export_cranial nerves

Question 1

What are the six different modalities fibers may carry in cranial nerves

Answer 1

1. General somatic efferent - GSE
2. General visceral efferent - GVE
3. Special visceral efferent - SVE
4. General somatic afferent - GSA
5. General visceral afferent - GVA
6. Sensory afferent - SA

Question 2

Which cranial nerves carry GSE fibers

Answer 2

Cranial nerves 3, 4, 6, and 12.

Eyes and tongue

Question 3

Which cranial nerves carry GVE fibers

Answer 3

Cranial nerves 3, 7, 9, and 10

Question 4

Which cranial nerves carry SVE fibers

Answer 4

Provide motor innervation to the muscles derived from the branchial arches.

5, 7, 9, 10, and 11

Question 5

Which cranial nerves carry general somatic afferent fibers

Answer 5

Cranial nerves 5, 7, 9, and 10. They transmit visceral information but not pain.

Question 6

Which cranial nerves carry general visceral afferent fibers

Answer 6

Cranial nerves 9 and 10.

Question 7

Which cranial nerves carry sensory afferent fibers

Answer 7

Cranial nerves 1, 2, 7, 8, and 9

Question 8

The occulomotor nerve is associated with what ganglion

Answer 8

The ciliary ganglion (AUTONOMIC)

Question 9

The trigeminal nerve is associated with what ganglion

Answer 9

The trigeminal ganglion (SENSORY)

Question 10

The facial nerve is associated with what ganglion

Answer 10

1. Geniculate ganglion (SENSORY)
2. Pterygopalatine (AUTONOMIC)
3. Submandibular (AUTONOMIC)

Question 11

The vestibulocochlear nerve is associated with what ganglion

Answer 11

The spiral and vestibular ganglion (both SENSORY)

Question 12

The glossopharyngeal nerve is associated with what ganglion

Answer 12

The superior and inferior/petrosal ganglion (SENSORY)

The otic ganglion (AUTONOMIC)

Question 13

The vagus nerve is associated with what ganglion

Answer 13

The superior/jugular ganglion (SENSORY)
The inferior/nodose ganglion (SENSORY)

The prevertebral and intramural ganglia (AUTONOMIC)

Question 14

Features of the olfactory nerve

Answer 14

Sensory afferent nerve. Its primary neurons lie in the olfactory epithelium and function simultaneously as neurosecretory cells and sensory receptors. The primary neurons send bundles of axons across the cribiform plate to synapse with the secondary neurons - mitral and tufted cells - within the olfactory bulbs.

Question 15

Mitral cells project to the….

Answer 15

Lateral olfactory area

Question 16

Tufted cells project to the

Answer 16

Anterior olfactory nucleus (primarily)

Also the lateral, intermediate and medial olfactory areas.

Question 17

The primary/lateral olfactory area is composed of:

Answer 17

1. Uncus
2. Entorrhinal area - anterior portion of the hippocampal gyrus
3. Limen insula
4. Part of the amygdala

Question 18

What is the pyriform cortex

Answer 18

Three of the regions/areas which make up the primary/lateral olfactory area comprise the pyriform cortex:

1. Uncus
2. Entorrhinal area - anterior portion of the hippocampus
3. Limen insula - insular and frontal lobe junction

Question 19

The olfactory tract carries the axons of secondary olfactory neurons (mitral and tufted cells) to these three olfactory areas:

Answer 19

1. Primary/lateral olfactory area via the lateral olfactory stria
2. Anterior perforated substance/intermediate olfactory area via intermediate olfactory stria
3. Medial olfactory area/septal area via medial olfactory stria. This area mediates emotional response to odors.

Question 20

What connects the three olfactory areas

Answer 20

The diagonal band of Broca.

Question 21

Efferent fiber output from the olfactory area travels in the following bundles/tracts:

Answer 21

1. The medial forebrain bundle from all three olfactory areas to the hypothalamus
2. Stria medullaris thalami from all three olfactory areas to the habenular nucleus
3. Stria terminalis from the amygdala to the anterior hypothalamus and pre-optic area.

