Neuro

Question 1

Ectoderm differentiates into

Answer 1

neuroectoderm –> neural plate –> neural tube and neural crest cells

Question 2

Notochord becomes

Answer 2

nucleus pulposus of intervertebral disc in adults

Question 3

Alar plate

Answer 3

Dorsal

sensory

lateral nuclei

Question 4

Basal plate

Answer 4

Ventral

motor

Medial nuclei

Question 5

We begin with what three primary vesicles in embryonic development

Answer 5

Forebrain (prosencephalon) –> (telencephalon and diencephalon)
Midbrain (mesencephalon) –> Mesencephalon
Hindbrain (rhombencephalon) –> Metencephalon and myelencephalon

Question 6

The three primary vesicles become these 5 secondary vesicles. What do the 5 secondary vesicles become

Answer 6

Telencephalon (1st) 
Diencephalon (2nd)
(rest is alphabetical order)
Mesencephalon
Metencephalon
Myelencephalon

The 5 secondary vesicles become adult derivatives of walls and cavities

Question 7

Telencephalon becomes

Answer 7

Cerebral hemisphere and lateral ventricles

Question 8

Diencephalon becomes

Answer 8

Thalamus, hypothalamus, third ventricle

Question 9

Mesencephalon becomes

Answer 9

Midbrain and cerebral aqueduct

Question 10

Metencephalon becomes

Answer 10

Pons, cerebellum, upper part of 4th ventricle

Question 11

Myelencephalon becomes

Answer 11

Medulla and lower part of fourth ventricle

Question 12

Neural crest forms

Answer 12

PNS neurons and schwann cells

Question 13

Mesoderm forms

Answer 13

Microglia (like macrophages)

Question 14

Neural tube defects

Answer 14

Neuropores fail to fuse (4th week) and persistent connection between amniotic cavity and spinal canal

Question 15

What labs can you look at for neural tube defect detection

Answer 15

AFP elevated (except in spina bifida occulta)
Increase in AChE as a confirmatory test

Question 16

Failure of caudal neuropore to close but no herniation. Usually seen at lower vertebral levels and the dura is intact. Associated with tuft of hair or skin dimple at level of bony defect

Answer 16

Spina bifida occulta

Question 17

Meninges (but no neural tissue) hernaites through bony defect and associated with spina bifida cystica

Answer 17

Meningocele

Question 18

Meninges and neural tissue herniate through bony defect

Answer 18

Meningomyelocele

Question 19

Also known as rachischisis. Exposed unfused neural tissue without skin/meningeal covering

Answer 19

Myeloschisis

Question 20

Failure of rostral neuropore to close. No forebrain, open calvarium. Can see polyhydramnios (no swalling center in brain)

Answer 20

Anencephaly

Question 21

Failure of the left and right hemispheres to separate. Moderate form shows cleft lip/palate, while more severe forms result in cyclopia. MRI can show a monoventricle and fusion of basal ganglia. What mutation and genetic defects is this related to?

Answer 21

Mutations in sonic hedgehog signaling pathway
Trisomy 13
Fetal alcohol syndrome

Question 22

Ectopia/displacement of cerebellar tonsils

Answer 22

Chiari I malformation

congenital, usually asymptomatic in childhood and manifests in adulthood with headaches and cerebellar symtoms

Question 23

Herniation of low lying cerebellar vermis and tonsils through foramen magnum with aqueductal stenosis causing hydrocephalus

Answer 23

Chiari II malformation

lumbosacral meningomyelocele is associated

Question 24

Agenesis of cerebellar vermis leads to cystic enlargement of 4th ventricle that fills the enlarged posterior fossa

Answer 24

Dandy-walker syndrome

associated with noncommunicating hydrocephalus, spina bifida

Question 25

Cystic cavity within central canal of signal cord. Patient presents with cape like, bilateral symmetrical loss of pain and temperature sensation in upper extremities. Fine touch sensation is preserved

Answer 25

Syringomyelia - a cyst forms within your spinal cord. As this fluid-filled cyst, or syrinx, expands and lengthens over time, it compresses and damages part of your spinal cord from its center outward

Fibers crossing in anterior white commissure (spinothalamic tract) are typically damaged first

associated with chiari malformation

most common at C8-T1

Question 26

CN for taste

Answer 26

CN VII, IX, X (solitary nucleus)

Question 27

CN for pain in tongue

Answer 27

CN V3,IX, X

Question 28

CN for Motor in tongue

Answer 28

CN X, CN XII

CN XII is to the hyoglossus that retracts and depresses the tongue, genioglossus which protrudes tongue, and styloglossuswhich draws tongue upward to create a trough for swallowing

CN X to the palatoglossus which elevates posterior tongue during swallowing

Question 29

What brachial arches form the anterior 2/3 of tongue

Answer 29

1st and 2nd

sensation CN V3
Taste CN VII

Question 30

What brachial arches formt he posterior 1/3 of tongue

Answer 30

3rd and 4th

Sensation and taste from CN IX
Extreme posterior is CN X

Question 31

What kind of stain do you use to see the cell bodies and dendrites of neurons

Answer 31

Nissl stain which stains the RER

doesnt stain the axon because the axon does not have any RER

Question 32

Injury to axon causes degeneration of axon distal to site of injury and axonal retraction proximally

Answer 32

Wallerian degeneration

allows for potential regeneration of axon (if in PNS)

macrophages remove debris and myelin

Question 33

Most common glial cell type in CNS.

Answer 33

Astrocytes which are responsible for physical support, repair,extracellular K+ buffer, removal of excess NT, component of BBB, glycogen fuel reserve buffer

Question 34

What are astrocytes derived from

Answer 34

neuroectoderm

Question 35

Astrocyte marker

Answer 35

GFAP

Question 36

Phagocytic scavenger cells of CNS that respond to tissue damage

Answer 36

HIV infected microglia fuse to form multiucleated giant cells in CNS

Question 37

Glial cells with a ciliated simple columnar form that line the ventricles and central canal of spinal cord. Apical surfaces are covered in cilia (which circulate CSF) and microvilli (which help in CSF absorption)

Answer 37

ependymal cells

Question 38

Function of myelin

Answer 38

Increase conduction velocity of signals transmitted down an axon

nodes of ranvier have high coentration of Na channels

Question 39

What type of cells synthesize myelin the CNS (including CN I and II)

Answer 39

“COPS”

oligodendrocytes derived from neuroectoderm

1 oligodendrocyte per many CNS axons

Question 40

What type of cells synthesize myelin in the PNS ( Including CN III-XII)

Answer 40

“COPS”

Schwann cells derived from neural crest

1 schwann cell per PNS axon

Question 41

What type of cell is damaged in Guillian Barre syndrome

Answer 41

Schwann cells

Question 42

What type of cell is damaged in MS, progressive multifocal leukoencephalopathy (PML), leukodystrophies

