin breakdown
Weeks: cystic area and gliosis

Question 29

What is the Treatment for a pale infarction? (Short and long-term, side effects)

Answer 29

Short-term: IV Tissue Plasminogen Activator within 3HRS after onset of symptoms–> dissolve clot and enable reperfusion
IV tPA NOT given if CT shows existing hemorrhage, or is time of onset is unclear
SIDE EFFECT: hemorrhage

Long-term: aspirin, statin, rehabilitation

Question 30

What is thought to be the cause of Embolic stroke (hemorrhagic infarction)?

Answer 30

Lysis of embolic material–> blood extravasation through damaged blood vessel (Reperfusion injury)

Question 31

How does Embolic stroke present? Treatment?

Answer 31

Symptoms: clinically indistinguishable from thrombotic stroke
Tx: underlying conditions causing emboli, anticoagulants, rehabilitation.

Question 32

Which symptom can help distinguish between hemorrhage and infarction?

Answer 32

Vomiting is much more common with hemorrhage than infarction.

Question 33

What is Binswanger Disease?

Answer 33

Widespread degeneration of cerebral white matter, secondary to vascular lesion (HTN, atherosclerosis, multiple strokes)
Symptoms: gait disorder, dementia, pseudobulbar state
Variant of multi-focal dementia.

Question 34

Epidural Hemorrhage (Etiology, Presentation, Tx, prognosis)

Answer 34

Etiology: Middle Meningeal Artery rupture
Presentation: “Talk and die”. Loss of consciousness with lucid interval, bradycardia with increased sys BP, on CT blood does NOT cross suture lines, dilated pupil
Tx: hematoma clot evacuation and cauterize MMA
Prognosis: brain damage, death can occur with increased ICP, uncal herniation, resp. arrest

Question 35

Subdural Hemorrhage (Etiology, Presentation, Tx, prognosis)

Answer 35

Etiology: Bridging veins rupture, brain atrophy, abrupt deceleration
Presentation: delayed onset due to low-press venous sys, fluctuating level of consciousness, on CT blood CROSSES suture lines
Tx: removal of hematoma by craniotomy
Prognosis: w/o treatment, cerebral compression, temporal lobe-tentorial herniation–> death

Question 36

Subarachnoid Hemorrhage (Etiology, Presentation, Tx, prognosis)

Answer 36

Etiology: rupture of aneurysm, arteriovenous malformation
Presentation: “worst HA of my life” occipital, bloody/xanthocromic spinal tap, impaired CSF resorption–> hydrocephalus
Tx: surgical excision of aneurysm or fill with metal (prevention)

Question 37

Parenchymal (Etiology, Presentation, Tx, prognosis)

Answer 37

Etiology: diabetes mellitus, tumor, HTN, amyloid angiography, Charcot-Bouchard macroaneurysm
Presentation: basal ganglia, thalamus, internal capsule most affected–> hemiplegia, contralateral sensory loss, vomiting, inability to sit/walk/stand (damage to cerebellum)
Tx: ventilation, monitor ICP and BP (keep below 110mmHg), surgical evacuation of cerebellar hematomas
Prognosis: depends on location. 30-35% die w/in month.

Question 38

What are some causes of lacuna infarcts? Tx and prognosis?

Answer 38

Hyaline arteriosclerosis secondary to HTN and diabetes mellitus
Tx: Lower BP, control DM, aspirin
Prognosis: generally fair to good.

Question 39

How will a MCA stroke present?

Answer 39

Parietal Lobe: contralateral hemianesthesia (face/arm worse than leg)
Frontal Lobe: contralateral hemiplegia (face/arm worse than leg)
Temporal Lobe: homonymous quadrantanpia
If Dominant Hemisphere (usually LEFT): aphasia
If Nondominant Hemisphere (usually RIGHT): sensory neglect and apraxia

Question 40

How will an ACA stroke present?

Answer 40

Parietal: contralateral hemianethesia (leg worse than face/arm)
Frontal: contralateral hemiplegia (leg worse than face/arm)
Medial frontal: urinary continence, grasp refelx

Question 41

How will a PCA stroke present?

Answer 41

Occipital homonymous hemianopia w/ macular sparing

Question 42

How will an AICA stroke present?