Question 22

The hypothalamus sends olfactory information to which three areas

Answer 22

1. Reticular formation
2. Salvitory nuclei
3. Dorsal motor nucleus of X - responsible for nausea, accelerated peristalsis and enhanced gastric secretions.

Question 23

Where is the anterior olfactory nucleus located, where does it receive its input and where does it project to?

Answer 23

1. Located between the olfactory bulb and tract
2. Receives input from the tufted cells
3. Projects to the contralateral olfactory bulb via the anterior commissure. It also projects to the ipsilateral olfactory areas.

Question 24

What are the primary and secondary neurons of the second cranial nerve

Answer 24

Cranial nerve II/optic - carries sensory afferent fibers.

Primary sensory neurons are bipolar cells of the retina and they synapse with the retinal ganglion cells (secondary neurons)

Question 25

What are the three types of retinal ganglion cells?

Answer 25

1. X cells
2. Y cells
3. W cells

Question 26

What are the features of the X-cells

Answer 26

Largest cell bodies of the three types of retinal ganglion cells.

They provide a tonic response to the pretectum and lateral geniculate body.
Their transmission rate is very slow.

Question 27

What are the features of the Y cells

Answer 27

They provide a phasic response to the lateral geniculate body and the superior colliculus.

Their transmission rate is rapid.

Question 28

What are the features of the W-cells

Answer 28

The smallest cell bodies of the retinal ganglion cells.

They provide tonic and phasic response to the superior colliculus and pretectum.

They have a very slow transmission rate.

Question 29

What is the general pathway of information carried via cranial nerve 2.

Answer 29

Bipolar retinal cells synpase with the retinal ganglion cells. The latter then send axons to the optic nerve –> optic canal –> optic chiasm –> optic tract –> projections.

Question 30

The optic tract projects information to the following areas:

Answer 30

1. Thalamic lateral geniculate body
   - which then sends tertiary neurons (optic radiations) to the primary visual cortex around the calcarine fissure.
2. Pretectal area - light reflex
3. Superior colliculus - eye movement reflexes
4. Suprachiasmatic nuclei - neuroendocrine/day night stuff

Question 31

General features of Meyer’s loop

Answer 31

Courses anteriorly toward the temporal pole before turning posteriorly.

Carries fibers/information which represents the contralateral superior visual quadrant.

Question 32

What is von Willebrand’s knee?

Answer 32

Contains fibers from the contralateral optic nerve which course into the other optic nerve before continuing down the optic tract.

Question 33

What fiber modalities are found in cranial nerve III/occulomotor

Answer 33

General somatic efferent and general visceral efferent.

GSE and GVE.

Question 34

Where is the occulomotor nuclear complex located and what are its three subnuclei

Answer 34

Occulomotor nuclear complex is found at the level of superior colliculus.

It has three subnuclei which supply individual muscles of the ocular region

1. Lateral - ipsilateral inferior rectus, inferior oblique, and medial rectus.
2. Medial - contralateral superior rectus
3. Central - bilateral levator palpebrae superioris

Question 35

What is the course of the GSE fibers in the third cranial nerve

Answer 35

Lower motor nerve axons travel through the tegmentum -> red nucleus -> medial aspect of the cerebral peduncles -> interpeduncular cistern.
From there they pass between the PCA and SCA -> oculomotor trigone in the posterior roof of the cavernous sinus -> superior orbital fissure -> anulus of Zinn -> orbit

Question 36

Describe the anatomy of the third cranial nerve as it enters the orbit.

Answer 36

The third cranial nerve divides into the superior and inferior divisions once it enters the orbit.

Question 37

Features of the superior division of the third cranial nerve

Answer 37

Ascends lateral to the optic nerve and supplies the superior rectus and levator palpebrae superioris

Question 38

Features of the inferior division of the third cranial nerve.

Answer 38

Supplies the inferior rectus, inferior oblique, and medial rectus muscles.

Parasympathetic fibers (GVEs) branch off of the inferior division of CN3 or off of the nerves which supply the inferior oblique and then enter the ciliary ganglion.

Question 39

Course of the general visceral efferent fibers within the third cranial nerve.

Answer 39

Originate from the Edinger-Westphal nucleus in the midbrain. They course in the dorsal and superficial aspect of the third nerve until they branch from the nerves that supply the inferior oblique and terminate in the ciliary ganglion.