Answer 42

Oligodendrocytes

Question 43

Free nerve endings

Answer 43

C- slow, unmyelinated fibers
Aδ- fast, myelinated fibers

skin, epidermis, some viscera

pain and temperature

Question 44

Meissner corpuscles

Answer 44

Large myelinated fibers that adapt quickly

Gabrous (hairless)skin

dynamic, fine/light touch, position sense

Question 45

Pacinian corpuscles

Answer 45

Large myelinated fibers that adapt quickly

Deep skin layers, ligaments, and joints

vibration and pressure

Question 46

Merkel disc

Answer 46

Large myelinated fibers that adapt slowly

finger tips and superficial skin

pressure, deep static touch, position sense

Question 47

Ruffini corpuscles

Answer 47

Dendritic ending with capsule; adapt slowly

finger tips, joints

pressure. slippage of objects along surface of skin, joint angle change

Question 48

Peripheral nerve layers

Answer 48

Endoneurium (inner layer) - around single nerve fibers
Perineurium (around, blood nerve permeaility barrier) - surrounds each fasicle of nerve fibers
Epineurium (outer layer) - dense CT that surrounds entire nerve (fasicles and blood vessels)

Question 49

inflammatory infiltrate in Guillain barre syndrome involves what layer of peripheral nerve

Answer 49

Endoneurium

Question 50

Reaction of neuronal cell body to axonal injury that is concurrent with wallerian degeneration

Answer 50

Chromatolysis

changes reflect increased protein synthesis in an effort to repair the damaged axon

• Round cellular swelling
• Displacement of the nucelus to the periphery
• Dispersion of Nissl substance throughout the cytoplasm

Question 51

Location of synthesis of ACh

Answer 51

Basal nucleus of Meynert

Question 52

Location of synthesis of Dopamine

Answer 52

Ventral tegmentum, SNc

Question 53

Location of synthesis of GABA

Answer 53

Nucleus accumbens

Question 54

Location of synthesis of NE

Answer 54

Locus ceruleus

Question 55

Location of synthesis of serotoning

Answer 55

Raphe nucleus

Question 56

NT levels in anxiety

Answer 56

low GABA and serotonin

high NE

Question 57

NT levels in Depression

Answer 57

low dopamine, NE, serotonin

Question 58

NT levels in schizo

Answer 58

high dopamine

Question 59

NT levels in alzheimers dz

Answer 59

low ACh

Question 60

NT levels in huntington disease

Answer 60

low ACh and GABA

high Dopamine

Question 61

NT levels in parkinson disease

Answer 61

low dopamine and serotonin

high ACh

Question 62

Meninges layers

Answer 62

Dura mater (from mesoderm)
Arachnoid mater (neural crest)
Pia mater (neural crest)

Question 63

Epidural

Answer 63

a potential space between the dura mater and skull containing fat and blood vessels

Question 64

The blood brain barrier is formed by 3 structures

Answer 64

• tight junctions between nonfenestrated capillary endothelial cells
• basement membrane
• astrocyte foot processes

Question 65

Can glucose and AA cross the BBB

Answer 65

yes they cross slowly by carrier mediated transport mechanisms

Question 66

Can non polar/lipid soluble substances cross the BBB

Answer 66

yes rapidly via diffusion

Question 67

effect of infarction or neoplasm on BBB

Answer 67

destroys endothelial cell tight junctions causing vasogenic edema

Question 68

Hypothalamus

Answer 68

maintains homeostasis

TAN HATS

Thirst
Adenohypophysis
Neurohypothysis
Hunger
Autonomic NS
Temperature
Sexual urgers

Question 69

What parts of the hypothalamus are not protected by the BBB

Answer 69

OVLT which senses changes in osmolarity

Area postrema found in medulla and responds to emetics

Question 70

Lateral nucleus (Hypothalamus)

Answer 70

hunger

+ ghrelin
- leptin

injury: lateral injury makes you lean

Question 71

Ventromedial nucleus (Hypothalamus)

Answer 71

Satiety

+ leptin

injury: VentroMedial injury makes you Very Massive

Question 72

Anterior nucleus (Hypothalamus)

Answer 72

Cooling and parasympathetics

“ANTartica”

Question 73

Posterior nucleus (Hypothalamus)

Answer 73

Heating and sympathetics

“Hot Pot”

Question 74

Suprachiasmatic nucleus (SCN) of Hypothalamus

Answer 74

Circadian rhythm

“charismatic people need to sleep”

Question 75

Supraoptic and paraventricular nuclei (Hypothalamus)

Answer 75

Synthesize ADH and oxytocin

which are carried by neurophysins down axons to the posterior pituitary

Question 76

Preoptic nucleus (Hypothalamus)

Answer 76

thermoregulation and sexual behavior

releases GnRH

Question 77

Kallman syndrome (Hypothalamus)

Answer 77

failure of GnRH producing neurons to migrate from olfactory pit

Question 78

Vomiting is coordinated by what? where is it located? where does it receive information from?

Answer 78

• nucleus tractus solitarius (NTS) in the medulla
• receives info from the chemoreceptor trigger zone (CTZ within area postrema in 4th ventricle), GI tract via vagus, vestibular system, CNS

Question 79

The 5 major receptors in the CTZ

Answer 79

muscarinic (M1), dopamine (D2), histamine (H1),serotonin (5HT3), and neurokinin (NK-1)

Question 80

____,____,____ antagonists used to treat chemotherapy induced vomiting

Answer 80

5HT3
D2
NK-1

Question 81

____ and ____ antagonists used to treat motion sickness and hyperemesis gravidarum

Answer 81

M1 and H1

Question 82

Circadian rhythm controls nocturnal release of ___, ____, ____, ____

Answer 82

ACTH
Prolactin
Melatonin
NE

SCN –> NE release—> pineal gland –> melatonin

SCN is regulated by the environment

Question 83

Effect of alcohol, benzos, and barbiturates on sleep cycle

Answer 83

decrease REM sleep and delta wave sleep

Question 84

Sleep cycle stages

Answer 84

Awake eyes open –> Beta (high f, low amp)
Awake eyes closed –> Alpha
Non-REM sleep
-Stage N1 (light sleep) –> theta
-Stage N2 (deeper sleep) –> sleep spindles and K complexes
-Stage N3 (deepest non-REM sleep, slow wave) –> Delta
-REM sleep –> Beta waves

Question 85

What stage of sleep does bruxism occur

Answer 85

Stage N2 of non REM sleep

sleep spindles and K complexes

Question 86

What stage of sleep does sleep walking, night terrors, and bedwetting occur

Answer 86

Stage N3 of non REM sleep

Delta wave

Question 87

Stage of sleep where there is a loss of motor tone, increased brain O2 use, increased and variable pulse and blood pressure, increase ACh

Answer 87

REM sleep

occurs every 90 minutes and duration increases through the night

Question 88

What stage of sleep do you experience dreaming, nightmares, penile/clitoral tumescence, and may serve a memory processing function

Answer 88

REM sleep

Question 89

extraoccular movements are due to activity of

Answer 89

PPRF or paramedian pontine reticular formation or conjugate gaze center

Question 90

Ventralposterolateral nucleus (thalamus)

Answer 90

Input: spinothalamic and dorsal columns/medial lemniscus

Senses: vibration, pain, pressure,proprioception, light touch, temperature

Destination: primary somatosensory cortex

Question 91

Ventralposteromedial nucleus ((thalamus)

Answer 91

Input:Trigeminal and gustatory pathway

Senses: Face sensation, taste

Destination: primary somatosensory cortex

Question 92

Lateral geniculate nucleus ((thalamus))

Answer 92

Input:CN II, optic chiasm, optic tract

Senses: vision

Destination: Calcarine sulcus

lateral …think “light”

Question 93

Medial geniculate nucleus ((thalamus))

