H&N 3 NERVES PDF

Summary

This document is a lecture on human anatomy, specifically focusing on the trigeminal, facial, and autonomic nerves of the head. It details the anatomical course, divisions, and functions of these nerves. The lecture is presented in 2023-2024 format.

Full Transcript

 Human Anatomy
Lecture 3
Trigeminal nerve ,Facial nerve& Autonomic
Nerves of the Head
By
Assistant professor
Dr. Hatem A Hatem
2023-2024
 Trigeminal nerve
Learning objectives:
Trigeminal nerve:
1. Anatomical Course.
2. Divisions.
3. Functions.
 Trigeminal nerve
Fifth paired ,mixed & Largest cranial
nerve.
✓ Sensory: 3 terminal branches
innervate skin, mucous membranes
and sinuses of face.
✓ Motor: Only mandibular branch has
motor fibres. It innervates muscles
of mastication, anterior belly of
digastric, tensor veli palatini and
tensor tympani.
✓ Parasympathetic Supply: Post-
ganglionic neurones of
parasympathetic ganglia travel with
branches of trigeminal nerve.
❖ Anatomical Course:
Trigeminal nerve originates from
three sensory nuclei (Mesencephalic,
Principal sensory, Spinal nuclei of
trigeminal nerve) and one motor
nucleus extending from midbrain to
medulla..
Supratrigeminal nucleus embedded
in upper pole of motor nucleus acts as
a pattern generator for masticatory
rhythm.
At level of pons, sensory nuclei
merge to form a sensory root. The
motor nucleus continues to form a
motor root.

1975 mixed nerves
1973 autonomic
nerves
 In middle cranial fossa; sensory root expands into trigeminal
ganglion.
Tri. ganglion located lateral to cavernous sinus, in a depression of
temporal bone known as trigeminal cave.
Trigeminal ganglion gives rise to 3 divisions: ophthalmic (V1),
maxillary (V2) and mandibular (V3).
 Motor root passes inferiorly to sensory root, along floor of
trigeminal cave. Its fibres only distributed to mandibular division.
Ophthalmic nerve and maxillary nerve travel lateral to cavernous
sinus exiting cranium via superior orbital fissure and foramen
rotundum respectively.
Mandibular nerve exits via foramen ovale entering infra-temporal
fossa.
Ophthalmic Nerve:
After arising from trigeminal
ganglion, It travels laterally to
cavernous sinus and gives rise
to recurrent tentorial
branch (which supplies tentorium
cerebelli).
Nerve then then exits cranium via
superior orbital fissure, where it
divides into 3 branches:
Frontal nerve
Lacrimal nerve
Nasociliary nerve
Nerve Branches Innervation

Frontal (largest of three Supraorbital Upper eyelid and conjunctiva
terminal branches of Scalp
CNV1) Supratrochlear Upper eyelid and conjunctiva
Forehead
Lacrimal (smallest of Receives branch from zygomatic nerve of Sensory innervation of lacrimal gland,
three terminal CNV2 containing parasympathetic fibers upper eyelid and conjunctiva
branches of CNV1) Contains parasympathetic fibers to
lacrimal gland.

Nasociliary Anterior ethmoid nerve Sensory innervation of mucous
membranes of frontal, ethmoid and
sphenoid sinuses.
Nasal cavity
Posterior ethmoid nerve Absent in approximately 30% of people
Sensory innervation to mucous
membranes of sphenoid sinus

