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Exam 4 Session 1
Keaton Kaye M.S. OMS-2
[email protected]
865-679-8936
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 Exam 4 Tips
DO NOT GET BEHIND
CN Nerves are LIFE
Autonomics are HY
Know your foramen
Skull Osteology
Skull (Cranium)- Consists of 28
bones
Connected by fibrous interlocking
joints called Sutures
Cranium can be divided into two
sections based on fuction:
1. Neurocranium- portion that encases
the brain
The Neurocranium is further divided into
2 portions:
Calvaria- Intramembranous ossification
Cranial Base- endochondral ossification
2. Viscerocranium- facial bones
 Overview of the Skull
Unpaired Bones

Frontal
Frontal

Sphenoid
Sphenoid

l
ita
cip
Oc
Ethmoid
Ethmoid
Vomer
ble
a ndi
M
Mandible

Gray’s 857 Lateral View Anterior View Gray’s 855
 Overview of the Skull
Paired Bones

Parietal Parietal

Nasal
Temporal Temporal
Nasal

Lacrimal
Zygomatic
Maxilla Inferior Nasal Concha
Zygomatic

Gray’s 857 Lateral View Anterior View Gray’s 855
 Overview of the Skull
Paired Bones
Maxilla

Palatine
Zygomatic

Malleus Incus Stapes
Parietal

Temporal

Gray’s 862 Inferior View
 Sutures of the Skull
Coronal Suture

Bregma
Parietal
Frontal

Lambda Sagittal
Suture
Occipital

Lambdoid Parietal
Suture

Lambda
Gray’s 859 Posterior View Superior View Gray’s 860
 Sutures of the Skull

Bregma

Coronal Suture
Squamous Suture
Frontal Parietal
Lambda
Pterion Lambdoid
Suture
Temporal

l
ita
cip
Oc
Sphenoid

Lateral View Gray’s 857
Pterion: Cranial Sutures
The pterion is thin and weak area of Squamosal
the skull Coronal suture
Middle Meningeal artery runs just suture
deep to the pterion
Fracture to the pterion can result in
a rupture of the middle meningeal
artery and results in an extradural Pterion
(epidural) hematoma Lambdoidal
suture

Middle meningeal a.
via foramen spinosum 12
Maxillary a.
 Clinical Correlation
Extradural Hematoma
Fractures in the Pterion region from external trauma can cause the Middle Meningeal artery to rupture causing blood
to pool between the cranial bones and dura. If not treated the blood can compress the brain possibly resulting in death.

Pterion

Epidural
Hemorrhage

Coronal Section Superior View
Gray’s 891
 Development of the Skull

Anterior Fontanelle
Posterior Fontanelle

Mastoid Fontanelle
Sphenoidal Fontanelle
Posterior Fontanelle
Superior View Lateral View Netter 21
 Lambda
Sagittal Bregma
suture

lambdoidal
suture

Premature Suture Closure: Craniosynostosis
Premature closure of the cranial sutures results in cranial malformations
Sagittal synostosis: most common type, premature closure of sagittal suture, no/small
anterior fontanelle, the cranium will grow long and narrow
Other types: Coronal, lambdoid & metopic synostosis
May cause complications depending on which suture is affected & timing of the synostosis
(before/after birth)
15
 Temporal Bone is divided into three
parts:
Squamous- lateral portion of the
middle cranial fossa
Tympanic- outer ring of external
auditory meatus
Petrous- houses the ear ossicles,
malleolus, incus and stapes
Mastoid and Styloid processes-
Temporal lines Muscles attachment sites for neck and
tongue
Temporal
Zygomatic arch:
fossa Composed of two different bones:
Zygomatic process of temporal bone and
Zygomatic Temporal process of the zygomatic bone
arch: External acoustic Temporal Lines (extend from the
frontal to parietal region)
meatus Where temporalis muscle (muscle of
Mastoid process mastication attaches)
Styloid
process
 Basicranial Features & Foramina

Zygomatic arch
Hard palate

Mandibular fossa Inferior orbital fissure

Petrotympanic fissure Foramen ovale
Chorda tympani n. (CN VII br)
Foramen spinosum
Styloid process

Stylomastoid foramen Jugular foramen
CN VII (Facial n.)

Mastoid process Occipital condyle
Carotid canal
Foramen magnum
Foramen lacerum 17
 Basicranial Features & Foramina

Incisive foramen

Greater palatine Lesser palatine
foramen foramen
Greater palatine n., a. Lesser palatine n., a.