Answer 93

Input:superior olive and inferior colliculus of tectum

Senses: Hearing

Destination: auditory cortex of temporal lobe

medial…think “music”

Question 94

Ventral lateral nucleus (thalamus)

Answer 94

Input: Basal ganglia

Senses: Motor

Destination: Motor cortex

Question 95

Limbic system is responsible for

Answer 95

emotion, long term memory, olfaction, behavior modulation, ANS function

5 F: Feeding, Fleeing, Fighting, Feeling, (Fucking)Sex

Question 96

Structures of the limbic system

Answer 96

hippocampus, amygdala, mammillary bodies, anterior thalamic nuclei, cingulate gyrus, entorhinal cortex

Question 97

Mesocortical (Dopaminergic pathways)

Answer 97

decreased activity causes negative symptoms

Question 98

Mesolimbic (Dopaminergic pathways)

Answer 98

inceased activity causes positive symptoms

primary target of antipsychotic drugs which decrease positive symptoms

Question 99

Nigrostriatal (Dopaminergic pathways)

Answer 99

decreased activity causes extrapyramidal symptoms

significantly affected by mvoement disorders and antipsychotic drugs

Question 100

Tuberoinfundibular(Dopaminergic pathways)

Answer 100

decreased activity causes increase in proalctin and decreased libido, sexual dysfunction, galactorrhea, gynecomastia

Question 101

Input into cerebellum

Answer 101

contralateral cortex via middle cerebellar peduncle

ipsilateral proprioceptive info via inferior cerebellar peduncle from spinal cord

Question 102

Output into cerebellum

Answer 102

The only output of cerebellar cortex is the purkinje cells which are always inhibitory –> deep nuclei of cerebellum –> contralateral cortex via superior cerebellar peduncle

Question 103

Deep nuclei from lateral to medial

Answer 103

Dentate, Emboliform, Globose, Fastigial

Question 104

Lateral lesion to cerebellum

Answer 104

Affects LATERAL structure

voluntary movement of extremities

fall toward injured side (ipsilateral)

Question 105

Medial lesion to cerebellum

Answer 105

affects MEDIAL structures

truncal ataxia (wide based cerebellar gait) , nystagmus, head tilting.

Bilateral motor defects affecting axial and proximal limb musculature

Question 106

Basal ganglia

Answer 106

voluntary movements and making postural adjustments

Question 107

Basal ganglia’s striatum =

Answer 107

putamen (motor) + caudate (cognitive)

Question 108

Basal ganglia’s Lentiform =

Answer 108

putamen + globus pallidus

Question 109

Basal ganglia’s D1 receptor

Answer 109

direct pathway

Dopamine binds to D1 to stimulate the excitatory pathway

Question 110

Basal ganglia’s D2 receptor

Answer 110

Indirect
Inhibitory pathway

Dopamine binds to D2 to inhibit the inhibitory pathway and increase motion

Question 111

Direct (excitatory) pathway

Answer 111

Substantia nigra input stimulates the striatum causing GABA release

The release of GABA inhibits GABA release from the GPi (globus pallidus)

This causes DISINHIBITION of thalamus and therefore increased movement

Question 112

Indirect (inhibitory) pathway

Answer 112

Substantia nigra input stimulates the striatum which releases GABA that DISINHIBITS the subthalamic nucleus via GPe inhibition

Subthalamic nucleus stimulates the GPi (globus pallidus) to inhibit the thalamus and therefore decreases movement

Question 113

What is cerebral perfusion primarily driven by

Answer 113

PCO2

hypoxemia increases CPP only if PO2 <50 mmHg
CPP is directly proportional to PCO2 until PCO2>90 mmhg

Question 114

Cerebral perfusion pressure equation

Answer 114

MAP-ICP

if CCP=0 then braindeath

Question 115

How does therapeutic hyperventilation affect the CCP (cerebral perfusion pressure)

Answer 115

It causes a drop in PCO2 which results in vasoconstriction and ultimately decreased cerebral blood flow and drop in intracranial pressure (ICP)

Question 116

Anterior cerebral artery supplies

Answer 116

anteromedial surface

Question 117

Middle cerebral artery supplies

Answer 117

lateral surface

Question 118

Posterior cerebral artery supplies

Answer 118

posterior and inferior surfaces

Question 119

Watershed zones in the brain

Answer 119

between anterior cerebral/middle cerebral (cortical border zone)
between posterior cerebral/middle cerebral (cortical border zone)

Superficial and deep vascular territories of the middle cerebral artery (internal border zone)

Question 120

circle of willis pathway

Answer 120

The vertebral arteries join to form the basilar artery

the basilar artery bifurcates into the posterior cerebral artery

the posterior cerebral artery communicates with the middle cerebral artery with the posterior communicating branch

The middle cerebral artery joins the anterior cerebral artery to form the internal carotids

Question 121

Dural venous sinuses drain into

Answer 121

internal jugular vein

Question 122

Dural venous sinus drainage pathway

Answer 122

Superior sagittal sinus, straight sinus, and occipital sinus. join to form the confluence of sinuses

Then proceeds to drain into the left and right transverse sinuses. –> sigmoid –> jugular foramen –> internal jugular vein

Question 123

Venous sinus thrombosis

Answer 123

Patient presents with the signs and symptoms of increased ICP

can lead to venous hemorrhage

Question 124

Ventricles

Answer 124

The lateral ventricles drain into the third ventricle via the right and left interventricular foramina of monro

The third ventricle (chicken head) then drains into the 4th ventricle via cerebral aqueduct of sylvius

The 4th ventricle drains into the subarachnoid space via the foramina of luschka (lateral) and the foramina of Magendie (medial)

Question 125

CSF made by

Answer 125

ependymal cells of choroid plexus

then reabsorbed by arachnoid granulations and then drains into dural venous sinuses

Question 126

CNs and where they exit from

Answer 126

4 exit above the pons - 1,2,3,4
4 exit the pons-5,6,7,8
4 are in the medulla - 9,10,11,12
4 nuclei are medial - 3,4,6,12 (factors of 12)

Question 127

Pineal gland

Answer 127

melatonin secretion and circadian rhythms

Question 128

Superior colliculi

Answer 128

direct eye movements to stimuli or objects of interest

Question 129

Inferior colliculi

Answer 129

auditory

note: superior is eyes and inferior is ears. The eyes are above the ears

Question 130

Cranial nerve nucleis

Answer 130

located in tegmentum portion of brain stem (between the dorsal and ventral portions)

Midbrain - nuclei of CN 3 and 4
Pons- nuclei of CN 5,6,7,8
Medulla- nuclei of CN 9,10,12
Spinal cord- nuclei of CN 11

Question 131

Cranial nerve pathway: CN I

Answer 131

cribriform plate

Question 132

Cranial nerve pathway: CN 2

Answer 132

optic canal

Question 133

Cranial nerve pathway: CN 3,4,6,V1

Answer 133

Superior orbital fissure

Question 134

Cranial nerve pathway: V2

Answer 134

foramen rotundum

Question 135

Cranial nerve pathway: V3

Answer 135

foramen ovale

Question 136

Cranial nerve pathway: Middle meningeal A

Answer 136

foramen spinosum

Question 137

Cranial nerve pathway: CN 7 and 8

Answer 137

internal auditory meatus

Question 138

Cranial nerve pathway: CN 9,10,11 jugular vein

Answer 138

jugular foramen

Question 139

Cranial nerve pathway: CN 12

Answer 139

hypoglossal canal

Question 140

CN types (sensor vs motor)

Answer 140

CN 1-12

Some
Say
Marry
Money
But
My
Brother
Says 
Big
Brains 
Matter
Most

Question 141

CN for taste from anterior 2/3? posterior 1/3?

