Brainstem B&B

Question 1

if you are looking at a cross-section of the brainstem and you do NOT see the 4th ventricles, which section are you looking at?

Answer 1

midbrain - cerebral aqueduct will be there instead (small circle)

remember CSF runs through cerebral aqueduct to 4th ventricle below

Question 2

what anatomical structure can be used to orient yourself in the medulla of the brainstem (as opposed to midbrain or pons)?

Answer 2

inferior olivary nucleus - on the anterior lateral corners

only source of climbing fibers to the Purkinje cells in the cerebellum

Question 3

what information does the medial lemniscus carry?

Answer 3

proprioception and vibration - connected to posterior columns of spinal cord

Question 4

what is the function of the red nucleus in the midbrain?

Answer 4

fine tuning of movements

lesion —> tremor, ataxia

Question 5

what is carried by the cerebral peduncle of the midbrain?

Answer 5

carries corticospinal and corticobulbar tracts - motor fibers

damage to this area —> UMN paralysis of face and lower extremities

Question 6

what is the function of the medial longitudinal fasciculus (MLF) in the midbrain? where is it found?

Answer 6

small structure found in the middle, anterior to cerebral aqueduct

links oculomotor, trochlear, and abducent eye nerves

lesion —> problems with lateral gaze

Question 7

Benedikt Syndrome

Answer 7

damage to the centrolateral region of the midbrain, lesioning:
1. CN3 —> oculomotor palsy
2. medial lemniscus —> contralateral loss of prop/vibr
3. red nucleus —> tremor, ataxia

Question 8

what 3 structures are damaged in Benedikt Syndrome, and what associated symptoms does this cause?

Answer 8

damage to the centrolateral region of the midbrain, lesioning:
1. CN3 —> oculomotor palsy
2. medial lemniscus —> contralateral loss of prop/vibr
3. red nucleus —> tremor, ataxia

Question 9

what region of the brainstem is affected when there is loss of CN3, the medial lemniscus, and the red nucleus?

Answer 9

midbrain - describing Benedikt Syndrome

damage to the centrolateral region of the midbrain, lesioning:
1. CN3 —> oculomotor palsy
2. medial lemniscus —> contralateral loss of prop/vibr
3. red nucleus —> tremor, ataxia

Question 10

Pt presents with oculomotor palsy, contralateral loss of proprioception and vibration, and tremor + ataxia. Where is the lesion, and what is this syndrome called?

Answer 10

Benedikt syndrome: damage to the centrolateral region of the midbrain, lesioning:
1. CN3 —> oculomotor palsy
2. medial lemniscus —> contralateral loss of prop/vibr
3. red nucleus —> tremor, ataxia

Question 11

Weber’s Syndrome

Answer 11

damage to anteriolateral portion of midbrain, lesion to:
1. CN3 —> oculomotor palsy
2. corticospinal tract —> contralateral hemiparesis
3. corticobulbar tract —> pseudobulbar palsy (UMN CN motor weakness - exaggerated gag reflex, tongue spasticity, spastic dysarthria)

Question 12

what 3 structures are damaged in Weber’s Syndrome, and what associated symptoms does this cause?

Answer 12

damage to anteriolateral portion of midbrain, lesion to:
1. CN3 —> oculomotor palsy
2. corticospinal tract —> contralateral hemiparesis
3. corticobulbar tract —> pseudobulbar palsy (UMN CN motor weakness - exaggerated gag reflex, tongue spasticity, spastic dysarthria)

Question 13

what region of the brainstem is damaged when there is loss of CN3, corticospinal tract, and corticobulbar tract?

Answer 13

Weber’s Syndrome: damage to anteriolateral portion of midbrain, lesion to:
1. CN3 —> oculomotor palsy
2. corticospinal tract —> contralateral hemiparesis
3. corticobulbar tract —> pseudobulbar palsy (UMN CN motor weakness - exaggerated gag reflex, tongue spasticity, spastic dysarthria)

Question 14

Pt presents with oculomotor palsy, contralateral hemiparesis, and pseudobulbar palsy. Where is the lesion, and what is this syndrome called?