Choana
(internal nares) Lateral & medial plates of
the pterygoid process,
Sphenoid

Superior nuchal line
External occipital
protuberance 18
 External Features of the Skull
Mandible
Mandibular Notch
Mandibular Foramen

Coronoid Process
Lingula
Condylar Process

Ramus

Mental Protuberance
Angle
Alveolar Part Body
Mental Foramen
Netter 24
 Mandibular foramen- where
TMJ and Mandible inferior alveolar n., a., and v.
travels
Mandibular notch TMJ- where mandible articulates
with the temporal bone
Condylar
process
Mandibular
fossa,
Temporal
bone
Articular
disk
Articular
tubercle
Head of
mandible
 Sinuses
Around the nasal cavity there
are paranasal sinuses:
Frontal sinus- inside the
frontal bone
Ethmoid sinus- inferior to the
frontal sinus and superior to
the nasal cavity
Sphenoid sinus- posterior to
Ethmoid sinus
Maxillary sinus- inferior to the
obits and inside the maxillary
bone
Common site for sinusitis
 Endocranium

Frontal sinus

Coronal suture
Middle
meningeal
groove Groove for
Arachnoid Fovea superior sagittal
Arachnoid granulations sinus
Sagittal suture

22
 Frontal sinus

Frontal bone Ethmoid bone
Sphenoid bone
(lesser wing)
Sphenoid bone
(greater wing)
Anterior
fossa Temporal bone
Frontal lobes
Parietal bone
Middle fossa
Temporal lobes
Occipital bone
Posterior 23

fossa
Cerebellum
Cranial Foramen Neurovascular Structures
Fossa
Anterior Cribriform plate & foramina CN I (olfactory bulb & nn.)
fossa Anterior & posterior ethmoidal Anterior & posterior ethmoidal nn., aa., vv.
foramina (will be covered in LEC 46)
Middle fossa Optic canal CN II, ophthalmic a., vein of retina
Superior orbital fissure CN III, CN IV, CN V1, CN VI, ophthalmic vv.
Foramen rotundum CN V2
Foramen ovale CNV3, lesser petrosal n. (CN IX br.)

Foramen spinosum Middle meningeal a
Foramen lacerum (filled with fibrous cartilage, internal carotid a. passes
superiorly)
Carotid canal Internal carotid a., sympathetic carotid plexus
Greater petrosal hiatus Greater petrosal n. (CN VII br.)
Posterior Internal acoustic meatus CN VII, CN VIII
fossa Jugular foramen CN IX, CN X, CN XI (exit), sigmoid sinus/Internal jugular v.
Hypoglossal canal CN XII 24
Foramen magnum Medulla of brainstem/spinal cord, CN XI (entrance),
Anterior cranial fossa Crista galli
Falx cerebri Foramen cecum

Cribriform plate
CN I (Olfactory bulbs & nn.)

Sphenoid bone
(lesser wing)

Sphenoid bone
Anterior clinoid processes (body)
Middle cranial fossa Superior orbital fissure Optic canal
CN II (Optic n.)

Foramen rotundum
CN V2 (Trigeminal n.)
Foramen ovale
CN V3 (Trigeminal n.)

Foramen spinosum
Middle meningeal a.
Foramen lacerum
Opening of the carotid canal
Internal carotid a.

Greater petrosal
hiatus
O Greater petrosal n. (CN VII br.)

R SO
Sphenoid Bone
Tuberculum sellae Hypophysial fossa

Posterior clinoid process

Dorsum sellae

Groove for the middle
meningeal artery

Pituitary gland sit in the sella turcica
The pituitary gland can be accessed surgically by passing instrumentation
through the sphenoid sinus (transsphenoidal).
 Optic canal

Superior
orbital fissure
CN III (oculomotor n.)
CN IV (trochlear n.)
CN V1 (Trigeminal n.) CN II (Optic n.) &
CN VI (abducens n.) Ophthalmic a.
Inferior orbital
fissure

J. Millard 28
Posterior cranial fossa Clivus Internal acoustic
meatus
Groove for
CN VII (Facial n.),
inf. petrosal CN VIII (Vestibulocochlear
sinus n.)

Jugular
Groove for sigmoid sinus foramen
Internal jugular v.,
CN IX (Glossopharyngeal n.)
Foramen magnum CN X (Vagus n.)
Brainstem/spinal CN XI (Accessory n.)
cord, CN XI,
vertebral aa.