Answer 141

anterior 2/3 - facial

posterior 1/3 -glossopharyngeal

Question 142

Nucleus solitarius (vagal nuclei)

Answer 142

visceral sensory info

CN 7,9,10

S=sensory

Question 143

Nucleus ambiguus (vagal nuclei)

Answer 143

motor innervation of pharynx, larynx, upper esophagus

CN 9,10,11

M=muscle

Question 144

Dorsal motor nucleus (vagal nuclei)

Answer 144

sends autonomic (parasympathetic) fibers to heart, lung, upper GI

CN 10

Question 145

Cranial nerve reflex: corneal

Answer 145

afferent: V1 opthalmic (nasociliary branch)
efferent: bilateral VII (temporal branch: orbicularis oculi)

Question 146

Cranial nerve reflex: lacrimal

Answer 146

afferent: V1
efferent: VII

Question 147

Cranial nerve reflex: jaw jerk

Answer 147

afferent: V3
efferent: V3

Question 148

Cranial nerve reflex: pupillary

Answer 148

afferent: II
efferent: III

Question 149

Cranial nerve reflex: Gag

Answer 149

afferent: IX
efferent: X

Question 150

Muscles of mastication and their innervation

Answer 150

3 muscles needed to close jaw: masseter, temporalis, medial pterygoid

1 muscle opens: lateral pterygoid

nerve: V3

Question 151

Do spinal nerves exit above or below the vertebrae?

Answer 151

C1-C7 exit above
C8 below C7
Rest below

Question 152

Where does the spinal cord end for adults

Answer 152

at the lower border of L1-L2

but the subarachnoid space extends to lower border of S2 vertebra

Question 153

At what level do you do a lumbar puncture

Answer 153

L3-L4 or L4-L5

“to keep the spinal cord alive, keep the spinal needle between L3 and L5”

Question 154

Spinal cord and associated tracts: corticospinal (Descening) and spinothalamic (Ascending)

Answer 154

legs (lumbosacral) are lateral in lateral corticospinal, spinothalamic tracts

Question 155

Spinal cord and associated tracts: dorsal colum

Answer 155

Dorsal columns - pressure, vibration, fine touch, proprioception

arms outside - fasciculus cuneatus (upper body, arms)
legs insidem - fasciculus gracilis (lower body, legs)

Question 156

Spinothalamic tract

Answer 156

lateral spinothalamic tract - pain and temp

Anterior spinothalamic tract - crude touch, pressure

Question 157

Corticospinal tract

Answer 157

lateral corticospinal tract - voluntary motor

Anterior corticospinal tract-voluntary motor

Question 158

Dorsal column tract

Answer 158

1st order neuron: sensory nerve ending enter dorsal root ganglion and ascend spinal cord ipsilaterally in dorsal column

Synapse: nucleus gracilis, nucleus cuneatus of ipsilateral medulla

2nd order neuron: decussates in medulla and ascends contralaterally as the medial lemniscus

Synapse: VPL (thalamus) –> sensory cortex

Question 159

Spinothalamic tract pathway

Answer 159

1st order neuron: sensory nerve ending (Aδ and C fibers) to dorsal root ganglion and enter spinal cord

Synapse: ipsilateral gray matter of spinal cord

2nd order neuron: decussayes in spinal cord as the anterior white commissure ascends contralaterally

synapse: VPL (thalamus) –> sensory cortex

Question 160

Lateral corticospinal tract pathway

Answer 160

1st order neuron: UMN ; cell body in primary motor cortex descends ipsilaterally through posterior limb of internal capsule. Decussate at caudal medulla and descend contralaterally

synapse 1: cell body of anterior horn of spinal cord

2nd order neuron: LMN leaves spinal cord

Synapse 2: NMJ –> mm fibers

Question 161

______ tracts synapse and then cross

Answer 161

ascending

Question 162

Cremasteric reflex

Answer 162

L1 L2

testicles move

Question 163

Anal wink reflex

Answer 163

S3 S4

winks galore

Question 164

triceps reflex

Answer 164

C7 C8

Question 165

baby reflex where abducts/extends arms when startled and then draw together

Answer 165

Moro reflex

Question 166

baby reflex where move head towards one side if cheek or mouth is stroked

Answer 166

nipple seeking due to rooting reflex

Question 167

Sucking response when roof of mouth is touched in infant

Answer 167

sucking reflex

Question 168

curling fingers if palm is stroked in infant

Answer 168

palmar reflex

Question 169

dorsiflexion of large toe and fanning of other toes with plantar stimulation in baby (babinski)

Answer 169

plantar reflex

Question 170

Stroking alone one side of the spine while newborn is in ventral suspension (face down) causes lateral flexion of lower body toward stimulated side

Answer 170

galant reflex

Question 171

Landmarks for dermatomes:

C2,C3,C4,C6,T4,T7,T10,L1,L4,S2,S3,S4

Answer 171

C2 - posterior half of skull
C3- turtle neck shirt
C4-low collar shirt
C6-includes the thumb (thumbs up sign on left hand looks like a 6)
T4-at the nipple
T7-xiphoid process
T10-umbilicus
L1-inguinal ligament
L4-includes the kneecaps
S2,S3,S4-penile and anal zone sensations

Question 172

Eye looks towards (destructive)side of lesion. Location?

Answer 172

Frontal eye fields

Question 173

Disinhibition and deficits in concentration, orientation, and judgement. Location?

Answer 173

Lesion in frontal lobe

Question 174

Eye looks away from side of lesion during irritative seizure.Location?

Answer 174

frontal eye fields

Question 175

Eyes look away from side of lesion. Ipsilateral gaze palsy where they are unable to look towards side of lesion. Location?

Answer 175

Paramedian pontine reticular formation

Question 176

Internuclear ophthalmoplegia (impaired adduction of ipsilateral eye; nystagmus of contralateral eye with abduction). Seen with MS. Location?

Answer 176

Medial longitudinal fasciculus

Question 177

Gerstmann syndrome. Agraphia, acalculia, finger agnosia, left/right disorientation. Location?

Answer 177

Dominant parietal cortex

Question 178

Hemispatial neglect syndrome - agnosia of the contralateral side of the world. Location?

Answer 178

Nondominant parietal cortex

Question 179

Anterograde amnesia - cant make new memories . Location?

Answer 179

Hippocampus B/L

Question 180

Parkinsons, huntington dz : tremor at rest, chorea, athetosis. Location?

Answer 180

Basal ganglia

Question 181

Contralateral hemiballismus. Location?

Answer 181

Subthalamic nucleus

Question 182

Confusion, ataxia, nystagmus, ophthalmoplegia, memory loss as anterograde and retrograde, confabulation, personality changes. Syndrome? Location?

Answer 182

wernicke korsakoff syndrome

mammollary bodies b/l

Question 183

Disinhibited behavior related to HSV-1 encephalitis. Syndrome? Location?

Answer 183

Kluver Bucy syndrome

amygdala b/l

Question 184

Vertical gaze palsy, pupillary light near dissociation, lid retraction, convergence-retraction nystagmus. Syndrome? Location?