Answer 42

“Lateral pontine syndrome”
Ipsilateral: paralysis of face movt (CN VII), paralysis of conjugate gaze to side of lesion (CN VI), face pain/temp, Horner syndrome, hearing loss/vertigo/nausea, vomiting, nystagmus away from lesion, dystaxia
Contralateral: loss of pain/temp in body

Question 43

How will a PICA stroke present?

Answer 43

“Wallenberg Syndrome/ Lateral Medullary Syndrome”
Ipsilateral: limb ataxia, intention tremor (Inf. Cerebellar peduncle), vertigo/nausea/vomiting/nystagmus away from lesion (CN VIII nuc.), paralysis of larynx/pharynx/palate (Nuc. Ambiguus), facial temp/pain loss (CN V), Horner (descending hypothalamic)
Contralateral: loss of pain/temp in body

Question 44

What if right-handed patient presents with aphasia- which side is lesion?

Answer 44

LEFT hemisphere b/c usually dominant hemisphere. This is true for most left-handed patients also, but not all (some have language area on right hemisphere)–> have to confirm with CT/MRI.

Question 45

How to treat Hemiballismus? Prognosis?

Answer 45

Tx: Haloperidol
Prognosis: weeks w/o tx can lead to exhaustion and death

Question 46

What is Broca aphasia? Location? Presentation?

Answer 46

Location: Inferior frontal gyrus.
Presentation: motor/ nonfluent/expressive aphasia with good comprehension. Patients are aware–> frustrating. Often accompanied by contralateral hemiparesis of right lower face/arm

Question 47

What is Wernicke aphasia? Location? Presentation? Prognosis?

Answer 47

Location: Sup. temporal gyrus.
Presentation: Sensory/fluent/auditory aphasia w/ impaired comprehension, neologisms, paraphasic errors. Unaware of defect. Often with contralateral visual defects (Meyer’s Loop), alexia
Prognosis: less likely to return to normal than Broca

Question 48

What would lesion to Arcuate Fasciculus look like?

Answer 48

Conduction aphasia (Arcuate fasciculus connects Broca and Wernicke)
Presentation: Poor repetition, intact comprehension, fluent speech, cannot name objects

Question 49

What is Global aphasia?

Answer 49

Presentation: speech and comprehension affected. Often accompanied by right hemiplegia, hemianesthesia, homonymous hemianopia

Question 50

Amyotrophic Lateral Sclerosis (Pathology, Presentation, and Tx/Prognosis)

Answer 50

Pathology: Neurodegeneration of UMN and LMN
Presentation: LMN and UMN signs with sensory sparing
Tx: Riluzole delays onset of ventilator-dependence (3-5mts). Rapidly fatal.

Question 51

Werdnig-Hoffman Disease. (Pathology, Presentation, and Tx/Prognosis)

Answer 51

Pathology: inherited LMN disease. Degeneration of Ant. Horn. NO UMN involvement.
Presentation: “Floppy baby syndrome”, tongue fasciculations, LMN signs
Tx/Prognosis: Average age is 7yo at death.

Question 52

Poliomyelitis. (Pathology, Presentation, and Tx/Prognosis)

Answer 52

Pathology: Degeneration of Ant. Horn
Presentation: Follows infection with Polio–> first infects oropharynx and intestines
Tx: strict bed rest to delay paralysis, ventilation

Question 53

Alzheimer’s Disease. (Pathology, Presentation, and Tx/Prognosis)

Answer 53

Pathology: B-amyloid plaques in neurons and cerebral blood vessels. Mutations in Presenilin 1/2, APOE4, p-APP. Decrease in ACh.
Presentation: mental deterioration, short-term memory loss, anosmia, decline in executive fcn, SPARES sensory/motor fcn.
Tx: AChE inhibitors (increase ACh), NMDA receptor antagonists (decrease glutamate-toxicity)
Prognosis: 50% expected due to cardio/resp problems and starvation

Question 54

Pick Disease. (Pathology, Presentation, and Tx/Prognosis)

Answer 54

Pathology: pick bodies (tau protein), straight filaments, loss of white matter
Presentation: personality changes (first sign), dementia, aphasia, memory loss
Tx: (similar to Alzheimer’s) AChE inhibitors and NMDA receptor antagonists

Question 55

What is Multi-infarct (vascular dementia)? (Pathology, Presentation, and Tx/Prognosis)