Postganglionic fibers form the short ciliary nerves which travel with V1 anteriorly between the choroid and sclera to terminate in the ciliary body and iris

Question 40

What is the role of the GVE fibers of the third nerve

Answer 40

They innervate the pupillary constrictor muscles –> constriction

They innervate the ciliary muscles in order to faciliate lens bending for accommodation.

Question 41

What fiber modalities course through the 4th cranial nerve.

Answer 41

General somatic efferent (GSE)

Question 42

Course of the fibers which lie within the 4th cranial nerve.

Answer 42

Originate at the trochlear nucleus at the level of the inferior colliculus. Then crosses in the superior medullary velum of the midbrain, it then exits the contralateral side just below the inferior colliculus and courses around the peduncles emerging between the PCA and SCA with the 3rd cranial nerve. After this it travels within the lateral wall of the cavernous sinus through the superior orbital fissure and into the orbit ABOVE the annulus of Zinn.

Question 43

What does the fourth cranial nerve do

Answer 43

Innervates the superior oblique muscle.

Question 44

Special/unique features of the 4th cranial nerve

Answer 44

1. Only nerve to exit from the dorsum of the brainstem
2. Smallest cranial nerve
3. Longest intracranial course
4. The only cranial nerve in which all the LMN axons decussate
5. The only nerve to decussate outside the CNS.

Question 45

What fiber modalities run through the 5th cranial nerve?

Answer 45

Special visceral efferent and general somatic afferent.

SVE and GSA

Question 46

Where is the nucleus of 5 located and what are its subcomponents?

Answer 46

Motor nucleus

Sensory nucleus: three subnuclei

• Mesencephalic nucleus
• Chief sensory nucleus
• Spinal nucleus

Question 47

What is the role of the mesencephalic sensory nucleus of 5

Answer 47

Conveys proprioceptive information from the muscles of mastication.

Question 48

What is the role of the chief sensory nucleus of cranial nerve 5

Answer 48

Conveys light touch from the face

Question 49

What is the role of the spinal nucleus of 5

Answer 49

It conveys pain, temperature, and deep pressure information.

Question 50

Where does the trigeminal nerve exit the brainstem

Answer 50

Exits the brainstem at the midlateral surface of the pons as a large sensory root (portio major) and a smaller motor root (portio minor)

Question 51

Where is the sensory nucleus of 5 located and what are its nerve divisions

Answer 51

The sensory ganglion - aka the semilunar/gasserian/trigeminal ganglion lies in Meckel’s cave on the floor of the middle fossa.

V1, V2, and V3 which exit at the superior orbital fissure, foramen rotundum and the foramen ovale respectively. V1 fibers lie ventral and V3 fibers lie dorsal in the trigeminal nerve.

Question 52

What are the sensory branches of V1

Answer 52

1. Lacrimal
2. Frontal
3. Nasociliary w/ long and short ciliary nerves
4. Meningeal - dura of the anterior and middle cranial fossa

Question 53

What are the sensory branches of V2

Answer 53

1. Zygomatic
2. Infraorbital w/ superior alveolar nerves
3. Pterygopalatine
4. Meningeal - dura of the anterior and middle cranial fossa

Question 54

What are the branches of V3

Answer 54

1. Buccal
2. Auriculotemporal
3. Lingual
4. Inferior alveolar
5. Motor
6. Meningeal - dura of the anterior and middle cranial fossa

Question 55

Course of sympathetic fibers to the orbit.

Answer 55

The post-ganglionic fibers course along the ICA and then with the long and short ciliary nerves from V1 to the eye.

Question 56

What do the special visceral efferent branches from the motor nucleus of 5 supply

Answer 56

1. Muscles of mastication - Temporalis, masseter, medial and lateral pterygoids
2. Mylohyoid
3. Anterior belly of the digastric
4. Tensor tympani
5. Tensor veli palatini

The branches to the latter two pass through the otic ganglion without synapsing.

Question 57

What is the course of the GSA fibers of cranial nerve 5.