Answer 184

Parinaud syndrome

Dorsal midbrain

Question 185

reduced levels of arousal and wakefulness. Location?

Answer 185

reticular activating system (midbrain)

Question 186

Intention tremor, limb ataxia, loss of balance; damage to cerebellum –> ipsilateral deficits; fall towards side of lesion. Location?

Answer 186

Cerebellar lesion

Question 187

Decorticate (flexor) posturing - flexion of UE and extension of LE. Location?

Answer 187

Lesion above the red nucleus

Question 188

Decerebrate (extensor) posturing - extension of UE and LE. Location?

Answer 188

Lesion below the red nucleus

worse prognosis that decorticate posturing

Question 189

Truncal ataxia (wide based, drunken sailor gait), dysarthria. Location?

Answer 189

Cerebellar vermis

vermis is centrally located and affects the central body

chronic alcohol use

Question 190

Irreversible brain damage occurs ____ minutes after hypoxia. Most vulnerable structures?

Answer 190

5 minutes

hippocampus (most), neocortex, cerebellum (purkinje cells), watershed area

Question 191

CT or MRI for Ischemia of the brain?

Answer 191

CT detects ischemic changes in 6-24 hrs

diffusion weighted MRI within 3-30 min

Question 192

Histologic features of ischemia after:

1) 12-24 hrs
2) 24-72 hrs
3) 3-5 days
4) 1-2 weeks
5) > 2 weeks

Answer 192

1) eosinophilic cytoplasm +pyknotic nuclei (red nucleus)
2) necrosis + neutrophils
3) macrophages (microglia)
4) Reactive gliosis (astrocytes) + vascular proliferation
5) glial scar

Question 193

What kind of necrosis do you see in ischemic stroke

Answer 193

liquefactive

Question 194

Thrombotic ischemic stroke most commonly occurs at the

Answer 194

MCA

Question 195

What is the treatment protocol for tPA

Answer 195

if within 3-4.5 hours of onset

and no hemorrhage/risk of hemorrhage

Question 196

Brief reversible episode of foal neurologic dysfunction without acute infarction (neg MRI) with the majority resolving in <15 minutes.

Answer 196

Transient ischemic attack

Deficits are due to local ischemia

Question 197

Preterm baby presents with altered level of consciousness, bulging fontanelle, hypotension, seizures, coma

Answer 197

Neonatal intraventricular hemorrhage-bleeding in the ventricles

germinal matrix- a highly vascularized layer within the subventricular zone

Due to reduced glial fiber support and impaired autoregulation of BP in premature infants

Question 198

Epidural hematoma is commonly due to ____ at the _____. Presents with scalp hematoma and rapid intracranial expansion, this can result in ___________. CT shows a ______ hyperdense blood collection that _______ suture lines

Answer 198

middle meningeal artery trauma at the pterion

Transtentorial herniation –> CN III palsy

biconvex(lentiform)

does not cross suture lines

Question 199

Subdural hematoma is due to rupture of _______ and can be acute due to trauma ( ____ on CT) or chronic due to cerebral atrophy (_______ on CT). ______ shaped hemorrhage that _____ the suture lines

Answer 199

bridging veins

hyperdense on CT for acute

hypodense on CT for chronic

Crescent shaped hemorrhage that crosses the suture lines

can cause a midline shift

Question 200

Patient presents with the worst headache of his life and has bloody/yellow (xanthochromic) spinal tap

Answer 200

Sub arachnoid hemorrhage

due to trauma or aneurysm

Question 201

This hemorrhage is caused by systemic hypertension which causes a hypertensive hemorrhage.

Answer 201

Intraparenchymal hemorrhage

most often at the putamen of basal ganglia due to the lenticulostriate vessels

hypertensive hemorrhage (charcot bouchard microaneurysm –> lacunar strokes)

Question 202

Patient presents with contralateral paralysis and sensory loss - face and upper limbs. What artery is involved and where is the stroke?

Answer 202

Middle cerebral artery at the motor and sensor cortices

Question 203

Patient presents with aphasia

Answer 203

Middle cerebral artery

Temporal lobe (wernickes area)

dominent left hemisphere

Question 204

Patient presents with hemineglect

Answer 204

middle cerebral artery
temporal lobe
nondominant right side

Question 205

Patient presents with contralateral paralysis and sensory loss in lower limb and urinary incontinence

Answer 205

Anterior cerebral artery

at motor and sensory cortices

Question 206

Patient presents with contralateral paralysis and absence of cortical signs.

Answer 206

Lenticulostriate artery at the striatum and internal capsule

Question 207

Common location of lacunar infarcts due to hyaline arteriosclerosis secondary to unmanaged hypertension

Answer 207

lenticulostriate artery at the striatum and internal capsule

Question 208

Patient presents with cotnralateral paralysis of the upper and lower limbs

Answer 208

lateral corticospinal tract

anterior spinal artery

Question 209

Patient presents with decreased contralateral proprioception

Answer 209

medial lemniscus

anterior spinal artery

Question 210

Patient presents with ipsilateral hypoglossal dysfunction (tongue deviates ipsilaterally)

Answer 210

caudal medulla - hypoglossal nerve

anterior spinal artery

Question 211

Patient presents with dysphagia, hoarseness, and decreased gag reflex

Answer 211

Lateral medulla at the nucleus ambiguus (CN 9,10,11)

posterior inferior cerebellar artery

Question 212

Patient presents with vomiting and vertigo and nystagmus

Answer 212

vestibular nuclei

posterior inferior cerebellar artery and anterior inferior cerebellar artery

Question 213

Patient presents with decreased pain and temperature sensation from contralateral body and ipsilateral face

Answer 213

Lateral spinothalamic tract, spinal trigeminal nucleus

posterior inferior cerebellar artery

Question 214

Patient presents with ipsilateral horner syndrome

Answer 214

sympathetic fibers due to posterior inferior cerebellar artery or anterior inferior cerebellar artery

Question 215

Patient presents with ipsilateral ataxia, dysmetria

Answer 215

inferior cerebellar peduncle

posterior inferior cerebellar artery

Question 216

Patient presents with paralysis of face (decreased lacrimation, salivation, taste from anterior 2/3 of tongue)

Answer 216

Lateral pons; facial nucleus

Anterior inferior cerebellar artery

Question 217

Patient presents with ataxia and dysmetria

Answer 217

middle and inferior cerebellar peduncles

anterior inferior cerebellar artery

Question 218

Patient presents with decreased pain and temperature sensation from contralateral body and ipsilateral face

Answer 218

spinothalamic tract
spinal trigeminal nucleus

anterior inferior cerebellar artery

Question 219

Patient presents with ipsilateral sensorineural deafness, vertigo

Answer 219

labyrinthine artery

anterior inferior cerebellar artery

Question 220

Patient presents with clinical triad of ipsilateral hypoglossal palsy, contralateral hemiparesis, and contralateral lemniscal sensory loss.