Answer 55

2nd most common cause of dementia
Pathology: secondary to atherosclerosis
Tx: vascular prophylaxis and stroke prevention

Question 56

What is Wilson Disease? (Pathology, Presentation, and Tx/Prognosis)

Answer 56

Pathology: Excessive Cu accumulation in liver, lenticular nucleus of basal ganglia, eyes. Decrease in Ceruplasmin and increase in urinary Cu.
Presentation: Onset at 20-30yr. Preceded by liver cirrhosis. Asterixis, dystonia, tremor, dementia, green-brown pigmentation of iris (Kayser-Fleischer rings)
Tx: Zinc, penicillamine (Cu chelators) and pyridoxine (prevent anemia), low Cu diet. Liver transplant curative.

Question 57

What is Dementia Lewy bodies? (Pathology, Presentation, and Tx/Prognosis)

Answer 57

Pathology: widespread formation of Lewy bodies (a-synuclein aggregates)
Presentation: Parkinsonian WITH episodic delerium, visuospatial impairment, varying attention, undulating clinical course
Tx: Selegiline, MAO inhibitors
Prognosis: death due to immobility, poor nutrition, swallowing difficulty

Question 58

What is Progressive Supranuclear Palsy?

Answer 58

Pathology: widespread neuronal loss and subcortical gliosis. SPARES cerebral and cerebellar cortices.
Presentation: difficulty with vertical eye gaze, pseudobulbar palsy, axial dystonia, bradykinesia w/o tremor. Memory and intellect INTACT.
Tx: No definitive tx.
Prognosis: death 6-10yr

Question 59

Olivopontocerebellar atrophy (Pathology, Presentation, and Tx/Prognosis)

Answer 59

Pathology: loss of Purkinje cells, flattening of pons and enlarged 4th ventricle
Presentation: ataxia, dysarthria, intention tremor, generalized rigidity, dementia
Tx: progressive degeneration–> falling and aspiration pneumonia

Question 60

Friedrich ataxia. (Pathology, Presentation, and Tx/Prognosis)

Answer 60

“Hereditary Ataxia”
Pathology: Autosomal recessive (GAA repeat, Frataxin gene).
Presentation: Onset w/in first 10yrs of life. atrophy of spinal cord, damage to dorsal columns, spinocerebellar tracts, lateral corticospinal tracts. Loss of proprioception, deep tendon reflexes, + Babinski
Prognosis: poor.

Question 61

Progressive Multifocal Leukoencephalopathy (PML)

Answer 61

Pathology: VIRAL. Reactivation of latent JC (John Cunningham) virus in Oligodendrocytes. Especially in AIDS patients (immunosuppression).
Presentation: hemiparesis, aphasia ,cortical blindness, conjugate gaze abnormalities. RAPID progression.
Prognosis: severe dementia, death w/in 6mts-1yr

Question 62

Multiple Sclerosis

Answer 62

Pathology: inflamm autoimm to Oligodendrocytes
Presentation: scanning speech, intention tremor, internuclear ophthalmoplegia, nystagmus. Often relapsing, remitting.
Diagnosis: Labs (increased OLIGOCLONAL IgG BANDS, myelin basic protein, leukocytes) in CSF, plaques on MRI
Treatment: High-dose steroids (Acute) Interferon-Beta (Long-term), Natalizumab.

Question 63

Acute Disseminated (Postinfectious) Encephalomyelitis

Answer 63

Pathology: follows infection with measles, mumps, rubella, chickenpox.
Presentation: Onset much sooner than SSPE. Hx of recent infection, irritable, lethargic, mental status changes, seizures
Tx: high dose corticosteroids, Plasmapharesis, IVIg

Question 64

What is the difference between Subacute Sclerosing Panencephalitis and Acute Disseminated (Postinfectious) Encephalitis?

Answer 64

timing of symptoms. ADPE: much sooner

Question 65

Guillain-Barre Syndrome

Answer 65

Pathology: inflamm autoimm against PNS myelin. Assoc with infections (HSV, Camppylobacter jejuni, Mycoplasma pneu, flu vaccine)
Presentation: NO fever. Symmetrical ASCENDING muscle weakness, parasthesia
Tx: resp support is CRITICAL, plasmapharesis, IVIg

Question 66

Central Pontine Myelinolysis (CPM)

Answer 66

“Locked-In syndrome”!!!
Pathology: rapid correction of hyponatremia (re-feeding syndrome, alcoholics, liver disease)–> shrinking of neurons–> demyelination
Presentation: rapid-onset of quadriparesis, dysarthria, dysphagia
Prognosis: death is common

Question 67

What is the difference between CPM and MS?

