03a: Brainstem

Question 1

(X) cerebellar peduncle only transmits (input/output) to cerebellum.

Answer 1

X = middle;

Input

Question 2

Output from cerebellum primarily via (X) peduncle(s).

Answer 2

X = superior cerebellar

Question 3

Input from cerebellum primarily via (X) peduncle(s).

Answer 3

X = middle and inferior cerebellar

Question 4

The brainstem is a rostral continuation of (X) once (X) passes which landmark?

Answer 4

X = SC

Passes through foramen magnum

Question 5

Tuberculum gracilis/cuneatus are found in which part(s) of (SC/Brainstem)?

Answer 5

Brainstem;

Caudal medulla

Question 6

Tuberculum gracilis/cuneatus correspond to (1/2/3)-order (nuclei/axons) of DCML.

Answer 6

(Contain) 2nd order nuclei of DCML

Question 7

A cross-section through (X) part of brainstem would show the inferior cerebellar peduncles.

Answer 7

Rostral medulla

Question 8

List the tracts that run through the cerebral peduncles.

Answer 8

1. Corticobulbar
2. Corticospinal
3. Corticopontine

Question 9

T/F: The superior cerebellar peduncle only carries output from cerebellum.

Answer 9

False - ventral spinocerebellar tract

Question 10

Pain signals from body synapse on which thalamic nucleus?

Answer 10

VPL

Question 11

Sensory signals from body synapse on which thalamic nucleus?

Answer 11

VPL

Question 12

Pain signals from face synapse on which thalamic nucleus?

Answer 12

VPM

Question 13

Optic tract fibers synapse on which thalamic nucleus?

Answer 13

LGN (lateral geniculate)

Question 14

Auditory fibers from (X) structure terminate on (Y) thalamic nucleus.

Answer 14

X = inferior colliculus;
Y = MGN

Question 15

Cerebral cortex sends axons to cerebellum via (X) tract that first terminates on (ipsi/contra)lateral (Y).

Answer 15

X = corticopontine
Ipsilateral;
Y = Pontine nuclei

Question 16

Pontine nuclei involved in transmission of information from (X) to (Y) via (Z) tract.

Answer 16

X = cerebral cortex;
Y = cerebellum;
Z = pontocerebellar tract

Question 17

R cerebral cortex sends information to (R/L) cerebellum.

Answer 17

L

Question 18

Cortex to cerebellum: Decussation of (X) fibers occurs following synapse on (Y).

Answer 18

X = pontocerebellar;
Y = pontine nuclei

Question 19

Output of cerebellum arises from (X) nuclei.

Answer 19

X = deep cerebellar

Question 20

Where are the deep cerebellar nuclei located?

Answer 20

In cerebellar white matter, located on roof of fourth ventricle

Question 21

Deep cerebellar nuclei send axons out via (X) to which (ipsi/contra)lateral location(s)?

Answer 21

X = superior cerebellar peduncle

Contralateral;

1. Red nucleus
2. VL nucleus of thalamus

Question 22

Red nucleus gives rise to (X) descending tract. This tract plays role in (ipsi/contra)lateral (Y).

Answer 22

X = rubrospinal;
Contralateral;
Y = muscle control

Question 23

Aside from (X) descending tract, red nucleus contributes axons to (Y) tract. (Y) tract synapses on (Z).

Answer 23

X = rubrospinal;
Y = central tegmental;
Z = inferior olivary nucleus (olive)

Question 24

Inferior olivary nucleus receives axons from (X) tract and it then projects to (ipsi/contra)lateral (Y) via (Z).

Answer 24

X = central tegmental;
Contralateral;
Y = cerebellum;
Z = ICP

Question 25

The majority of (X) structure is classified as the reticular formation.

Answer 25

X = tegmentum

Question 26

T/F: The reticular formation consists of the interneurons of the brainstem.

Answer 26

True

Question 27

Pontine reticular formation (rostral pons) contains (X) structure, which produces fibers containing (Y) NT.

Answer 27

X = locus coeruleus;
Y = NE

Question 28

Raphe nuclei produce:

Answer 28

Serotonergic fibers

Question 29

List the key efferent projections of reticular formation.