Answer 220

medial medullary syndrome

anterior spinal artery - paramedian brances

and or vertebral arteries

Question 221

Patient presents with facial droop

Answer 221

Lateral pontine syndrome

facial nucleus affects are specific to AICA (anterior inferior cerebellar artery)

Question 222

Patient presents with hoarseness and dysphagia

Answer 222

Lateral medullary (wallenberg) syndrome

nucleus ambiguus effects are specfic to PICA lesions (posterior inferior cerebellar artery)

Question 223

Patient presents with locked in syndrome

Answer 223

Basilar artery

lesion at pons, medulla, lower midbrain

(RAS) reticular activating system spared and therefore preserved consciosness

Question 224

Patient presents with quadriplegia and loss of voluntary facial,mouth, and tongue movements

Answer 224

corticospinal and corticobulbar tracts

basilar artery

Question 225

Patient presents with loss of horizontal but not vertical eye movements

Answer 225

Ocular cranial nerve nuclei, paramedian pontine reticular formation

basilar artery

Question 226

Patient presents with contralateral hemianopia with macular sparing. Alexia without agraphia (dominant hemisphere)

Answer 226

Occipital lobe

posterior cerebral artery

Question 227

Central post stroke pain syndrome

Answer 227

Neuropathic pain due to thalamic lesions

initial paresthesias followed in weeks to months by allodynia (oridinarily painless stimuli cause pain) and dysesthesia ont he contralateral side

Question 228

This injury is caused by traumatic shearing forces during rapid acceleration and or deceleration of the brain

Answer 228

Diffuse axonal injury

coma, vegetative state

can have punctate hemorrhages

Question 229

What hemisphere does aphasia usually involve

Answer 229

left hemisphere (dominant)

Question 230

Broca

Answer 230

expressive aphasia

Broken speach “broca”

inferior frontal gyrus of frontal lobe

Question 231

Wernicke

Answer 231

Receptive aphasia

Wordy but makes no sense

Superior temporal gyrus of temporal lobe

also associated with right superior quadrant visual field defect

Question 232

Conduction aphasia

Answer 232

poor speech repetition

damage to arcuate fasciculus

Question 233

Global aphasia

Answer 233

arcuate fasciculus, broca an wenicke areas affected

Question 234

Saccular/berry aneurysms commonly occur at

Answer 234

junction of the anterior communicating artery and anterior cerebral artery

associated with ehlers danlos syndrome and autosomal dominant polycystic disease

Question 235

Rupture of berry aneurysms

Answer 235

subarachnoid hemorrhage causing focal neurologic deficits

Question 236

anterior communicating artery compression

Answer 236

bitemporal hemianopia due to compression of optic chiasm

Question 237

anterior communicating artery rupture

Answer 237

ischemia in anterior cerebral artery

contralateral lower extremity hemiparesis sensory deficits

Question 238

Middle cerebral artery rupture

Answer 238

contralateral UE and Lower facial hemiparesis sensory deficits

Question 239

Posterior communicating artery compression

Answer 239

ipsilateral CN III palsy causing mydriasis or blown pupils

“down and out eye”

ptosis

Question 240

Where do partial (focal) seizures commonly originate. What are the different types

Answer 240

medial temporal lobe

simple partial - consciousness intact

complex partial - impaired consciousness and automatism

Question 241

status epilepticus

Answer 241

> = 5 min or recurring

Question 242

Generalized (diffuse) seizures types

Answer 242

absence (petit mal) - 3 hz, no postictal

myoclonic - quick repetitive jerks

tonic-clonic - grand mal alternating stiffening and movement

tonic-stiffening

atonic-drop seizures, like fainting

Question 243

Migraines are due to irritation of what?

Answer 243

CN V
meninges
blood vessels (release of substance P, calcitonin gene related peptide, vasoactive peptides)

Question 244

Akathisia

Answer 244

Restlessness and intense urge to move

Question 245

Asterixis is due to

Answer 245

due to hepatic encephalopathy or wilson disease

Question 246

Slow snake like writhing movements ,especially in the fingers

Answer 246

Athetosis

basal ganglia

Question 247

Chorea is due to a lesion in the

Answer 247

basal ganglia

Question 248

Sustained involuntary muscle contractions

Answer 248

dystonia

i.e. writers cramp

Question 249

High frequency tremor with sustained posture. Worse with movement or when anxious

Answer 249

Essential tremor

Question 250

Slow zigzag motion when pointing/extending toward a target

Answer 250

intention tremor

due to cerebellar dysfunction

Question 251

Uncontrolled movement of distal appendages (esp in hands). tremor alleviated by intentional movement and occurs at rest

Answer 251

substantia nigra (parkinsons disease)

Question 252

Parkinsons disease involves the ________. ______ is a drug that is metabolized to _____ which is toxic to the same structure

Answer 252

Loss of dopaminergic neurons of the substantia nigra pars compacta

MPTP –> MPP +

Question 253

Parkinsons symptoms

Answer 253

TRAPs

Tremors (pill rolling)
Rigidity 
Akinesia or bradykinesia
Postural instability
Shuffling gait

also see lewy bodies (alpha synuclein)

Question 254

Trinucleotide repeat and gene affected in huntingtons dz

Answer 254

CAG

HTT gene on chromosome 4

“hunt has 4 letters”

Question 255

huntington disease involves atrophy of ____ via binding of _____ and _____ excitotoxicity. Lab values consist of

Answer 255

caudate and putamen with ex vacuo ventriculomegaly. Neuronal death via NMDA-R binding and glutamate excitotoxicity

high dopamine
low GABA and ACh

Question 256

Why do downs pts have a higher risk of alzheimers

Answer 256

APP (amyloid precursor protein) is cleaved to make amyloid beta

APP is coded on chromosome 21

Question 257

alzheimers disease involves widespread cortical atrophy ,especially the ________. There is a ______ in ACh and _____ increases the risk of sporadic form.

Answer 257

hippocampus w/e narrowing gyri and widening sulci

decrease in ACh

APOE4 increases risk of sporadic
APOE3 decreases risk of sporadic

Question 258

Alzheimers pathology

Answer 258

senile plaques due to amyloid beta plaques
Neurofibrillary tangles - intracellular hyperphosphorylated tau protein = insoluble cytoskeletal elements (number of tangles correlates with degree of dementia)

Question 259

This dementia presents with early changes in personality and behavior (behavioral variant) or aphasia (primary progressive aphasia)

Answer 259

frontotemporal dementia/picks disease

inclusions of hyperphosphorylated tau (round pick bodies) or ubiquitinated TDP-43

Question 260

This dementia presents with cognitive and motor symptoms onset < 1 year apart

Answer 260

lewy body dementia

lewy bodies composed of alpha synuclein (intracellular eosinophilic inclusions)

if not <1 year apart then it is dementia secondary to parkinsons disease

Question 261

Vascular dementia

Answer 261

result of multiple arterial infarcts and or chronic ischemia

stepwise decline in cognitive impairment and then late onset memory impairment

Question 262

Rapidly progressive dementia with myoclonus and ataxia. Periodic sharp waves on EEG and increase in 14-3-3 protein in CSF

Answer 262

Creutzfeldt-jakob disease

spongiform cortex

Prions

Question 263

Increased ICP without cause on imaging. Lumbar puncture shows increased opening pressure and provides temporary headache relief. Diplopia due to CN 6 palsy and impaired optic nerve axoplasmic flow

Answer 263

idiopathic intracranial hypertension or pseudotumor cerebri

risk factors: female, tertracyclines, obesity, vitamin A excess, danazol

Question 264

communicating hydrocephalus

Answer 264

decreased CSF absorption by arachnoid granulations

Question 265

Normal pressure hydrocephalus

Answer 265

elderly

elevated only episodically

expansion of ventricles destorys the fibers of the corona radiata –> triad of urinary incontinence, gait apraxia, cognitive dysfunction

Question 266

noncommunicating hdrocephalus

Answer 266

structural blockage of CSF circulation due to tumor etc

Question 267

ex vacuo centriculomegaly

Answer 267

appearance of increased CSF but is actually due to decreased brain tissue and neuronal atrophy

ICP is normal and normal pressure hydrocephalus triad (urinary incontinence, gait apraxia, cognitive dysfunction) is not seen

Question 268

Autoimmune inflammation and demyelination of CNS (brain and spinal cord) with subsequent axonal damage. What disease? what are common symptoms?