Answer 57

Fibers from V1-V3 enter the semilunar ganglion -> spinal trigeminal tract -> spinal trigeminal nucleus -> trigeminothalamic tracts -> thalamic VPM

Question 58

What sensory information courses in the ventral and dorsal trigeminothalamic tracts

Answer 58

Ventral trigeminothalamic tracts - pain, touch, and pressure - are crossed

Dorsal trigeminothalamic tracts - touch and pressure are uncrossed

Question 59

What are the general features of the spinal trigeminal nucleus

Answer 59

The spinal trigeminal nucleus extends from the pons to C2.
Rostrally it merges with the primary sensory nucleus of 5 and dorsally it merges with the substantia gelatinosa at C2.

It receives input from the 7th, 9th and 10th cranial nerves.

Question 60

What are the subcomponents of the spinal trigeminal nucleus

Answer 60

1. Pars oralis:
   - extends from the pons to the hypoglossal nucleus [nose and mouth]
2. Pars interpolaris: extends down to the obex [face]
3. Pars caudalis: extends down to C2 [forehead, jaw and cheek]

Question 61

What are the reflexes which involve the 5th cranial nerve

Answer 61

1. Bilateral blinking - corneal from V1 -> CN7
2. Elevation of the eyes (Bell’s phenomenon) - CN3
3. Tearing - V1 -> superior salivatory nucleus
4. Salivation - CN5 -> inferior salvitory nucleus
5. Sneezing - CN5 -> nucleus ambiguous -> respiratory center of the reticular formation -> phrenic nerves-> intercostal nerves
6. Vomiting CN 5-> X
7. Jaw jerk -> mesencephalic nucleus -> LMN of temporalis and masseter muscles

Question 62

What fiber modalities run in the 6th cranial nerves

Answer 62

General somatic efferent

Question 63

What is the course of the 6th cranial nerve

Answer 63

Originate from the abducens nucleus just ventral to the fourth ventricle in the pontine tegmentum. Course ventrally and emerge from the pontomedullary junction just lateral to the pyramid. The nerve travels over the petrous apex and enters the cavernous sinus via Dorello’s canal and enters the orbit at the medial end of the superior orbital fissure and then goes through the anulus of Zinn to innervate the lateral rectus muscle.

Question 64

The abducens nucleus is associated with what gaze center

Answer 64

The horizontal gaze center.
Motor fibers to the ipsilateral rectus muscle

+

Interneurons to the medial longitudinal fasciculus -> contralateral medial rectus.

Question 65

Where is the vertical gaze center located and how is it connected to the horizontal gaze center

Answer 65

It is located in the rostral interstitial nucleus of the medial longitudinal fasciculus.

The parapontine reticular formation connects the horizontal and vertical gaze centers.

Question 66

Input to the 6th cranial nerve

Answer 66

1. Medial vestibular nucleus
2. Parapontine reticular formation - PPRF
3. Reticular formation
4. Nucleus prepositus

Question 67

A lesion of the 6th cranial nerve causes:

Answer 67

Impaired ipsilateral lateral gaze

Question 68

A lesion to the abducens nucleus causes:

Answer 68

Impaired ipsilateral gaze of both eyes.

Question 69

What fiber modalities run in the 7th cranial nerve

Answer 69

SVE

GVE

GSA

SVA

Question 70

Course of the special visceral efferent fibers of the 7th nerve from the nucleus to the brainsteam

Answer 70

Originate from the facial motor nucleus in the pontine tegmentum and sends axons dorsally which wrap around the nucleus of 6 forming the facial colliculus. It then travels ventrally to emerge from the pontomedullary junction between cranial nerves 6 and 8.

Question 71

Course of the special visceral efferent fibers of the 7th nerve once its exits the brainstem at the pontomedullary junction.

Answer 71

Travels with CN8 through the internal acoustic meatus to the petrous temporal bone and travels in the facial canal between the cochlea and vestibular organs. N erve to the stapedius arises first above the stylomastoid foramen. The branchial branches then exit the facial canal at the stylomastoid foramen - where they innervate the stylohyoid, posterior belly of the digastric and occipitalis. The rest travel in the parotid innervate the muscles of facial expression, platysma and buccinator

Question 72

The GVE, GSA and SVA fibers travel in what portion of the facial nerve

Answer 72

Nervus intermedius.