Groove for transverse sinus

Hypoglossal canal
CN XII (Hypoglossal n.)
Internal occipital protuberance
Intro to Cranial
Nerves
 Central
sulcus
Parietal
Frontal lobe
lobe

Occipital
lobe

Temporal
Cerebellum
lobe
Midbrain

Brainstem Pons

Medulla
oblongata
 Cranial Nerves
12 pairs of cranial nerves
The first two cranial nerves
(Olfactory and Optic) arise
from the cerebrum
The other 10 Cranial nerves
originate from the brainstem
Cranial nerves can carry motor,
sensory, and parasympathetic
fibers
 CN I- Olfactory Nerve Olfactory Bulb

Olfactory tract
Function: Special Sense - Olfaction (smell)
Nerve fibers pass through the cribriform plate
of the ethmoid bone and synapse in the
olfactory bulb
Secondary fibers travel from the olfactory bulb
to the olfactory tract and then to the forebrain
 CN II- Optic Nerve Optic
nerve

Function: Special Sense- Vision
Fibers travel from the retina of the eye through the optic canal into the
middle cranial fossa
Some fibers cross at the optic chiasm and then continue as the optic tract
 CN III- Oculomotor Nerve
Function: Somatic motor and
Parasympathetic
Motor- to Levator palpebrae Oculomotor n.
superioris (eyelid) and 4 of the 6
extraocular muscles:
Superior Rectus m.
Inferior Rectus m.
Medial Rectus m.
Inferior Oblique m.
Parasympathetic- innervation of the
sphincter pupillae muscle (pupillary
constriction) and ciliary muscle
(allows accommodation- closeup
vision)
Exits via the superior orbital fissure
 Levator palpebrae superioris m.

Superior oblique m. Superior rectus m.

Medial rectus m. Inferior rectus m. Lateral rectus m.

Inferior oblique m.

LR6, SO4, all the rest 3
CN IV- Trochlear Nerve Function: Somatic Motor
Motor to superior oblique
Exits via the superior orbital
fissure

Trochlear
n.
 Function: Somatic Motor and Sensory
CN V- Trigeminal Nerve Motor- to 8 muscles- 4 of which are
Muscles of Mastication (chewing)
Sensation- to face and general
sensation to the anterior 2/3rd of the
tongue

Three branches:
1. Ophthalmic (V1)- Superior orbital
fissure
Trigeminal
2. Maxillary (V2)- Foramen rotundum
ganglion 3. Mandibular (V3)- Foramen Ovale

”Standing Room Only”
Trigeminal n.

“Standing Room Only”
 Clinical Correlation
Trigeminal Neuralgia – Tic Douloureux

Sensory disorder characterized by excruciating pain

More common in women

Usually triggered by stimulation of areas innervated by V2, V3
Chewing
Brushing teeth
Applying makeup

Etiology is often unknown but can be caused by:
Blood vessels putting pressure on nerve branches
Demyelination of nerve axons
Multiple sclerosis
CN VI- Abducens Nerve
Function: Somatic Motor
Motor innervation to the
lateral rectus muscle
Exits via the Superior Orbital
Fissure Abducent
Injury to CN VI can result in n.
medial strabismus of the eye
(esotropia)
 CN VII- Facial Nerve
Function: Special Sense (taste),
Somatic motor, and
Parasympathetic Facial n.
Sensation- Taste from anterior
2/3 of the tongue
Motor- Muscles of facial
expression
Parasympathetic- innervation of
the lacrimal gland, sublingual
gland, and submandibular gland
Exits the cranium via the
Internal acoustic (auditory)
meatus
CN VIII- Vestibulocochlear Nerve
Function: Special Sense (hearing and
balance)
Exits internal acoustic meatus (w/ CN
VII) and then splits into the cochlear
nerve (hearing) and vestibular nerve
(balance/ equilibrium)

Vestibulocochlear n.
 CN IX- Glossopharyngeal Nerve
Glossopharyngeal n.
Function- Somatic motor, general
sense and special sense (taste), and
parasympathetic.
Motor- fibers to stylopharyngeus
muscle.
Somatic sensory- to portions of the
pharynx, soft palate and posterior
1/3 of tongue.
Special sensation- taste to the
posterior 1/3 of tongue.
Parasympathetic- innervation to
the parotid gland (around ear)
Exits via the jugular foramen
 Function- Somatic motor, sensory,
CN X- Vagus Nerve and parasympathetic.
Motor- soft palate, pharynx, and
intrinsic laryngeal muscles.
Sensory- inferior pharynx, larynx.
Parasympathetic innervation- to the
thorax and abdomen.
Leaves the cranial fossa via the
jugular foramen.