Answer 29

1. Intrinsic Brainstem Integration
2. Descending reticulospinal motor/reflex control
3. Descending reticulospinal autonomic control
4. Descending monoamine nociceptive processing control
5. Ascending monoamine forebrain excitability control
6. Ascending cholinergic forebrain excitability control

Question 30

Control over nociceptive processing via (X) structure involves which NT?

Answer 30

X = reticular formation;

Serotonin

Question 31

Sleep/wake cycle control is specific (afferent/efferent) function of (X) structure?

Answer 31

Efferent;
X = reticular formation;

Both Ascending (1) monoamine and (2) cholinergic control of forebrain excitability

Question 32

List afferent inputs to reticular formation.

Answer 32

1. Somatic/visceral (from SC and brainstem)
2. Cerebellar/vestibular
3. Corticospinal/corticobulbar collaterals
4. Hypothalamus/diencephalon inputs

Question 33

Ascending monoamine projections from reticular formation act as (X) for functions of (Y) structure.

Answer 33

X = neuromodulators;
Y = forebrain

Question 34

Descending monoamine projections from reticular formation go to:

Answer 34

Cerebellum and SC

Question 35

List the major ascending/descending monoamine NT-specific nuclei of reticular formation. Include the NT belonging to each.

Answer 35

1. Substantia nigra and ventral tegmental nucleus (DA)
2. Dorsal and median raphe (serotonin)
3. Locus coeruleus (NE)

Question 36

T/F: Dorsal raphe produces NT that goes to SC.

Answer 36

True

Question 37

T/F: Ventral tegmental nucleus produces NT that goes to cerebellum.

Answer 37

False - (DA) only to forebrain

Question 38

T/F: Locus coeruleus produces NT that goes to forebrain, SC, and cerebellum.

Answer 38

True

Question 39

“Reticular activating system” involves (X) NT projections from which nuclei?

Answer 39

X = ascending ACh;

1. Pedunculopontine tegmental
2. Parabrachial
3. Laterodorsal tegmental

Question 40

Raphespinal pathway, originating from (X) structure, terminates in (Y) and are primarily involved in (Z).

Answer 40

X = raphe nuclei (reticular formation)
Y = dorsal horn of SC
Z = pain modulation

Question 41

Medullary reticular formation primarily known as being center for (X) and the final common pathway for (Y).

Answer 41

X = motor organization;
Y = all basic autonomic functions

Question 42

Dopaminergic neurons coming from (X) regions of reticular formation have axons that project to:

Answer 42

X = substantia nigra and VTA;

1. Cerebral cortex
2. Basal ganglia

Question 43

(X) nuclei are midline brainstem nuclei that contain (Y) NT.

Answer 43

X = raphe;
Y = serotonin

Question 44

Periaqueductal gray has neurons containing (X). It receives information regarding (Y) from (Z) tract.

Answer 44

X = enkephalin
Y = pain
Z = spinomesencephalic tract (of ALS)

Question 45

Seeing a tract wrap around (X) peduncles makes you think it’s which CN? Where is it going?

Answer 45

X = cerebral;
CN II (optic tract);
Superior colliculus

Question 46

CN II immediately projects to which brain structure(s)?

Answer 46

1. Thalamus (then cortex)

2. Superior colliculus

Question 47

CN II can be seen in cross section of (X) structure.

Answer 47

X = rostral midbrain

Question 48

The deep layers of the (X) communicate to head/neck muscles via (Y) tract. This allows for reflexive orienting to visual stimulus.

Answer 48

X = Superior colliculus
Y = tectospinal

Question 49

The (X) structure indirectly communicates with CN (Y) via (Z). This allows for reflexive orienting to visual stimulus.

Answer 49

X = superior colliculus
Y = 3, 4, 6
Z = gaze center nuclei

Question 50

The gaze center for horizontal movements.

Answer 50

PPRF (paramedian pontine reticular formation)

Question 51

The gaze center for vertical movements.