Answer 268

Multiple sclerosis

acute optic neuritis or painful unilateral visual loss associated with marcus gunn pupil

Brain stem/cerebellar syndromes

pyrimidal tract weakness - pattern of weakness in the extensors (upper limbs) or flexors (lower limbs)

symptoms are exacerbated with increase body temp (i.e. during exercise)

Question 269

Multiple sclerosis has increased ____ and ____ in the CSF. What is the gold standard test? What is diagnostic?

Answer 269

IgG and myelin basic protein in CSF

gold standard test is the MRI

oligoclonal bands are diagnostic. Periventricular plaques (Areas of oligodendrocyte loss and reactive gliosis)

Question 270

Massive axonal demyelination in pontine white matter secondary to rapid osmotic changes. Results in acute paralysis, dysarthria, dysphagia, diplopia, loss of consciousness

Answer 270

Osmotic demyelination syndrome or central pontine myelinolysis

can cause locked in syndrome

Question 271

If you correct Na too fast from low to high

Answer 271

osmotic demyelination snydrome

Question 272

If you correct Na too fast from high to low

Answer 272

cerebral edema/herniation

Question 273

Acute inflammatory demyelinating polyradiculopathy is a subtype of ? affects what nerves? what are labs like?

Answer 273

most common subtype of guillian barre syndrome

affects peripheral nerves including CN 3- 12 and motor fibers

Increased CSF protein with normal cell count (albuminocytologic dissociation)

Question 274

Acute disseminated (postinfectious) encephalomyelitis

Answer 274

multifocal inflammation and demyelination after infection or vaccination

rapidly progressive multifocal neurologic symptoms that alter mental status

Question 275

Hereditary motor and sensory neuropathy. Defective production of proteins involved in the structure and function of peripheral nerves or the myelin sheath. Associated with foot deformities, lower extremity weakness, and sensory deficits. What disease is this?

Answer 275

Charcot marie tooth disease

Question 276

What is the most common type of charcot marie tooth disease

Answer 276

CMT1A caused by the PMP22 gene duplication

Question 277

Demyelination of CNS due to destruction of oligodendrocytes. Rapidly progressive, usually fatal and dominates the parietal and occipital areas. Visual symptoms are common

Answer 277

Progressive multifocal leukoencephalopathy

Question 278

_________ is a neurological disorder indicated at birth by a port-wine stain birthmark on the forehead and upper eyelid of one side of the face. The birthmark is caused by an overabundance of capillaries around the _________ just beneath the surface of the face. Neurological symptoms include seizures (side of the body opposite the birthmark) that begin in infancy and may worsen with age. There may be intermittent or permanent muscle weakness on the same side.

Answer 278

Sturge-Weber syndrome aka encephalotrigeminal angiomatosis

trigeminal nerve

abnormal blood vessels on the brain surface and the loss of nerve cells and calcification of underlying tissue in the cerebral cortex of the brain on the same side of the brain as the birthmark. –> neurological symptoms

ipsilateral leptomengeal angioma –> seizures/epilepsy
episcleral hemangioma –> increased IOP –> glaucoma

Question 279

What is the pathophys of sturge weber syndrome

Answer 279

developmental anomaly of neural creast derivatives due to somatic mosaicism for an activating mutation in one copy of the GNAQ gene

Question 280

What is tuberous sclerosis and what is the genetic mutation that causes it

Answer 280

tuberous sclerosis is a disorder that results in growth of numerous benign tumors in many parts of the body

due to TSC1 mutation on chromosome 9

OR TSC2 on chromosome 16

which is a tumor suppressor gene

Question 281

Clinical presentation of tuberous sclerosis

Answer 281

HAMARTOMAS

Hamartomas in CNS and skin
Angiofibromas
Mitral regurg
Ash leaf spots
Cardiac Rhabdomyoma
Autosomal dominant
Mental redardation
Renal angiomyolipoma
Seizures
Shagreen patches
Subependymal giant cell astroctomas and ungual fibromas

Question 282

Neurofibromatosis type 1 clinical presentation? genetic mutation?

Answer 282

condition that causes tumors to form in brain, spinal cord, nerves. Cafe au lait spots, cutaneous neurofibromas, optic gliomas, pheochromocytomas, lisch nodules

mutation in NF1 tumor suppressor gene on chromosome 17

aka Rechlinghausen disease

Question 283

What is defective in neurofibromatosis type 1

Answer 283

mutation in NF1 tumor suppressor gene which normally codes for neurofibromin, a negative regulator of RAS

Question 284

Neurofibromatosis type 2

Answer 284

mutation in NF2 tumor suppressor gene on chroosone 22

bilateral acoustic schwannomas, juvenile cataracts, meningiomas, ependymomas

Question 285

Disease that results in tumors and fluid filled sacs (cysts) in different parts of the body. Especially the kidney and pancreas. What disease is this? what is the mutation?

Answer 285

Von hippel lindau disease

deletion of VHL gene on chromosome 3p

pVHL ubiquitinates hypoxia inducible factor 1a

• Hemangioblastomas in retina, brainstem, cerebellum, spine
• Angiomatosis
• renal cell carcinomas,Bilateral
• pheochromocytomas

Question 286

Glioblastoma multiforme

Answer 286

Grade 4 astrocytoma

common and highly malignant. Found in cerebral hemispheres and can cross corpus callosum.

GFAP+

on histology there are pseudopalisading pleomorphic tumor cells

Question 287

Oligodendroglioma is most often in the ___ and has a ______ capillary pattern?

Answer 287

frontal lobes

chicken wire

Question 288

Primary adult brain tumor that is extra axial (external to the brain parenchyma) and may have a dural attachment. What tumor is this? what is the cell of origin? histology?

Answer 288

meningioma

Arachnoid cell origin

spindle cells concentrically arranged in whorled pattern

psammoma bodies(laminated calcifications)

Question 289

Hemangioblastoma is most often found in ___ and is associated with ______ when found with retinal angiomas. Can also result in secondary polycythemia due to ______ production

Answer 289

cerebellum

Von hippel lindau syndrome

Erythropoietin

Question 290

Hemangioblastoma cell of origin

Answer 290

blood vessel origin. Closely arranged, thin walled capillaries with minimal intervening parenchyma

Question 291

Hyperplasia of only one type of endocrine cells found in pituitary

Answer 291

pituitary adenoma

most commonly lactotrophs –> prolactinoma
somatotrophs (GH) –> acromegaly/gigantism
Corticotrophs (ACTH) –> cushings disease
Thyrotrophs (TSH)
Gonadotrophs (FSH,LH)

Question 292

Nonfunctioning pituitary adenoma presents with

Answer 292

mass effect

bitemporal hemianopia due to pressure on optic chiasm, hypopituitarism, headache

Question 293

Prolactinoma in women presents with

Answer 293

galactorrhea, amenorrhea and decreased bone density due to suppression of estrogen

Question 294

Prolactinoma in men presents with

Answer 294

low libido and infertility

Question 295

Schwannomas are classically at the ________ and involve CNs ____ and ____ but can be along any peripheral nerves

Answer 295

cerebellopontine angle

CNS 8 and 7 (often localized to CN8 in internal acoustic meatus –> vestibular schwannomas found in NF-2)

Question 296

Schwannoma cell origin? and marker?