Vagus n.
 CN XI- Accessory Nerve
Function- Somatic motor to
sternocleidomastoid and trapezius
muscles.
Comprised of rootlets from the first 5
cervical spinal levels.
The nerve travels into foramen magnum
(from the spinal cord), but then leaves the
cranium via the jugular foramen.
Injury to CN XI- Weakness shrugging
shoulders, droopy shoulder

Accessory n.
CN XII- Hypoglossal Nerve
Function- Somatic motor
Motor- Innervation of the intrinsic
and extrinsic muscles of the tongue. Hypoglossal n.

Hypoglossal nerve leaves the cranial
fossa via the hypoglossal canal.
Injury to CN XII- Ipsilateral tongue
deviation (towards lesion) and
atrophy rippled appearance (if
chronic)
Tongue innervation
Anterior 2/3rd –
General sensation- CN V
Special sensation (taste) –
CN VII- Chorda Tympani
Posterior 1/3rd –
General and special (taste)
sensation - CN IX
Motor-
CN XII
 J. Millard

Olfactory n. (bulb shown) (CN I)

Optic n. (CN II)

Oculomotor n. (CN III)

Abducent n. (CN VI)
Trochlear n. (CN IV)

Facial n. (CN VII)
Trigeminal n. (CN V)
Vestibulocochlear n. (CN VIII)

Accessory n. (CN XI) Glossopharyngeal n. (CN IX)

Vagus n. (CN X)
Hypoglossal n. (CN XII)
52
Gray’s Anatomy for Students (2nd ed.), Drake et al, Figure 8.49, p. 851 J. Millard
Meninges, Ventricle, Circle of Willis
Meninges and spaces of the brain
Epidural space – Potential space
No epidural fat or venous plexus
Dura mater
Two layers in head Subdural space Subarachnoid
Periosteal layer Dura Periosteal Arachnoid space
Meningeal layer – continuous with cord dura Meningeal Pia
mater mater
Tightly adhered to skull, eliminating epidural mater
space Skin
Subdural space – Potential space Periosteum
Arachnoid mater Skull
Loosely attached to dura
Contains arachnoid granulations – small
protrusions of arachnoid through dura that
absorb CSF
Subarachnoid space – True space
Contains CSF
Contains cerebral arteries and veins
Pia mater Epidural space
“Saran wrap” around brain
Epidural hematoma
Due to trauma
Occurs between skull and dura
Arterial bleed required to peel
tightly adherent dura from skull
Doesn’t usually cross suture lines
Lenticular or bi-convex shape
Often, overlying fracture (70+%)
– may lacerate middle meningeal
artery
Subdural hematoma
Often from trauma, though may
be very mild trauma or
spontaneous
Occurs between dura and brain
Usually a venous bleed
May cross suture lines
Crescent shape
No overlying fracture
Subarachnoid hemorrhage
May be due to trauma
Usually small and can be subtle
Often associated with parenchymal,
epidural, or subdural bleed
IV contrast may obscure
Often due to ruptured aneurysm
Usually larger than post-traumatic
SAH
High attenuation blood in the
fissures and cisterns
 Falx cerebri

Dural reflections Diaphragma sellae

Formed by the meningeal layer of
the dura mater
Falx cerebri
Divides two hemispheres of
cerebrum
Falx cerebelli
Divides two hemispheres of
cerebellum Tentorium cerebellum
Tentorium cerebellum Falx cerebelli
Divides cerebrum from cerebellum
Diaphragma sellae
Covers pituitary gland
Dural reflections on CT scan

Falx cerebri

Tentorium
cerebelli

Falx cerebelli
 Tentorium cerebelli

Tentorial
notch
Dural innervation
CN V1
Anterior cranial fossa
Meningeal branches of V1
(ophthalmic)
CN V2
Middle cranial fossa
Meningeal branches of V2
(maxillary)
Posterior cranial fossa
CN X (Vagus)
CN X
C1 – C3 C1-C3
Internal carotid arterial Anterior cerebral
artery (ACA)
system (anterior circulation)
Arise from common carotid artery Middle cerebral
(External carotid artery supplies the artery (MCA)
face and scalp)
Internal carotid artery (ICA)
Enters calvarium through carotid
canal Ophthalmic artery
Passes through cavernous sinus Posterior
communicating
Branches artery (PCOM)
Ophthalmic artery ACA
Anterior cerebral arteries
Middle cerebral arteries
Posterior communicating arteries ICA
PCOM
MCA
Ophthalmic a.
Vertebral-basilar system (posterior Basilar a.
circulation) Vertebral a. Basilar a.
Vertebral a.