Answer 51

In midbrain…

Question 52

CN (X) fibers are found in the interpeduncular fossa.

Answer 52

X = 3

Question 53

You’d see the oculomotor nuclei in a cross-section of (X) and (rostral/caudal/lateral/medial) (Y) CSF-filled channel.

Answer 53

X = midbrain
rostral;
Y = cerebral aqueduct

Question 54

(Sympathetic/parasympathetic) nucleus of CN III located immediately (rostral/caudal/lateral/medial) to motor nucleus. What’s it formally called?

Answer 54

Parasympathetic;
caudal;
Edinger-Westphal nucleus

Question 55

Location of CN (X) is associated with the inferior colliculus.

Answer 55

X = 4

Question 56

CN (X) indents a tract called (Y) and emits fibers that travel dorsally and caudally.

Answer 56

X = 4;
Y = medial longitudinal fasciculus

Question 57

Upon emerging from dorsal brainstem, caudal to (X) structure, CN (Y) travels to innervate (ipsi/contra)lateral (Z).

Answer 57

X = inferior colliculus;
Y = 4
Contralateral;
Z = superior oblique muscle

Question 58

You’d see the trochlear nucleus in a cross-section of (X) and (rostral/caudal/lateral/medial) (Y) CSF-filled channel.

Answer 58

X = midbrain;
rostral;
Y = cerebral aqueduct

Question 59

MLF located (rostral/caudal/lateral/medial) to its associated CN (X) nucleus.

Answer 59

Rostral;

X = 4

Question 60

T/F: You can’t see the MLF and the fourth ventricle in the same cross-section.

Answer 60

False - directly rostral to fourth ventricle and caudal to pons

Question 61

Analog for SC in the head (based on functions).

Answer 61

Trigeminal system

Question 62

(X) muscles controlled by trigeminal nerve fibers that arise from (Y) nucleus.

Answer 62

X = mastication
Y = motor nucleus of V

Question 63

Fine touch/P sensation to face: first order neuron has nucleus in (X). Fibers enter/travel in (Y) structure to synapse onto (Z) nucleus.

Answer 63

X = DRG
Y = pons (lateral)
Z = chief sensory nucleus of V

Question 64

Fine touch/P sensation fibers from face synapse on (X) nucleus that’s (rostral/caudal/medial/lateral) to (Y) nucleus of V.

Answer 64

X = chief sensory nucleus of V
Lateral;
Y = motor

Question 65

Fine touch/P sensation to face: third-order neurons located in (ipsi/contra)lateral (X).

Answer 65

Contralateral

X = VPM nucleus of thalamus

Question 66

(Sensory/motor) tracts related to trigeminal nerve decussate after emerging from (X) nucleus.

Answer 66

Sensory;

X = chief sensory nucleus of V AND spinal nucleus of V

Question 67

Pain sensation to face: third-order neurons located in (ipsi/contra)lateral (X).

Answer 67

Contralateral;

X = VPM

Question 68

(X) nucleus of CN V extends from pons, through medulla, to cervical SC. Where does its morphology change?

Answer 68

X = Spinal nucleus and track of V

In caudal medulla

Question 69

Spinal nucleus of V is extension of (X) of SC.

Answer 69

X = dorsal horn gray (substantia gelatinosa and nucleus proprius)

Question 70

DRG for (X) is strangely located within the brainstem. Specifically in which nucleus?

Answer 70

X = muscles sense from muscles of mastication;

Mesencephalic nucleus of V

Question 71

Mesencephalic nucleus of V is located (above/below) chief and motor nuclei of V.

Answer 71

Above (in midbrain)

Question 72

Analog of Clarke’s Column/external cuneate nucleus for mastication is (X). (X) receives muscle spindle info from (Y) and relays it to (Z).

Answer 72

X = spinal nucleus of V
Y = mesencephalic nucleus of V
Z = cerebellum

Question 73

Mesencephalic nucleus of V contains neurons involved in (sensory/motor).

Answer 73

Both!

Question 74

Mesencephalic nucleus of V sends information to:

Answer 74

1. Motor nucleus of V

2. Spinal nucleus of V

Question 75

Output from (X) to (Y) responsible for myotatic reflexes in muscles of mastication.