Answer 14

Weber’s syndrome: damage to anteriolateral portion of midbrain, lesion to:
1. CN3 —> oculomotor palsy
2. corticospinal tract —> contralateral hemiparesis
3. corticobulbar tract —> pseudobulbar palsy (UMN CN motor weakness - exaggerated gag reflex, tongue spasticity, spastic dysarthria)

Question 15

Parinaud’s Syndrome

Answer 15

damage to posterior midbrain, lesion to superior colliculus and pretectal area

—> vertical gaze palsy + pseudo Argyll Robertson pupil

often from pinealoma/germinoma of pineal region - watch for cerebral aqueduct obstruction (non-communicating hydrocephalus)

Question 16

what region of the brainstem is affected by Parinaud’s syndrome, and what symptoms does this cause?

Answer 16

damage to posterior midbrain, lesion to superior colliculus and pretectal area

—> vertical gaze palsy (rare - specific) + pseudo Argyll Robertson pupil

often from pinealoma/germinoma of pineal region - watch for cerebral aqueduct obstruction (non-communicating hydrocephalus)

Question 17

what are the 2 cases in which you would observe an Argyll Robertson pupil in a patient?

Answer 17

pupil does not respond to light, but will constrict to follow finger to nose

most often associated with tertiary syphilis, but may also rarely see it with Parinaud’s Syndrome (damage to posterior midbrain - superior colliculi)

Question 18

patient with vertical gaze palsy =

Answer 18

Parinaud’s Syndrome: damage to posterior midbrain, lesion to superior colliculus and pretectal area

—> vertical gaze palsy (rare, specific) + pseudo Argyll Robertson pupil

Question 19

what is the usual cause of Parinaud’s Syndrome, and why is this clinically relevant?

Answer 19

damage to posterior midbrain, lesion to superior colliculus and pretectal area

—> vertical gaze palsy + pseudo Argyll Robertson pupil

often from pinealoma/germinoma of pineal region - watch for cerebral aqueduct obstruction (non-communicating hydrocephalus)

Question 20

which 4 cranial nerves exit from the pons? what symptoms would accompany lesions of each?

Answer 20

1. CN VIII (8), Vestibular nerve —> N/V, vertigo, nystagmus
2. CN VII (7), Facial nerve —> facial droop, loss of corneal reflex
3. CN VI (6), Abducens —> problem with lateral gaze
4. CN V (5), spinal tract/nucleus of trigeminal —> loss of pain/temp in face

Question 21

which nerve wraps around CN VI (abducens) and exits laterally from the pons?

Answer 21

CN VII, Facial nerve

Question 22

what nerve provides pain and temperature sensation from the face? be specific

Answer 22

spinal tract and nucleus of the trigeminal nerve (CN V)

exits from the pons

Question 23

what 3 structures located in the pons are needed for lateral gaze?

Answer 23

1. MLF (medial longitudinal fasciculus)
2. PPRF (paramedian pontine reticular formation)
3. CN VI, abducens nerve

Question 24

how will medial pontine syndromes present? (3)

Answer 24

damage to
1. corticospinal tract —> contralateral hemiparesis
2. CN VI (abducens) + MLF + PPRF —> lateral gaze palsy (can’t look towards affected side)
3. CN VII (facial) —> ipsilateral facial droop

Question 25

how will lateral pontine syndromes present? (5)

Answer 25

damage to
1. CN VIII (Vestibulocochlear) —> nystagmus, vertigo, N/V + deafness
2. spinothalamic tract —> contralateral loss of pain/temp
3. spinal CN V (trigeminal) nucleus —> ipsilateral loss of facial pain/temp
4. sympathetic tract —> Horner’s syndrome
5. CN VII (facial) —> ipsilateral facial droop, loss of corneal reflex

Question 26

what is the usual cause of a lateral pontine syndrome?

Answer 26

AICA (anterior inferior cerebellar artery) stroke

damage to
1. CN VIII (Vestibulocochlear) —> nystagmus, vertigo, N/V + deafness
2. spinothalamic tract —> contralateral loss of pain/temp
3. spinal CN V (trigeminal) nucleus —> ipsilateral loss of facial pain/temp
4. sympathetic tract —> Horner’s syndrome
5. CN VII (facial) —> ipsilateral facial droop, loss of corneal reflex

Question 27

what is the function of the nucleus solitarius and dorsal motor nucleus X in the medulla?

Answer 27

receives autonomic sensory information and sends out efferents via vagus nerve (CN X)

Question 28

what is the function of the nucleus ambiguous of the medulla?

Answer 28

shared motor nucleus of CN IX, X, XI

“ambiguous” because it cell bodies of all 3!