Answer 67

CPM does NOT have inflammation.

Question 68

What is Status Epilepticus? Tx?

Answer 68

seizures lasting more than 20min w/o regaining consciousness
tonic-clonic
sudden loss of consciousness
rhythmic contraction of limbs
Tx: benzodiazapines (IMMEDIATE), phenytoin (LONG-TERM)

Question 69

What can cause cerebral edema? When does it occur?

Answer 69

Cytotoxic: secondary to hypoxia and hyponatremia
Vascular: increased permeability of vessels from inflamm.
Occurs 2-4days after infarction

Question 70

What is Cushing Reflex? When does it occur?

Answer 70

bradycardia (parasympathetic)+ HTN (sympathetic)

occurs with ICP

Question 71

How can EEG help diagnose seizure?

Answer 71

spike and wave complex–> signifies hypersynchronocity

Question 72

What is Partial seizure? (simple vs. complex)

Answer 72

Simple: consciousness intact, motor/sensory/autonomic/psychic components
Complex: alteration of consciousness

Question 73

What are the different types of Generalized seizures?

Answer 73

Absence (petit mal, no postictal confusion)
Myoclonic
Tonic-clonic (has postictal phase- lethargy and confusion)
Tonic
Atonic (“Dropping”, mistaken for fainting)

Question 74

May-White Syndrome

Answer 74

Familial progressive myoclonic epilepsy

w/ lipoma, ataxia, deafness

Question 75

What are the signs of ICP (increased cranial pressure)?

Answer 75

papilledema, vomiting, sinus bradycardia + HTN (Cushing reflex), decreased level of consciousness

Question 76

How do you treat patient with head trauma? Why?

Answer 76

Intentional hyperventilation–> RESPIRATORY ALKALOSIS–> cerebral vessel constriction –> decreases cerebral blood volume and permeability
To decrease risk of cerebral edema

Question 77

What does Respiratory Acidosis induce?

Answer 77

vasodilation and increased vessel permeability–> enhances cerebral edema

Question 78

What is the difference between Coup and Contrecoup? Which is worse?

Answer 78

Coup: site of impact injury
Contrecoup: opposite side of impact (more devastating because requires more impact)–> axonal damage

Question 79

Astrocytomas in adults vs. children

Answer 79

Account for 70% neuroglial tumors
Adults: frontal
Children: cerebellum

Question 80

DDx for bitemporal hemianopsia from sella turcica in adults/children?

Answer 80

Adults: Pituitary adenoma
Children: craniopharyngioma

Question 81

What is the most common form of pituitary adenoma?

Answer 81

Prolactin-secreting adenoma

Question 82

Primary Brain tumors (adult vs. childhood)

Answer 82

Seldom undergo metastasis
Adult: Supratentorial
Childhood: Infratentorial

Question 83

Where do adult brain tumors metastasize from? (in order)

Answer 83

lung, breast, skin (melanoma), kidney, GI, thyroid

Question 84

What is the most common primary brain tumor in adults? Prognosis?

Answer 84

Glioblastoma. <1 yr life expectancy

Question 85

Glioblastoma

Answer 85

“Pseudopalisading” tumor cell border
central areas of necrosis and hemorrhage
Most common primary brain tumor in adults
Astrocytoma–> visualize with GFAP

Question 86

Meningioma

Answer 86

*most common benign primary CNS tumor in adults
Pathology: from arachnoid cells, Psammoma bodies
Presentation: convexities of hemispheres, spastic paresis and urinary incontinence
Tx: resectable

Question 87

What is the most common benign primary CNS tumor in adults?

Answer 87

Meningioma

Question 88

Shwanomma-neurofibroma

Answer 88

3rd more common benign primary tumor
Pathology: commonly occurs in neurofibromatosis II (NF 2). Cerebellopontine angle–> usually present w/ deafness
Tx: Surgical resection

Question 89

Oligodendroglioma

Answer 89

Slow-growing, most often in frontal lobe
“Fried egg cells”
Tx: surgical resection

Question 90

Pinealoma

Answer 90

“Parinaud syndrome”

Tx: resection

Question 91

Pilocytic astrocytoma. Prognosis?