Vertebral artery originates from
subclavian artery
Travels through transverse Skull base
foramina of cervical spine
Enters calvarium through
foramen magnum
Joins with contralateral vertebral Vertebral a.
artery at pons-medulla junction Vertebral a.
to form basilar artery

Subclavian a. Subclavian art.
Vertebral-basilar system (in situ)
CN III
Posterior cerebral a.

Superior
cerebellar a.

Pontine as.
Anterior inferior
cerebellar a. (AICA)
Basilar a.
Posterior inferior
cerebellar a.
(PICA)

Vertebral a.
Anterior spinal a.
Circle of Willis
Connects the internal carotid
arterial and vertebral-basilar
arterial systems
Provides collateral circulation for
brain tissue
Not everyone has a complete
circle of Willis
Common area for cerebral artery
aneurysms
Circle of Willis Ant. Cerebral a. (A2)

Ant. Cerebral a.
(A1)

Ant. Comm. A.

Internal carotid a.
(Middle
cerebral a.) Post. Comm. art
(Middle
Posterior cerebral cerebral a.)
a.
(Basilar a.)

(Vertebral a.)
Circle of Willis and optic chiasm
External Carotid Artery
Dural venous sinuses
Major venous drainage system of
the brain, meninges, calvarium, and
other structures of the head.
Endothelial lined channels
occurring between periosteal and
meningeal layers of dura mater.
Lack valves
All dural sinuses ultimately drains
into the internal jugular veins at the
jugular foramina
Dural venous sinuses
Superior sagittal sinus
In attached edge of falx cerebri
Inferior sagittal sinus
In free edge of falx cerebri
Great cerebral vein (Vein of Galen)
Straight sinus
At attachment of falx cerebri to
tentorium cerebelli
Formed by confluence of Great cerebral
vein and inferior sagittal sinus
Occipital sinus
In attached margin of falx cerebelli
Confluence of sinuses Occipital
sinus
Connecting point of superior sagittal
sinus, straight sinus, and occipital sinus
Dural venous sinuses
Transverse sinus
Transverse sinus (paired)
Drains the confluence of sinuses (superior sagittal
sinus, occipital sinus, straight sinus)
Empties into sigmoid sinus
Sigmoid
Sigmoid sinus (paired) sinus
Drains transverse sinus and superior petrosal
sinus
S-shaped Internal jugular
Drains into jugular vein vein
Superior petrosal sinus (paired) Superior petrosal
Drains cavernous sinus
sinus
Drains into confluence of sigmoid and transverse
sinuses
Inferior petrosal sinus (paired)
(Not pictured) Sigmoid sinus
Drains cavernous sinus
Drains into internal jugular vein
Transverse
Internal jugular vein (paired)
Formed from confluence of sigmoid sinus and sinus
inferior petrosal sinus
 Cavernous sinus
Cavernous sinus
Internal
Carotid Artery O Tom Cat
Located on either side of the Oculomotor nerve
body of the sphenoid bone (CN III)
Trochlear nerve
Receive venous flow from deep (CN IV)
veins of face and ophthalmic Ophthalmic nerve
veins (CN V1)
Infections in face can cause Maxillary nerve
(CN V2)
infection in cavernous sinus and (Internal)
possibly into eye (“Triangle of carotid artery
Death”)- Via Ophthalmic Vein
Drained by superior and inferior
petrosal sinuses Sphenoid Abducens nerve
sinus (CN VI)
Ventricular system of the brain
Lateral ventricle
Cerebral
aqueduct

Foramen of
Monro

Third ventricle Fourth ventricle
Ventricular system of the brain
Frontal horns of the
lateral ventricles

Foramen of
Monro

Third ventricle

Occipital horns of
lateral ventricle

Axial T2 weighted MRI Coronal T1 weighted MRI
Cerebral aqueduct
CSF production and flow
CSF is produced in the ventricles by the
choroid plexus
Lateral ventricle -> Foramen of Monro ->
3rd ventricle -> Cerebral aqueduct -> 4th
ventricle -> Foramina of Luschka and
foramen of Magendie -> Subarachnoid
space -> Absorbed by arachnoid
granulations (arachnoid villi) -> Superior
sagittal sinus

Choroid plexus calcifications on CT (normal)
Questions??