Question 29

what is contained in the medullary pyramids?

Answer 29

corticospinal tracts

this is why loss of corticospinal tract is often referred to as “pyramidal dysfunction”

Question 30

what is carried by the hypothalamospinal tract in the medulla?

Answer 30

sympathetic nerve fibers from the thalamus

lesion —> Horner’s syndrome

Question 31

which cranial nerves are seen in a cross-section of the medulla? (4)

Answer 31

1. CN V - spinal nucleus/tract of trigeminal
2. CN VIII - vestibular
3. CN X - vagus
4. CN XII - hypoglossal

Question 32

what symptoms are associated with medial medullary syndrome? (3)

Answer 32

1. corticospinal tract —> contralateral hemiparesis
2. medial lemniscus —> contralateral loss of prop/vibr
3. CN XII (hypoglossal) —> flaccid paralysis tongue, deviating towards lesion (“licking the lesion”)

Question 33

what type of stroke (location) would cause a medial medullary syndrome?

Answer 33

anterior spinal artery stroke

1. corticospinal tract —> contralateral hemiparesis
2. medial lemniscus —> contralateral loss of prop/vibr
3. CN XII (hypoglossal) —> flaccid paralysis tongue, deviating towards lesion (“licking the lesion”)

Question 34

Pt presents to the ED with muscle weakness and loss of sensation on their right side. The tongue is noted to deviate towards the left. Where is the stroke?

Answer 34

anterior spinal artery stroke —> medial medullary syndrome

1. corticospinal tract —> contralateral hemiparesis
2. medial lemniscus —> contralateral loss of prop/vibr
3. CN XII (hypoglossal) —> flaccid paralysis tongue, deviating towards lesion (“licking the lesion”)

Question 35

what symptoms are associated with lateral medullary syndrome, aka Wallenberg’s Syndrome? (5)

Answer 35

1. CN VIII —> nystagmus, vertigo, N/V
2. sympathetic tract —> ipsilateral Horner’s
3. spinothalamic tract —> contralateral loss of pain/temp
4. CN V spinal nucleus —> ipsilateral loss of facial pain/temp
5. nucleus ambiguus (CN IX, X) —> hoarseness, dysphagia - helps differentiate from lateral pontine syndrome

Question 36

Wallenberg Syndrome

Answer 36

aka lateral medullary syndrome

1. CN VIII —> nystagmus, vertigo, N/V
2. sympathetic tract —> ipsilateral Horner’s
3. spinothalamic tract —> contralateral loss of pain/temp
4. CN V spinal nucleus —> ipsilateral loss of facial pain/temp
5. nucleus ambiguus (CN IX, X) —> hoarseness, dysphagia - helps differentiate from lateral pontine syndrome

Question 37

how can lateral medullary syndrome be differentiated from lateral pontine syndrome?

Answer 37

lateral pontine: CN VIII, spinothalamic, CN V spinal nucleus, sympathetic tract, CN VII (facial droop)

lateral medullary syndrome: CN VIII, sympathetic tract, spinothalamic tract, CN V spinal nucleus, nucleus ambiguus (CN IX, X - hoarseness and dysphagia)

Question 38

what is the usual cause of lateral medullary syndrome, aka Wallenberg’s Syndrome?

Answer 38

PICA (posterior inferior cerebellar artery) stroke

1. CN VIII —> nystagmus, vertigo, N/V
2. sympathetic tract —> ipsilateral Horner’s
3. spinothalamic tract —> contralateral loss of pain/temp
4. CN V spinal nucleus —> ipsilateral loss of facial pain/temp
5. nucleus ambiguus (CN IX, X) —> hoarseness, dysphagia - helps differentiate from lateral pontine syndrome

Question 39

Pt presents to ED with contralateral loss of sensation to the body, ipsilateral loss of sensation to the face, vertigo, and hoarseness. Where is the stroke?

Answer 39

PICA (posterior inferior cerebellar artery) stroke —> lateral medullary syndrome, aka Wallenberg’s syndrome

1. CN VIII —> nystagmus, vertigo, N/V
2. sympathetic tract —> ipsilateral Horner’s
3. spinothalamic tract —> contralateral loss of pain/temp
4. CN V spinal nucleus —> ipsilateral loss of facial pain/temp
5. nucleus ambiguus (CN IX, X) —> hoarseness, dysphagia - helps differentiate from lateral pontine syndrome

Question 40

what is the rule of 4’s for determining the location of brainstem vascular syndromes?