Answer 91

Pathology: benign glioma. “Rosenthal fibers” (eosinophilic corkscrew fibers)
Presentation: most often in cerebellum (posterior fossa)
Prognosis: Good

Question 92

Ependyoma

Answer 92

Pathology: Commonly in 4th ventricle
Presentation: can cause hydrocephalus–> nausea, vomiting, nuchal rigidity, increased ICP

Question 93

Medulluloblastoma

Answer 93

Pathology: highly malignant tumor.
Presentation: Cerebellar vermis. Can compress 4th ventricle–> hydrocephalus and increasing ICP.
Tx: radiosensitive. Can progress to cerebellar herniation w/o surgery

Question 94

Retinoblastoma

Answer 94

Malignant retinal tumor
sporadic–> Unilateral
bilateral–> Rb gene deletion
Tx: radiotherapy, cryotherapy, chemo, enucleation

Question 95

Hemangioblastoma

Answer 95

*assoc. with von Hippel-Lindau Syndrome
foamy cells and high vascularity
Tx: resection

Question 96

Craniopharyngioma

Answer 96

Most common childhood SUPRETENTORIAL tumor
Benign
Derived from Rathke Pouch (ectoderm resembling tooth enamel)
Presentation: growth failure, papilledema, compression of pituitary and/or optic chiasm
Tx: resection

Question 97

Psammoma bodies (What is it? Assoc. with which cancers?)

Answer 97

Laminated calcifications
Associated with: Papillary adenocarcinoma (thyroid), Papillary Serous Cystadenocarcinoma (ovary), Meningioma, Mesothelioma

Question 98

How do you visualize astrocytes/ astrocytomas?

Answer 98

Stain for Glial Fibrillary Acidic Protein (GFAP) , an intermediate filament

Question 99

What are Meningiomas assoc with? What else is this disease assoc with?

Answer 99

Neurofibromatosis (NF)

NF 2 also assoc. with bilateral schwannomas

Question 100

What is Neurofibromatosis assoc with? (2)

Answer 100

Bilateral Schwannoma and Meningiomas

Question 101

Compare tx for hypersecreting prolactin, GH, ACTH, and TSH tumors

Answer 101

Prolactin: DA-agonists or surgical resection

All other: surgical resection

Question 102

Brown-Sequard Syndrome (also, Tx and prognosis)

Answer 102

Hemisection of sp. cord
Motor: IPSILATERAL UMN below lesion, LMN lesion at level of lesion
Sensation: IPSILATERAL loss of fine touch/vibration/ proprioception at and below lesion, CONTRALATERAL loss of pain/temp below lesion, loss of ALL sensation at level of lesion
Tx: high dose steroids
Prognosis: poor

Question 103

Upper Extremity Nerve Injury (radial, median, ulnar, axillary, musculocutaneous)

Answer 103

Radial (C5-C8)–> shaft of humerus
Median (C5-T1)–> Supracondylar region of humerus, Carpel tunnel syndrome, slashing of wrist
Ulnar (C8-T1)–> Medial epicondyle
Axillary (C5 and C6)–> surgical neck of humerus, anterior shoulder dislocation. On physical exam (palpable depression under acromion)
Musculocutaneous (C5 and C6)–> decreased supination, loss of function of biceps, brachialis, coracobrachialis

Question 104

Anterior Compartment Syndrome

Answer 104

Pathology: increased pressure–> compression of Deep Peroneal Nerve and vasculature–> Foot Drop

Question 105

CNS lymphomas usually result from metastasis of what?

Answer 105

High-grade Hodgkin lymphoma with B-cell origin

Question 106

What is Primary CNS lymphoma associated with?

Answer 106

AIDS.
EBV lymphoma is most common cerebral tumor in AIDS pts.
MRI–> single ring-enhancing lesion. Toxoplasmosis (usually multiple lesion) must be ruled out.

Question 107

What is the difference between Craniopharyngioma and Pituitary adenomas?

Answer 107

Craniopharyngiomas: symptoms from interruption of infundibulum
Pituitary Adenomas: Symptoms from combination of aberrant tumor cell hormone secretion AND mass effect

Question 108

What is subependymal astrocytoma pathognomonic for?