Infratrochlear nerve Bridge of nose Upper eyelid and
conjunctiva
Long ciliary nerves Sensory innervation to eye (cornea, ciliary
bodies, iris)
Contains sympathetic fibers to dilator
pupillae muscle.
Note: Short ciliary nerves
Are part ofparasympathetic and sympathetic nervous systems, arising from
ciliary ganglion.
Located between the optic nerve and the lateral rectus muscle in the orbit.
There are usually 6 to 10 short ciliary nerves.
They travel from ciliary ganglion and pass through sclera of eye near optic
nerve, then move towards ciliary body and iris.
Components:
❑ Parasympathetic fibers: These come from oculomotor nerve (CN III) via ciliary
ganglion. They control the sphincter pupillae, responsible for constricting the
pupil (pupillary light reflex).
❑ Sympathetic fibers: These come from the superior cervical ganglion and are
responsible for controlling the dilator pupillae, which dilates the pupil.
❑ Sensory fibers: These originate from the nasociliary branch of the ophthalmic
nerve (CN V1), providing sensory innervation to the cornea, ciliary body, and iris.
Short ciliary nerves are not a
branches of ophthalmic nerve
 Mapping Cutaneous Innervation
cutaneous innervation of CNV1 can seen in image below:
Sensory Function
Ophthalmic nerve provides sensory
innervation to the following structures:
1. Forehead and scalp.
2. Frontal, ethmoid and sphenoid sinuses.
3. Upper eyelid and its conjunctiva.
4. Cornea.
5. Dorsum of the nose.
6. Lacrimal gland.
7. Parts of meninges and tentorium
cerebelli (recurrent tentorial branch).
Autonomic Functions
❑ Ophthalmic nerve itself does not
contain any autonomic fibers.
❑ Nerves from sympathetic and
parasympathetic system ‘hitchhike’ on
CNV1:
Sympathetic fibers (from superior
cervical ganglion) hitchhike ‘on
branches of nasociliary nerve (long
ciliary nerves) to reach dilator pupillae
in eye.
Parasympathetic fibers (from
pterygopalatine ganglion) hitchhike
along zygomatic branch of maxillary
nerve (CNV2) and then lacrimal branch
of ophthalmic nerve (CNV1) to reach
lacrimal gland.
Lacrimal branch itself provides sensory
innervation to lacrimal gland.
Maxillary nerve
Second branch of trigeminal nerve. Sensory supply to mid third of face.
Anatomical Course:
After arising from trigeminal ganglion, maxillary nerve passes through lateral wall
of cavernous sinus, before leaving skull through foramen rotundum. It gives rise to
sensory branches:
1. Superior alveolar nerve (anterior, posterior and middle)
2. Middle meningeal nerve
3. Infraorbital nerve
4. Zygomatic nerve(Zygomaticofacial & Zygomatictemporal)
5. Inferior palpebral nerve, Superior labial nerve & nasal nerve.
6. Pharyngeal nerve
7. Greater and lesser palatine nerves
8. Nasopalatine nerve
 Sensory Function
Maxillary nerve’s terminal branches innervate :
1. Lower eyelid and its conjunctiva.
2. Inferior posterior portion of nasal cavity (superior anterior is CNV1).
3. Cheeks and maxillary sinus.
4. Lateral nose.
5. Upper lip, teeth and gingiva.
6. Superior palate.
Parasympathetic Function
Post ganglionic fibers from pterygopalatine ganglion (derived from
facial nerve) travel with maxillary nerve to:
Lacrimal gland.
Nasal glands.
 Mandibular nerve
Has a sensory role, parasympathetic fibers of other cranial nerves.
unlike other branches, has a motor function.
Anatomical Course
Mandibular nerve contains both sensory and motor axons.
Motor root runs along floor of trigeminal cave, beneath ganglion,
joining sensory root before leaving cranium through foramen ovale.
Anatomical Course
Once mandibular has emerged from cranium, it courses
through infratemporal fossa, branching into 4 tributaries
Auriculotemporal Nerve.
Buccal Nerve.
Inferior Alveolar Nerve.
Lingual Nerve.
Auriculotemporal Nerve
Arises as 2 roots:
Superior root –sensory fibers.
Inferior root –parasympathetic fibers,
originating from CN IX, to parotid gland.
2 roots converge in close proximity to
middle meningeal artery.
After converging, secretory-motor fibers
run to synapse in otic ganglion, while
sensory fibers pass through ganglion
without synapsing to eventually