Answer 40

4 CNs in the medulla, pons, and above the pons

4 CNs divide into 12, and these are all found in the midline - CN III (3), IV (4), VI (4), and XII (12)

4 CNs do NOT divide into 12, and these are all lateral - CN V (5), VII (7), IX (9), and XI (11)

4 Midline columns start with M - Motor nucleus, Motor pathway, MLF, Medial lemniscus

4 lateral (Side) columns start with S - Sympathetic, Spinothalamic, Sensory, Spinocerebellar

Question 41

which 4 cranial nerves are above the pons and can be used to localize a lesion to the brain stem using the rule of 4’s?

Answer 41

CN1 (olfactory) and CN2 (optic) - not in midbrain

occulomotor (CN3) —> eye turned out and down

trochlear (CN4) —> eye unable to look down when looking towards nose

Question 42

which 4 cranial nerves are in the pons and can be used to localize a lesion to the brain stem using the rule of 4’s?

Answer 42

trigeminal (CN5) —> ipsilateral facial sensory loss … don’t use to localize to pons (long, stretches through pons and medulla), but use to localize to lateral tract

abducens (CN6) —> ipsilateral eye abduction (lateral) weakness

facial (CN7) —> ipsilateral facial weakness/ droop

auditory (CN8) —> ipsilateral deafness (don’t use vestibular symptoms, bc these can be from pons or medulla)

Question 43

which 4 cranial nerves are in the medulla and can be used to localize a lesion to the brain stem using the rule of 4’s?

Answer 43

glossopharyngeal (CN9) —> ipsilateral pharyngeal sensory loss

vagus (CN10) —> ipsilateral palatal weakness

spinal accessory (CN11) —> ipsilateral shoulder weakness

hypoglossal (CN12) —> ipsilateral tongue weakness

Question 44

what are the symptoms to look out for in a midline structure brainstem lesion, based off the rule of 4’s?

Answer 44

structures that are Midline:

Motor pathway (corticospinal) —> contralateral weakness

Medial lemniscus —> contralateral loss of prop/vibr

Medial longitudinal fasciculus —> ipsilateral intranuclear opthalmaplegia

Motor nucleus/nerve —> ipsilateral CN motor loss of those dividable by 12 (CN 3, 4, 6, 12)

Question 45

what are the symptoms to look out for in a lateral structure brainstem lesion, based off the rule of 4’s?

Answer 45

structures that are on the Side:

Spinocerebellar pathway —> ipsilateral ataxia

Spinothalamic —> contralateral loss of pain/temp

Sensory nucleus of CN5 —> ipsilateral loss of facial pain/temp

Sympathetic pathway —> ipsilateral Horner’s syndrome

Question 46

where is the lesion?
- weakness of left side
- no speech difficulty
- facial muscles move normally
- no opthalmoplegia
- tongue deviated towards the right
- loss of vibration on left side

[hint, use rule of 4’s!]

Answer 46

Midline tract lesion bc of loss of Movement pathway (corticospinal) and Medial lemniscus (vibr/prop)

hypoglossal (CN12) lesion (tongue) - must be right sided because tongue licks the lesion

… so lesion is in right medial medulla
This would be caused by stroke of anterior spinal artery

Question 47

strokes of which arteries are responsible for lateral vs medial symptoms at the level of the midbrain, pons, and medulla?

Answer 47

midbrain: lateral & medial both supplied by posterior cerebral artery (PCA)

pons: lateral supplied by AICA (anterior inferior cerebral artery); medial supplied by basilar

medulla: lateral supplied by PICA (posterior inferior cerebral artery); medial supplied by ASA (anterior spinal artery)

Question 48

if there is a facial nerve (CN VII) lesion, where is the stroke most likely?

Answer 48

CN VII is in the lateral pons - supplied by AICA (anterior inferior cerebral artery)

Question 49

if there is an abducens nerve (CN VI) lesion, where is the stroke most likely?

Answer 49

CN VI is in medial pons - supplied by basilar artery

Question 50

if there is an oculomotor nerve (CN III) lesion, where is the stroke most likely?

Answer 50

CN III is in medial midbrain - supplied by PCA (posterior cerebral artery)

[note PCA supplies both medial and lateral midbrain]

Question 51

if there is a hypoglossal nerve (CN XII) lesion, where is the stroke most likely?