Answer 75

X = mesencephalic nucleus of V
Y = motor nucleus of V

Question 76

List the CN nerves (from medial to lateral) that emerge from ponto-medullary junction.

Answer 76

6, 7, 8

Question 77

Facial nucleus is (rostral/caudal/adjacent) to Abducens nucleus and (medial/lateral) to (X) CN nucleus.

Answer 77

Rostral;
Medial;
X = spinal nucleus of V

Question 78

High pressure in fourth ventricle tends to affect which CN? This is due to pressure on (X), a hill produced in its fibers loop over (Y).

Answer 78

CN VII;
X = facial colliculus
Y = Abducens nucleus

Question 79

Nucleus ambiguus, aka (X), is involved in (afferents/efferents) for which CN?

Answer 79

X = ventral motor nucleus of vagus;

Voluntary efferent (motor);
CN 9 and 10

Question 80

Inferior salivatory nucleus is involved in (afferents/efferents) for which CN?

Answer 80

Efferents (parasympathetic) for CN 9

Question 81

Dorsal motor nucleus of vagus is involved in (afferents/efferents) for which CN?

Answer 81

Efferents (parasympathetic) for CN 10

Question 82

Which CN nucleus located immediately caudal to medullary olive?

Answer 82

Nucleus ambiguus

Question 83

Dorsal motor nucleus of vagus located (rostral/caudal/adjacent) to nucleus ambiguus.

Answer 83

Caudal

Question 84

Nucleus of solitary tract is (motor/sensory) nucleus.

Answer 84

Sensory (taste and visceral input)

Question 85

Rostral part of nucleus of solitary tract receives (X) fibers of which CN?

Answer 85

X = taste;

CN VII, IX, X

Question 86

Caudal part of nucleus of solitary tract receives (X) fibers of which CN?

Answer 86

X = general visceral sensory;

CN IX, X, XI

Question 87

The nucleus of solitary tract is where, wrt solitary tract?

Answer 87

Surrounds it

Question 88

First order neurons of solitary tract located in:

Answer 88

Peripheral sensory ganglia of CN VII, IX, X

Question 89

Second order neurons of solitary tract located in:

Answer 89

Nucleus of solitary tract

Question 90

Second order neurons of solitary tract project to:

Answer 90

1. VPM thalamus
2. Parabrachial nucleus
3. Dorsal motor nucleus of Vagus

Question 91

Nucleus of solitary tract project to (X) via (Y). This signal regarding (Z) eventually reaches consciousness.

Answer 91

X = VPM thalamus;
Y = central tegmental tract
Z = taste

Question 92

Nucleus of solitary tract project to (X) via (Y). This circuit contributes to autonomic/visceral responses to (Z).

Answer 92

X = parabrachial nucleus (then hypothalamus and amygdala)
Y = central tegmental tract;
Z = taste

Question 93

Nucleus of solitary tract project locally to (X), located (rostral/caudal/medial/lateral), for (Y) functions.

Answer 93

X = dorsal motor nucleus of vagus
Medial/caudal;
Y = autonomic and reflex responses

Question 94

Corticobulbar fibers travel in (X) peduncle, (medial/lateral) to corticospinal fibers.

Answer 94

X = cerebral;

Medial

Question 95

(X) tract projects to non-CN nuclei to control subcorticospinal pathways. List these nuclei.

Answer 95

X = corticobulbar;

1. Superior colliculus
2. Red nucleus
3. Reticular formation

Question 96

Cortex controls cranial nerves via (X), which projects directly to which CN nuclei?

Answer 96

X = corticobulbar tract;

1. Motor nucleus of V (5)
2. Facial nucleus (7)
3. Vestibular nuclei (8)
4. Hypoglossal nucleus (12)

Question 97

Cortex controls cranial nerves via (X), which projects indirectly, via (Y), to which CN nuclei?

Answer 97

X = corticobulbar tract;
Y = horizontal and vertical gaze centers;

CN III, IV, VI