innervate:
1. Anterior part of auricle
2. Lateral part of temple.
3. Anterior external meatus.
 Buccal Nerve
Contains sensory fibers.
As it emerges from mandibular nerve, it passes between two heads
of lateral pterygoid muscle before heading to its target sites.
Nerve provides general sensory innervation to buccal
membranes of mouth (i.e. cheek), second and third molar teeth,
which is important when performing dental work on those
structures.
Inferior Alveolar Nerve
Carries both sensory and motor.
After branching, it gives rise
to mylohyoid nerve, a motor
nerve to mylohyoid and anterior
digastric muscles.
Remaining sensory enter
mandibular canal.
Within this canal, nerve provides
branches to mandibular teeth.
Nerve emerges through mental
foramen as mental nerve.
This provides sensory
innervation to lower lip and chin.
Lingual Nerve
Carries general sensory &special sensory and autonomic fibers belonging to
chorda tympani.
General sensory fibers innervate anterior two-thirds of tongue.
Special sensory fibers carry on with lingual nerve to provide taste to
anterior two-thirds of tongue.
Autonomic fibers branch to synapse in submandibular ganglion, eventually
innervating submandibular and sublingual glands.
Sensory Functions
The sensory fibers associated with mandibular branch of CN V
provide innervation to:
1. Facial skin in lower third of face, including chin and lower lip
2. Inferior row of teeth and gingiva.
3. Anterior two thirds of tongue.
Motor Functions
The motor root supply muscles of mastication :
1. Masseter
2. Medial and lateral pterygoids
3. Temporalis
In addition to :
1. Tensor tympani.
2. Tensor veli palatini.
3. Anterior belly of digastric.
4. Mylohyoid.
 Autonomic Functions
Trigeminal nerve does not have an
autonomic nucleus and, as such, does not
give rise to any autonomic axons directly.
However, all three branches of CN V take on
autonomic fibers of other cranial nerves.
Mandibular nerve is associated with
parasympathetic secretory-motor fibers
from two other cranial nerves.7,9
Parasympathetic Supply:
Lacrimal gland: Post ganglionic
fibres from pterygopalatine
ganglion (derived from facial
nerve), travel with zygomatic
branch of V2 and then join lacrimal
branch of V1.
B. Parasympathetic Supply:
Nasal glands: Parasympathetic
fibres are carried to mucous
glands of nasal mucosa. Post-
ganglionic fibres travel with
nasopalatine and greater palatine
nerves (branches of V2).
C. Parasympathetic Supply:
Submandibular and Sublingual
glands: Post-ganglionic fibres from
submandibular ganglion (derived
from facial nerve), travel with
lingual nerve to innervate these
glands.
Parotid gland: Post-
ganglionic fibres from otic
ganglion ganglion (derived
from glossopharyngeal
nerve, CN IX), travel with
auriculotemporal branch
of V3 to innervate parotid
gland.
 Facial nerve
Learning objectives:
Facial nerve :
1. Anatomical Course.
2. Branches.
3. Functions.
Facial nerve (CN VII) is the seventh paired
mixed cranial nerve.
Overview
Motor – muscles of facial expression,
posterior belly of digastric, stylohyoid and
stapedius muscles.
Sensory – a small area around concha of
external ear.
Special Sensory – provides special taste
sensation to anterior 2/3 of tongue via chorda
tympani
Parasympathetic – supplies many of glands
of head and neck, including:
Submandibular and sublingual salivary
glands.
Nasal, palatine and pharyngeal mucous
glands.
Lacrimal glands.
Anatomical Course
Course of facial nerve is very complex.
There are many branches, which
transmit a combination of sensory, motor
and parasympathetic fibers.
Anatomically, course of facial nerve can
be divided into two parts:
Intracranial – the course of nerve
through cranial cavity, and cranium itself.
Extracranial –course of nerve outside
cranium, through face and neck.
Intracranial
Facial nerve arises in pons, an area of
brainstem.
It begins as two roots; a large motor root,
and a small sensory root (part of facial
nerve that arises from sensory root is
known as intermediate nerve). https://teachmeanatomy.info/wp-content/uploads/Schematic