This portion of CN 7 exits the brainstem lateral to the major portion of CN 7, medial to CN 8.

Question 73

The GVE fibers of the seventh cranial nerve originate from what nucleus

Answer 73

The superior salivatory nucleus.

Question 74

What two branches of the facial nerve carry the GVE fibers

Answer 74

1. Greater superficial petrosal nerve

2. Chorda tympani

Question 75

Features and course of the greater superficial petrosal nerve.

Answer 75

The GSPN exits the petrous temporal bone via the greater petrosal foramen to the middle fossa and passes deep to the trigeminal ganglion and down the foramen lacerum to the pterygoid canal where it joins the deep petrosal nerve (ICA sympathetics) to form the nerve of the pterygoid canal –> pterygopalatine ganglion (suspended by V2) –> lacrimal gland.

Question 76

Features and course of the chorda tympani

Answer 76

The chorda tympani exits the petrotympanic fissure to join the lingual branch of V3 under the foramen ovale. It then enters Submandibular nerve (suspended from the lingual nerve) and then goes on to innervate the sublingual gland.

Question 77

Features of the GSA fibers of the 7th cranial nerve

Answer 77

Sensory receptors from the external auditory meatus and the back of the ear —> geniculate ganglion at the facial genu in the petrous bone –> spinal trigeminal tract

Question 78

Features of the special visceral afferent/SVA fibers which course in the seventh cranial nerve

Answer 78

Sensory receptors from the anterior 2/3 of the tongue which then travel in the chorda tympani –> enter the geniculate ganglion and end in the rostral nucleus solitarius.

Question 79

What are the branches of the 7th cranial nerve

Answer 79

1. Greater superficial petrosal nerve
2. Nerve to the stapedius
3. Chorda tympani
4. Motor branches -> temporal, zygomatic, buccal, mandibular, and cervical.

Question 80

Upper motor neuron lesions to the seventh cranial nerve produce:

Answer 80

Contralateral lower face paresis

Emotional or mimetic innervation to the face can occur after a corticobulbar lesion

Question 81

Lesions to the LMN of CN 7 produce:

Answer 81

Paresis to the ipsilateral lower face, decreased sensation and taste, impaired salivation and lacrimation and hyperacusis.

Question 82

What fiber modalities run in the 8th cranial nerves

Answer 82

Special somatic afferent. SSA

Question 83

What is the course of the SSA fibers in the 8th cranial nerve

Answer 83

Hearing is detected in the organ of Corti which sends fibers(1) -> spiral ganglion -> cochlear nerve -> cochlear nuclei sends axons (2) -> ventral/intermediate/dorsal striae -> lateral lemniscus -> inferior colliculus (3) -> medial geniculate body(4) -> temporal lobe Heschl’s convolutions(5) .

(Order neurons)

Question 84

The cochlear nucleus has what type or organization

Answer 84

Tonotopic:

The ventral cochlear nucleus: low frequencies

The dorsal cochlear nucleus: high frequencies.

Question 85

What are the acoustic reflexes which are involved in the suppression of auditory input.

Answer 85

Superior olivary complex to both motor CN 8 nuclei to the stapedius muscles. Decrease the amplitude of sound waves by decreasing the movement of ossicles.

Superior olivary complex to CN 5 nuclei -> tensor tympani muscles. Decrease the sensitivity of the tympanic membrane by pulling it taut.

Question 86

What are the vestibular nuclei

Answer 86

1. Lateral/Deiter’s nucleus
2. Medial
3. Superior
4. Inferior

Question 87

Features of the lateral vestibular/Dieter’s nucleus

Answer 87

Sends fibers/axons to the ipsilateral lateral vestibulospinal tract which go on to innervate the antigravity extensors.

Question 88

Which vestibular nuclei have reciprocal connections with the cerebellum

Answer 88

The medial and inferior vestibular nuclei

Question 89

Which vestibular nuclei give rise to the medial vestibulospinal tract

Answer 89

The medial, inferior and superior vestibular nuclei.

The medial vestibulospinal tract then descends bilaterally to the cervical segments of the spinal cord.

Question 90

The descending medial longitudinal fasciculus continues as the…..