Answer 108

Tuberous Sclerosis

Also, cardiac myomas and renal angiomyolipomas

Question 109

Which familial syndromes are associated with Pituitary adenomas?

Answer 109

Multiple Endocrine Neoplasia (MEN 1)
McCune Albright syndrome
Familial Acromegaly

Question 110

Poliomyelitis

Answer 110

Pathology: fecal-oral transmission of Poliovirus. First replicates in oropharynx/small int. Destruction of anterior horn–> LMN destruction
Presentation: (Acute) Malaise, HA, fever, nausea, abdominal pain, sore throat. (Later) LMN signs.
Diag: CSF–> lymphocytic pleocytosis, slight elevation of protein.
Tx: Bed rest to prevent paralysis, ventilator
Prognosis: low if bulbar involvement

Question 111

Poliovirus Vaccines

Answer 111

Salk: inactive, parenteral
Sabine: active, oral. Small risk of disease, but confers mucosal immunity, which Salk does not.

Question 112

Tabes Dorsalis (Tertiary Syphilis)

Answer 112

Pathology: degeneration of dorsal roots and columns (mainly lumbosacral, fasciculus gracilis). 15-20yrs after Treponema pallidum (Syphilis) infection
Presentation: Purely sensory- muscle power preserved. Ataxia, bilaterally impaired proprioception, Argyll Robertson pupils. Paresthesia (shooting pain).
Diagnosis: CSF–> pleocytosis, increased protein. Must follow venereal tests w/ specific syphilis tests.
Tx: penicilin
Prognosis: if untreated, paralysis, blindness, dementia

Question 113

Which tests should you do to confirm Syphilis? Why?

Answer 113

Should follow Venereal Disease Research Lab tests with specific treponemal tests b/c VDRL tests can be + w/ autoimm diseases, mononucleosis, or hepatitis.

Question 114

Subacute Combined Degeneration (Vit B12 deficiency)

Answer 114

Pathology: failure to absorb B12–> methylmalonyl-CoA and propionyl-CoA–> displaces succinyl-CoA in FA synthesis–> odd-chain FA into lipids/myelin–> demyelination of dorsal columns and corticospinal tract
Presentation: dementia, ataxic gait, spastic paresis, impaired position/vibration sense
Diagnosis: Serum cobalamin, MRI, Schilling Test
Tx: Vit. B12 supplements

Question 115

What is the Schilling Test?

Answer 115

1) oral radiolabeled B12 + IM unlabeled B12–> measure urine B12 (should be high)
2) If first test abnormal–> rB12+ intrinsic factor–> measure urine B12
3) If still no B12 in urine–> rB12+ Abx (to rule out bacterial overgrowth)–> measure urine B12
4) If still no B12 in urine–> rB12 + pancreatic enz (rule our pancreatitis)–> measure urine B12

Question 116

What can cause Pernicious Anemia? What can PA cause?

Answer 116

autoimmune disorder
Ab against Intrinsic factor and/or gastric parietal cells
–> Subacute Combined Degeneration and Megaloblastic anemia

Question 117

Syringomyelia

Answer 117

Pathology: enlargement of central canal in sp. cord–> damage to Ant. Commissure–> spinothalamic tract damaged
Presentation: loss of pain/temp sensation in UE (C8-T1). “Cape and Shawl” distribution. May also damage Ant. Horn–> LMN defects.
Diagnosis: MRI
Tx: If have Arnold-Chiari–> shunt
Prognosis: Poor.

Question 118

What is a common presentation of Syringomyelia?

Answer 118

Repeatedly burning their hands. “Cape and shawl” distribution of loss of pain/temp sensation.

Question 119

Thoracic Outlet Syndrome (Klumpke Palsy)

Answer 119

Pathology: embryologic defect in cervical rib–> compression of subclavian artery and inf. trunk of brachial plexus (C8, T1). Also seen in weightlifters
Presentation: Atrophy: thenar and hypothenar eminence (median and ulnar n.), interosseous musc (ulnar n.), sensory deficits of forearm and hand (ulnar and medial cutaneous n.). Disappearance of radial pulse when head is rotated
Tx: Ant. scalenectomy (careful to avoid phrenic n.), remove cervical rib
Prognosis: symptoms may recur due to scarring/ fibrosis

Question 120

How do you tell the difference between ALS and Syringomyelia?