Two roots travel through internal acoustic
meatus, a 1cm long opening in petrous
part of temporal bone. Here, they are in
very close proximity to inner ear.
Intracranial
Still within temporal bone, roots
leave internal acoustic meatus,
and enter into facial canal.
Facial canal is a ‘Z’ shaped
structure. Within facial canal,
three important events occur:
Firstly two roots fuse to form t facial
nerve.
Next, nerve forms geniculate
ganglion.
Intracranial
Lastly, nerve gives rise to:
Greater petrosal nerve –
parasympathetic fibers to mucous
glands and lacrimal gland.
Nerve to stapedius – motor fibers
to stapedius muscle of middle ear.
Chorda tympani – special sensory
fibers to anterior 2/3 tongue and
parasympathetic fibers to
submandibular and sublingual
glands.
Intracranial
Facial nerve then exits facial canal
(and cranium) via stylomastoid
foramen(located just posterior to
styloid process of temporal bone).
Extracranial
After exiting skull, facial nerve turns superiorly
to run just anterior to outer ear.
The first extracranial branch to arise is posterior
auricular nerve. It provides motor innervation to
some of muscles around ear.
Immediately distal to this, motor branches are
sent to posterior belly of digastric muscle and
to stylohyoid muscle.
Extracranial
The main trunk of nerve, now termed motor
root of facial nerve, continues anteriorly and
inferiorly into parotid gland (note –facial nerve
does not contribute towards innervation of
parotid gland, which is innervated by
glossopharyngeal nerve ).
Extracranial
Within parotid gland, nerve terminates
by splitting into five branches:
1. Temporal branch.
2. Zygomatic branch.
3. Buccal branch.
4. Marginal mandibular branch.
5. Cervical branch.
These branches are responsible for
innervating muscles of facial
expression.
Motor Functions
The first motor branch arises within facial canal; nerve
to stapedius. nerve passes through pyramidal
eminence to supply stapedius muscle in middle ear.
Between stylomastoid foramen, and parotid gland,
three more motor branches are given off:
Posterior auricular nerve – Ascends in front of
mastoid process, and innervates intrinsic and extrinsic
muscles of outer ear. It also supplies occipital part of
occipitofrontalis muscle.
Motor Functions
Nerve to posterior belly of digastric muscle –
Innervates posterior belly of digastric muscle
(a suprahyoid muscle of neck). It is responsible for
raising hyoid bone.
Nerve to stylohyoid muscle – Innervates stylohyoid
muscle (a suprahyoid muscle of neck). It is responsible
for raising hyoid bone.
Motor Functions
Within parotid gland, facial nerve
terminates by bifurcating into five
motor branches. These innervate
muscles of facial expression:
Temporal – Innervates frontalis,
orbicularis oculi and corrugator
supercilii.
Zygomatic – Innervates
orbicularis oculi.
Buccal – Innervates orbicularis
oris, buccinator and zygomaticus.
Marginal mandibular –
Innervates depressor
labiiinferioris, depressor angulioris
and mentalis.
Cervical – Innervates platysma.
Special Sensory Functions
The chorda tympani branch of facial
nerve is responsible for
innervating anterior 2/3 of tongue with
special sense of taste.
Nerve arises in facial canal, and travels
across bones of middle ear, exiting via
petrotympanic fissure, and entering
infratemporal fossa. Here, chorda
tympani ‘hitchhikes’ with lingual nerve.
Parasympathetic fibers of chorda
tympani stay with lingual nerve, but main
body of nerve leaves to innervate
anterior 2/3 of tongue.
Parasympathetic Functions
Parasympathetic fibers of facial nerve are carried by greater
petrosal and chorda tympani branches.
Greater Petrosal Nerve
Arises immediately distal to geniculate ganglion within facial
canal. It then moves in anteromedial direction, exiting temporal
bone into middle cranial fossa. From here, its travels across (but
not through) foramen lacerum, combining with deep petrosal
nerve to form nerve of pterygoid canal.
Parasympathetic Functions
The nerve of pterygoid canal then
passes through pterygoid canal
(Vidian canal) to enter
pterygopalatine fossa, and
synapses with pterygopalatine
ganglion.
Branches from this ganglion then
go on to provide parasympathetic
innervations to mucous glands of
oral cavity, nose and pharynx, and
lacrimal gland.
Parasympathetic Functions
Parasympathetic fibers of facial
nerve are carried by greater
petrosal and chorda
tympani branches.