Answer 90

medial vestibulospinal tract which projects to the cervical LMN

Question 91

The utricle sends fibers to the

Answer 91

Lateral vestibular nucleus via the superior vestibular ganglion

Question 92

The saccule sends fibers to the

Answer 92

Inferior vestibular nucleus via the inferior vestibular ganglion.

Question 93

The superior vestibular nucleus does what:

Answer 93

Coordinates head/eye movements

Question 94

The medial vestibular nucleus does what:

Answer 94

Coordinates eye with head movements.

Question 95

Lesions to the lateral lemniscus produce

Answer 95

Contralateral deafness

Question 96

Lesions to the vestibular nuclei produce

Answer 96

Equilibrium, vertigo and nystagmus

Question 97

Unilateral lesions to the MLF produce

Answer 97

Weakness of the ipsilateral lateral rectus, contralateral nystagmus, and normal convergence.

Question 98

Bilateral lesions to the MLF produce

Answer 98

Internuclear opthalmoplegia - no eye adduction.

Question 99

Pathway of the glossopharyngeal nerve

Answer 99

CN 9 leaves the medulla between the olive and the inferior cerebellar peduncle. It sends off a tympanic branch prior to exiting the skull via the jugular foramen anterior to CN 10 and 11 and then performates the dura and arachnoid to form the superior and inferior glossopharyngeal ganglia.

Question 100

What fiber modalities run in the 9th cranial nerve.

Answer 100

1. General somatic afferent
2. General visceral afferent
3. Special visceral afferent
4. General visceral efferent
5. Special visceral efferent.

Question 101

CN 9 provides GSA sensation to:

Answer 101

1. Back of the ear
2. Inner surface of the tympanic membrane
3. Posterior 1/3 of the tongue
4. Upper pharynx-> superior ganglion->spinal trigeminal nucleus.

Question 102

What is Hering’s nerve

Answer 102

Its a branch of the 9th CN from the carotid body and sinus.

Question 103

Course/role of the GVA fibers of the 9th cranial nerves. (Carotid body/Sinus)

Answer 103

Fibers from the carotid body/sinus go to the inferior/petrosal ganglion and from there to the caudal nucleus solitarius and then the reticular formation hypothalamus.

Question 104

Course/role of the SVA fibers of the 9th cranial nerves. (Taste)

Answer 104

Taste buds from the posterior 1/3 of the tongue, posterior pharynx and eustachian tube all go to the petrosal ganglion and then the rostral nucleus solitarius which ascend in the central tegmental tract and go to the contralateral thalamic VPM.

Question 105

The efferent portion of the carotid sinus reflex is mediated by:

Answer 105

The 10th cranial nerve. CN 9 mediates the afferent portion.

Baroreceptors at the carotid bifurcation sense increases in blood pressure->CN9-> nucleus solitarius-> dorsal nucleus of 10-> decrease in blood pressure and heart rate.

Question 106

Role of GVE fibers of the 9th cranial nerve

Answer 106

Parotid salivation is controlled by GVE fibers of CN9. Fibers from the inferior salivatory nucleus travel in CN9 via the tympanic/Jacobson’s nerve to the lesser petrosal nerve after which they synpase in the otic ganglion and travel with the auriculotemporal nerve (V3) to the parotid gland.

Question 107

Role of the SVE fibers of CN9.

Answer 107

Innervation of the stylopharyngeus muscle and part of the superior pharyngeal constrictor. These fibers originate in the rostral nucleus ambiguous.

Question 108

What are the consequences of a glossopharyngeal nerve injury.

Answer 108

Difficult to detect in isolation.
CN 9 injury leads to a decreased gag reflex, sinus reflex, and taste.

Glossopharyngeal neuralgia leads to pain behind the ear or in the mouth, and is often precipitated by swallowing and coughing.

Question 109

General pathway of the vagus/CN10 nerve

Answer 109

The vagus nerve leaves the medulla between the olive and inferior cerebellar peduncle and exits via the jugular foramen.

Question 110

What are the fiber modalities which run in the vagus nerve/CN 10.

Answer 110

GSA.
GVA.

SVA.

GVE.

SVA.

Question 111

Role of the GSA fibers in the 10th cranial nerve.