Answer 120

ALS: NO sensory deficits

Question 121

What can cause Toxin-assoc peripheral neuropathy?

Answer 121

alcohol abuse, exposure to heavy metals, diptheria

Question 122

What does the Radial N. innervate

Answer 122

"BEST"
B= brachiocradialis
E= extensors
S= supinator
T= triceps

Question 123

Describe the 2 types of peripheral neuropathy

Answer 123

1) Demyelination: segmental sensory loss/changes
2) Axonal degeneration: Axonal degeneration of sensory occurs FIRST (smaller fibers, more prone to damage)–> “Stocking and Glove” distribution b/c longer fibers more prone. Motor nerves–> fasciculations, atrophy.

Question 124

Which nerves are more prone to axonal degeneration?

Answer 124

Sensory nerves (smaller fibers)
Long fibers
“Stocking-Glove” distribution

Question 125

For meningitis, which pathogens are most common in NEONATES?

Answer 125

Group B Strep, E. coli, and Listeria monocytogenes

Question 126

Charcot-Marie Tooth Disease

Answer 126

Most common hereditary neuropathy
Pathology: primarily affects peroneal nerve
Presentation: “inverted bottle” legs, foot drop, scoliosis, high/flat arch
Tx: physical therapy, surgical contractures for legs
Prognosis: no cure, progressive.

Question 127

For meningitis, which pathogens are most common in CHILDREN and TEENAGERS?

Answer 127

N. meningitidis

Question 128

For meningitis, which pathogens are most common in ADULTS and ELDERLY?

Answer 128

Step pneumoniae

Question 129

For meningitis, which pathogens are most common in NONVACCINATED INFANTS

Answer 129

H. influenza

Question 130

Most common viral source for meningitis? Who?

Answer 130

Coxsackievirus (Children)

fecal-oral transmission

Question 131

Who gets fungal meningitis?

Answer 131

immunocompromised individuals

Question 132

What is the classic triad of meningitis? What else?

Answer 132

HA, nuchal rigidity, fever

Also, photophobia, vomiting, altered mental status

Question 133

Which layer DON’T you go through for an Lumbar puncture? Which space do you go into?

Answer 133

pia. Go into subarachnoid space.

Question 134

Complications from meningitis?

Answer 134

Death–> due to herniation from cerebral edema

Hydrocephalus, hearing, loss, seizures,–> due to scarring/fibrosis

Question 135

Herniations (4)

Answer 135

Cingulate/ Subfalcine–> compresses Ant. Cerebral Artery
Uncal–> compressed crus cerebri, CN III, Post. Cerebral Artery–> infarction of occipital lobe. Rupture of Paramedian Artery–> Duret brain hemorrhage
Cerebellar tonsillar–> compression of medulla–> cardio-resp arrest
Transtentorial–> compression of brain stem–> coma, death

Question 137

Leukodrystrophy (Metachromatic)

Answer 137

Deficiency of arylsulfatase–> sulfatides (myelin) cannot be degraded–> accumulates in lysosomes (lysosomal storage disease)
Most common leukodystrophy
Autosomal recessive

Question 138

Leukodrystrophy (Krabbe)

Answer 138

Deficiency of galactocerebrosidase–> galactocerebroside and psychosine
Accumulates in macrophages
Autosomal recessive

Question 138

Multiple Sclerosis is more common in which people?

Answer 138

women, regions away from equator (due to environmental triggers that activate autoimmunity)

Question 139

Leukodrystrophy (Adrenoleukodystrophy)

Answer 139

Impaired addition of coenzyme A to long-chain FA–> Accumulation of FA damages Adrenal Glands AND white matter
X-linked

Question 140

What are the 2 timing features of Multiple Sclerosis?

Answer 140

relapsing and remission

Question 141

Subacute Sclerosing Panencephalitis

Answer 141

SLOWLY progressive, debilitating encephalitis
persistent infection of brain with MEASLES VIRUS
infection occurs in infancy–> signs in childhood
viral inclusion in gray AND white matter

Question 142

What can cause Progressive Multifocal Leukoencephalopathy?

Answer 142

Reactivation of JC virus

May be linked to use of monoclonal Ab Tysabri in MS.