Chorda Tympani
Chorda tympani also carries
some parasympathetic fibers. https://teachmeanatomy.info/wp-content/uploads/The-Submandibular-Ganglio

These combine with lingual
nerve (a branch of trigeminal
nerve) in infratemporal
fossa and form submandibular
ganglion.
Branches from this ganglion travel
to submandibular and
sublingual salivary glands.
Clinical Relevance: Damage to Facial Nerve
Damage to facial nerve, depending on site of lesion.
Intracranial Lesions
Intracranial lesions occur during intracranial course of facial nerve
(proximal to stylomastoid foramen).
Muscles of facial expression will be paralyzed or severely
weakened.Other symptoms produced depend on location of lesion,
and branches that are affected:
Chorda tympani – reduced salivation and loss of taste on ipsilateral
2/3 of tongue.
Nerve to stapedius – ipsilateral hyperacusis (hypersensitive to sound).
Greater petrosal nerve – ipsilateral reduced lacrimal fluid production.
The most common cause of an intracranial lesion of facial nerve is
infection related to external or middle ear. If no definitive cause can be
found, the disease is termed Bell’s palsy.
Fig 1.4 - Right sided weakness of the muscles of facial expression, due to facial nerve
paralysis.
Extracranial Lesions:
Extracranial lesions occur during extracranial course of
facial nerve (distal to stylomastoid foramen).
Only motor function of facial nerve is affected,
therefore resulting in paralysis or severe weakness of
muscles of facial expression.
There are various causes of extracranial lesions of facial
nerve:
Parotid gland pathology – e.g a tumour, parotitis,
surgery.
Infection of the nerve – particularly by herpes virus.
Compression during forceps delivery – the neonatal
mastoid process is not fully developed and does not
provide complete protection of nerve.
Idiopathic – If no definitive cause can be found then
disease is termed Bell’s palsy.
Objectives of this lecture:

Parasympathetic nervous system
1. Anatomical Course and Structure
1.1 Ciliary Ganglion
1.2 Pterygopalatine Ganglion
1.3 Submandibular Ganglion
1.4 Otic Ganglion.
Sympathetic nervous system
Contents
1. Anatomical Structure and Course
1.1 Superior Cervical Ganglion
1.2 Middle Cervical Ganglion
1.3 Inferior Cervical Ganglion
Parasympathetic nervous
system(PNS)
Is a division of autonomic
nervous system.
It is involuntary acts with
sympathetic system to
maintain body
homeostasis.
Actions of PNS are
associated with ‘rest and
digest’ response.
Anatomical Course and Structure
parasympathetic fibers(PF) begin in CNS.
Nerves supplying H&N situated within
4 nuclei, located within brainstem.
Each nucleus is associated with a cranial
nerve (3, 7, 9 and 10) These nerves carry PF
out of brain.
After leaving brain, PF from each nuclei
synapse in a peripheral ganglion.
These ganglia are located near to target
viscera.
From ganglia, post-ganglionic PF continue
to organs in H&N, providing
parasympathetic innervation.
Anatomical Course and Structure
There are four parasympathetic ganglia
located within head &N (ciliary, otic,
pterygopalatine and submandibular.
They receive fibers from oculomotor,
facial and glossopharyngeal nerves (vagus
nerve only innervates structures in thorax
and abdomen).
Ciliary Ganglion
Located within bony orbit, situated
anteriorly to superior orbital fissure,
between lateral rectus muscle and
optic nerve.
Pre-ganglionic fibers: fibers from
Edinger-Westphal nucleus (associated
with oculomotor nerve) supply ciliary
ganglion.
Post-ganglionic fibers: PF leave
ganglion via short ciliary nerves.
Target Organs: pupillae (contracts
pupil) and ciliary muscles
(accommodates for near vision).
 In addition, two sets of nerve fibers pass
through ciliary ganglion without synapsing:
Sympathetic nerves from internal carotid
plexus – innervate dilator pupillae muscle
Sensory fibers from nasociliary nerve (a
branch of ophthalmic division of trigeminal
nerve) – innervate cornea, ciliary body and
iris.
Pterygopalatine Ganglion (sphenopalatine)
Largest of four parasympathetic ganglia
located within pterygopalatine fossa.
Pre-ganglionic fibers: fibers from
superior salivatory nucleus (associated
with facial nerve). fibers travel within
greater petrosal nerve and nerve of
pterygoid canal to reach ganglion.
Post-ganglionic fibers: PF leave ganglion
by hitchhiking on branches of maxillary
nerve ( from trigeminal nerve).
Target organs: lacrimal gland, mucous
glands of posterosuperior nasal cavity,
nasopharynx, and palate.
Sympathetic fibers from internal carotid plexus and
sensory branches from maxillary nerve pass
through pterygopalatine ganglion without
synapsing.
Submandibular ganglion
Located inferiorly to lingual nerve,
from which it is suspended.
Pre-ganglionic fibers: from
superior salivatory nucleus
(associated with facial nerve).
carried within chorda tympani.
This nerve hitchhikes along lingual
branch of mandibular nerve to
reach ganglion.
Submandibular ganglion
Post-ganglionic fibers: travel
directly to submandibular and
sublingual glands.
Target Organs: submandibular and
sublingual glands.
Sympathetic fibers from facial
artery plexus pass through
submandibular ganglion. They
thought to innervate glands in base
of oral cavity.
Otic Ganglion:
Located inferiorly to foramen ovale,
within infratemporal fossa. It is medial to
mandibular branch of trigeminal nerve.
Pre-ganglionic fibers: fibers from
inferior salivatory nucleus (associated
with glossopharyngeal nerve) supply
ganglion. Parasympathetic fibers travel
within a branch of glossopharyngeal
nerve, lesser petrosal nerve, to reach
otic ganglion.
Otic Ganglion
Post-ganglionic fibers: PF hitchhike
along auriculotemporal nerve (branch
of mandibular division of trigeminal
nerve) to parotid gland.
Target Organs: parotid gland.
Sympathetic fibers from superior
cervical chain pass through otic
ganglion. They travel with middle
meningeal artery to innervate parotid
gland.
Sympathetic nervous
system(SNS)
Division of autonomic
nervous system.
It is involuntary, acts with
parasympathetic system to
maintain body homeostasis.
Actions of SNS are
associated with ‘fight or
flight’ response.
Anatomical Structure and Course
Sympathetic fibers begin in spinal
cord.
Originate from thoracic region (T1-
6), need to ascend to reach
structures in head and neck.
After leaving spinal cord, fibers
enter sympathetic chain.
Sympathetic chain spans from
base of skull to coccyx, and formed
by nerve fibers and ganglia.
Superior, middle and inferior
cervical ganglia.
Sympathetic fibers synapse with
these 3 ganglia, postganglionic
branches continuing into H&N.
Each of 3 ganglia related to specific
arteries in H&N.
Post-ganglionic
fibers hitchhike along arteries in
order to reach target organs.
Superior cervical ganglion
Located posteriorly to carotid artery,
and anterior to C1-4 vertebrae.
Post-ganglionic nerves originate from :
1. Internal carotid nerve – hitch-hikes
along internal carotid artery. Branches
from internal carotid plexus innervate
structures in eye, pterygopalatine artery
and internal carotid artery itself.
2. External carotid nerve – hitch-hikes
along common and external carotid
arteries. It innervates smooth muscle of
arteries.
Superior cervical ganglion
3. Nerve to pharyngeal plexus –
combines with branches from CN
9&10 to form pharyngeal plexus.
4. Superior cardiac branch –
contributes to cardiac plexus in
thorax.
5. Nerves to cranial nerves II, III,
IV, VI and IX.
6. Gray rami communicants to
anterior rami of C1-C4.
 Middle Cervical Ganglion
Absent in some
individuals. When
present, located
anteriorly to inferior
thyroid artery and C6
vertebra.
Middle Cervical Ganglion
Its postganglionic fibers are:
1. Gray rami communicants to
anterior rami of C5 and C6.
2. Thyroid branches – travel
along inferior thyroid artery,
distributing fibers to larynx,
trachea, pharynx and
upper oesophagus.
3. Middle cardiac branch –
contributes to cardiac plexus in
thorax.
 Inferior Cervical Ganglion
Situated anteriorly to C7
vertebra. It sometimes fused
with T1 vertebrae, forming
cervicothoracic ganglion.
Inferior Cervical Ganglion

3 post-ganglionic fibers arise
from :
1. Gray rami communicants
to anterior rami of C7, C8 and
T1.
2. Branches to subclavian
and vertebral arteries.
3. Inferior cardiac nerve –
contributes to cardiac plexus
in thorax.