Answer 296

Schwann cell origin

S-100 marker

Question 297

Pilocytic astrcoytoma - location, gross and histological findings

Answer 297

most common primary brain tumor in childhood. Cystic + solid

usually in the posterior fossa

glial cell origin, GFAP+, Rosenthal fibers, corkscrew fibers

Question 298

Medulloblastoma - location, gross, and histological findings

Answer 298

most common malignant brain tumor in childhood

usually in the cerebellum and can compress the 4th ventricle. Can send drop metastases to spinal cord

on histology see homor wright rosettes

Question 299

Ependymoma are most commonly found in the ______ and can cause ________. They are of _____ cell origin

Answer 299

4th ventricle

hydrocephalus

ependymal

Question 300

on histology for ependymoma you see

Answer 300

perivascular pseudorosettes

rod shaped blepharoplasts (basal ciliary bodies) found near nucleus

Question 301

This tumor is derived from the remnants of the rathke puch (ectoderm)

Answer 301

Craniopharyngioma - supratentorial tumor

can cause bitemporal hemianopia
calcification is common
cholesterol crystals found in motor oil like fluid within tumor

Question 302

Tumor of pineal gland that can result in vertical gaze palsy

Answer 302

pinealoma

parinaud syndrome (compression of tectum causes vertical gaze palsy)

can also cause obstructive hydrocephalus

Precocious puberty in males due to beta hCG production

Question 303

Cingulate (subfalcine)hernaition under falx cerebri can compress ?

Answer 303

anterior cerebral artery

Question 304

Transfentorial (Central/downward) hernaition can cause caudal displacement of?

Answer 304

brain stem and thus rupture of paramedian basilar artery branches –> duret hemorrhages

usually fatal

Question 305

Uncal (medial temporal lobe) herniation can cause compression of

Answer 305

ipsilateral CN III and contralateral crus cerebri against kernohan notch

causes contralateral CN III palsy and/or ipsilateral hemiparesis

Question 306

Cerebellar tonsillar herniation into foramen magnum

Answer 306

coma and death if compress brainstem

Question 307

LMN lesion vs UMN lesion

Answer 307

LMN = everything lowered
UMN = everything up

Question 308

Congenital degeneration of anterior horns of psinal cord causing a LMN lesion that causes symmetric weakness. What disease is this? what is the clinical presentation? what is the mutation?

Answer 308

Spinal muscular atrophy / Werdnig-Hoffmann disease

“floppy baby” with marked hypotonia (flaccid paralysis) and tongue fasciculations

Mutation in SMN1

Question 309

Lou Gehrig disease/ amyotrophic lateral sclerosis (ALS) is due to a defect in ________

Answer 309

superoxide dismutase 1

UMN and LMN deficits (LMN due to anterior horn involvement)

Question 310

Complete occlusion of anterior spiinal artery

Answer 310

UMN deficit below lesion due to corticospinal tract
LMN at level of lesion due to anterior horn

loss of pain and temp sensation below the lesion due to spinothalamic tract involvement

Question 311

due to tertiary syphilis –> degeneration of dorsal columns and roots resulting in progressive sensory ataxia (impaired proprioception –> poor coordination)

Answer 311

Tabes dorsalis

+ Romberg sign and absent DTRs

associated with cahrcot joints, shooting pain, argyll robertson pupils

Question 312

Syrinx expands and damages anterior white commissure of spinothalamic tract and causes

Answer 312

syringomyelia - bilateral symmetrical loss of pain and temperature sensation in cape like distribution.

seen with chiari I malformation

Question 313

Vitamin B12 deficiency causes ________ which is the demyelination of spinocerebellar tracts, lateral corticospinal tracts, and dorsal columns

Answer 313

subacute combined degeneration (SCD)

Ataxic gait, paresthesia, impaired position/vibration sense

Question 314

Cauda equina syndrome

Answer 314

compression of spinal roots L2 and below, often due to intervertebral disc herniation or tumor

unilateral radicular pain, absent knee and ankle reflex, loss of bladder and anal sphincter control, saddle anesthesia

Question 315

Pt presents with LMN lesion symptoms due to a _____ virus that replicates in the oropharynx and small intestine before spreading via bloodstream to the CNS. CSF shows increased WBC and slight increase in protein. Glucose unchanged in CSF

Answer 315

poliomyelitis due to poliovirus

infection causes destruction of cells in anterior horn of spinal corn (LMN death)

Question 316

Brown -sequard syndrome

Answer 316

hemisection of spinal cord

1) ipsilateral loss of all sensation at level of lesion
2) ipsilateral LMN signs at level of lesion
3) ipsilateral UMN signs below level of lesion due to corticospinal tract damage
4) ipsilateral loss of proprioception, vibration, light touch, and tactile sense below level of lesion due to dorsal column damage
5) contralateral loss of pain, temperature, and crude touch below level of lesion due to spinothalamic tract damage
6) if lesion above T1 then may have ipsilateral horners syndrome

Question 317

Genetic pathophys in Friedreich ataxia

Answer 317

GAA on chromosome 9 in gene that encodes frataxin (iron binding protein)

leads to impairment in mitochondrial functioning

Question 318

Patient presents with staggering gait, frequent falling, nystagmus, dysarthria, pes cavus, hammar toes, diabetes mellitus, hypertrophic cardiomyopathy. Patient had kyphoscoliosis as child

Answer 318

Friedreich ataxia

degeneration of lateral corticospinal tract (spastic paralysis),spinocerebellar tract (Ataxia), dorsal columns (decrease vibratory sense, proprioception), and dorsal root ganglia (loss of DTRS)

Question 319

CN V motor lesion

Answer 319

jaw deviates toward side of lesion due to unopposed force from the opposite pterygoid muscle

Question 320

CN X lesion

Answer 320

uvula deviates away from side of lesion

Question 321

CN XI lesion

Answer 321

weakness turning head to contralateral side of lesion

shoulder droop on side of lesion

Question 322

CN XII lesion

Answer 322

LMN lesion

tongue deviates toward side of lesion due to weakened tongue mm on affected side

“lick your wounds”

Question 323

Patient presents with facial paralysis affecting the contralateral side and only involves the lower fascial muscles. Forehead spared

Answer 323

UMN lesion

motor cortex, connection from motor cortex to facial nucleus in pons

Question 324

Patient presents with facial paralysis affecting the ipsilateral side and involves the upper and lower muscles of facial expression. The forehead is not spared and so the patient cannot wrinkle their forehead

Answer 324

LMN lesion

facial nucleus or anywhere along the CN 7

patient will present with incomplete eye closure resulting in dry eyes, corneal uclerations

hyperacusis,loss of taste sensation to anterior tongue