Answer 111

1. Sensation from the ear, external auditory meatus, and external surface of the tympanic membrane travel in the auricular branch/Arnold’s nerve.
2. Sensation from the posterior fossa dura -> superior ganglion of CN10-> spinal trigeminal tract.
3. Sensation from the larynx and pharynx -> inferior ganglion of 10 -> trigeminal spinal nucleus and tract.

Question 112

What does the recurrent laryngeal supply

Answer 112

1. Vocal cords

2. Subglottis

Question 113

What does the inferior laryngeal supply

Answer 113

Larynx above the vocal folds.

It pierces the thyrohyoid membrane and unites with the external laryngeal nerve to form the superior laryngeal nerve.

Question 114

Role of the GVA and SVA fibers of CN 10

Answer 114

Sensation of the pharynx, larynx, trachea, lungs, heart, esophagus, stomach, and thoracoabdominal viscera down to the splenic flexure. (GVA)
Aortic arch baroreceptors, aortic body chemoreceptors, and taste sensation in the epiglottis.

These fibers go to the inferior ganglion of 10 and then the tract solitarius.

Question 115

What comprises the medullary respiratory center

Answer 115

1. Nucleus ambiguous
2. Nucleus solitarius
3. Reticular formation

This area responds to vagal input and CO2 accumulation.

Question 116

Role of GVE fibers in CN 10.

Answer 116

Dorsal motor nucleus of 10-> vagus-> thorax and abdomen where it branches into the right and left vagus nerves to innervate the abdominal viscera up to the splenic flexure.

Question 117

The dorsal motor nucleus of 10 receives input from:

Answer 117

1. Hypothalamus
2. Olfactory system
3. Reticular formation
4. Solitary nucleus

Question 118

Role of the SVE fibers in CN 10.

Answer 118

Innervate the pharyngeal constrictor muscles and the internal muscles of the larynx.

Question 119

What are the three branches of the vagus nerve in the neck

Answer 119

1. Pharyngeal branch
2. Laryngeal nerve
3. Cervical cardiac branches

Question 120

Role of the pharyngeal branch of CN 10.

Answer 120

Innervates all muscles of the pharynx and soft palate except the stylopharyngeus and tensor veli palatini.

Question 121

Role of the laryngeal branch of CN 10

Answer 121

Superior laryngeal nerve divides into the internal and external laryngeal nerves. The external branch supplies the inferior constrictor, cricothyroid, pharyngeal plexus and superior cardiac nerve.

Recurrent laryngeal nerve supplies the intrinsic laryngeal muscles except the cricothyroid.

Question 122

Course of the cervical cardiac branches

Answer 122

1. Right sided - travel behind the subclavian artery -> deep cardiac plexus.
2. Left sided - travel with the trachea to the deep cardiac plexus. Also travels with the arch of the aorta and supplies the superficial cardiac plexus.

Question 123

Features of unilateral CN 10 injury

Answer 123

1. Hoarseness
2. Dysphagia
3. Dyspnea
4. Uvular deviation to the normal side
5. Ipsilateral decreased cough reflex
6. Ipsilateral decreased carotid sinus reflex.

Question 124

Features of bilateral CN 10 injury

Answer 124

1. Asphyxia
2. Dysphagia
3. Dysarthria
4. Paralysis of the esophagus and stomach with pain and emesis
5. Tachycardia.

Question 125

Cranial portion of CN 11.

Answer 125

Contains SVE fibers and arises from the nucleus ambiguous and joins with CN 10 and forms the recurrent laryngeal nerve.

Question 126

Motor cortex fibers of CN 11.

Answer 126

Rootlets exit from between the ventral and dorsal roots of C1-C6 as rootlets and ascend posterior to the dentate ligament to enter the foramen magnum and join CN 10, following which it foes on the innervate the SCM and upper trap.

Question 127

Pathway of CN 12.

Answer 127

Hypoglossal nucleus lies at the floor of the 4th ventricle beneath the hypoglossal trigone. The nerve exits the medulla between the inferior olive and the pyramid. It travels through the hypoglossal foramen and innervates intrinsic muscles of the tongue and all the extrinsic muscles of the tongue except the palatoglossus (CN X). Geniglossus, styloglossus and hypoglossus (CN XII)