Answer 51

CN XII is in medial medulla - supplied by ASA (anterior spinal artery)

Question 52

if there is an accessory nerve (CN XI) lesion, where is the stroke most likely?

Answer 52

CN XI is in lateral medulla - supplied by PICA (posterior inferior cerebral artery)

Question 53

hemiplegia + CN III palsy =

Answer 53

Weber’s syndrome: stroke of branches of PCA (posterior cerebral artery)

Medial (Movement - corticospinal) midbrain (CNIII) lesion

Question 54

where is the lesion?
- unable to complete left handed finger to nose test
- left eyelid droop, small pupil
- loss of pain/temp in right side
- hoarse voice
- loss of gag reflex in left throat
- palate raised on right side

Answer 54

• unable to complete left handed finger to nose test = left ataxia (spinocerebellar)
• left eyelid droop, small pupil = left CN V
• loss of pain/temp in right side = left Horner’s (sympathetic)
• hoarse voice = CN X
• loss of gag reflex in left throat = CN IX
• palate raised on right side = CN X

Sympathetic is on the Side, and CN IX, X are in medulla

… so lesion is in left lateral medulla, caused by stroke in left PICA = Wallenberg’s syndrome

Question 55

where is the lesion?
- R deafness/tinnitus
- loss of R finger to nose
- R facial numbness
- no corneal reflex
- R facial spasms

Answer 55

• R deafness/tinnitus = CN VIII
• loss of R finger to nose = spinocerebellar
• R facial numbness = sensory
• no corneal reflex = CN V
• R facial spasms = CN VII

Spinocerebellar is on the Side, and hearing loss from CN VIII is in pons + CN VII is in pons
… so lesion is in right lateral pons = cerebellopontine angle syndrome, often caused by tumors (schwannomas)

Question 56

which cranial nerves are found at the level of the midbrain, pons, and medulla, respectively?

Answer 56

midbrain: CN III, IV

pons: CN V, VI, VII, VIII

medulla: CN IX, X, XI, XII

Question 57

what are the general functions carried out by the midbrain, pons, and medulla, respectively?

Answer 57

midbrain: projections to cortex (significant for movement and reward) + visual reflexes, motor control

pons: large pathway into cerebellum + related nuclei (balance, sound localization, eye movement, coordination)

medulla: regulation of physiological homeostasis (HR, respiration, vasomotor tone, gastric secretions) + related reflexes (vomiting, coughing, sneezing, swallowing, gagging)

Question 58

what is the function of the rostral vs caudal part of the brainstem reticular formation?

Answer 58

reticular formation: net-like structure through entire core of brainstem, contains nuclei + projections to cortex controlling autonomic function/reflexes

rostral (reticular activating system) part (upper pons, midbrain) - controls alertness and consciousness

caudal part - controls cranial nerve and spinal motor and autonomic functions

Question 59

lesions to the _____ of the brainstem lead to changes in consciousness, coma, delirium, lethargy, stupor, and/or obtundation

this area contains projections controlling attention, arousal, sleep, and wakefulness

Answer 59

reticular activating system (rostral part of brainstem reticular formation)

Question 60

where/how does the placement of the medial lemniscus pathway shift?

Answer 60

shifts from medial to lateral climbing from caudal to rostral pons

Question 61

Claude Syndrome affects what part of the brainstem? (specifically)

Answer 61

lesion to red nucleus in the midbrain —> contralateral tremor and ataxia

Question 62

Benedikt Syndrome = _____ syndrome + _____ syndrome

explain

Answer 62

Benedikt Syndrome = Weber syndrome + Claude syndrome

Weber syndrome: lesion to CN III, corticospinal + corticobulbar tracts

Claude syndrome: lesion to Red nucleus

Question 63

what are the 3 distinct processes of consciousness, and what brain structures control each of these?

Answer 63

Consciousness consists of three distinct processes:
1. Alertness – depends on Ascending Reticular Activating System
2. Attention – depends on monoamines, especially norepinephrine
3. Awareness – depends on cerebral cortex

Question 64

locked-in syndrome is caused by a lesion in which part of the brainstem?

Answer 64

locked-in syndrome is caused by a pontine lesion, loss of:

—> corticospinal and corticobulbar
—> PPRF and CN VI (loss of horizontal eye movement)

vertical eye movements can be spared