Human Anatomy Lecture 10 - Temporal Fossa (PDF)

Summary

This document is a lecture on human anatomy, specifically focusing on the temporal fossa. It details the location, boundaries, and structures associated with this area. The lecture is aimed at 2nd year undergraduate dental students at Almaaqal University.

Full Transcript

Academic year 2023-2024
‫فرع جراحة الفم والوجه والفكين‬
‫كلية طب االسنان‬
2ed year

Human Anatomy
Lecture 10
Temporal fossa

By: Dr. Nada hashim AL JASSIM

Snell R.S. Clinical Anatomy by regions, 9th Edition, Lippincott Williams
& Wilkins, [2012
For more detailed instructions, any question, cases need help please post
to the telegram group of the session
The temporal fossa is the region on the side of the head, above the external ear canal,
which is covered by the temporalis muscle. The skin, fascia, and portions of the
extrinsic muscles of the ear in this region overlie the deeper fan-shaped temporalis
muscle that attached to the bones of the temporal fossa. Superiorly, this fossa is
bounded by the superior temporal line, whereas its inferior boundary is the Zygomatic
arch, even though the temporalis muscle extends inferiorly below this arch into the
infratemporal fossa.
 The floor of the temporal fossa is formed by the bones of the side of the head that is
portions of the frontal, sphenoid, temporal, and parietal bones.
The inferior and superior temporal lines begin at the Zygomatic process of the frontal
bone and arch posteriorly over the parietal bone before descending to the temporal
bone and blending into the zygomatic process of temporal bone.
The tough fascia covers the temporalis muscle is called temporalis fascia attaching superiorly
to the superior temporal line. Inferiorly, the fascia splits into two layers, which attach to the
lateral and medial surfaces of the zygomatic arch. The temporal fascia also tethers the
zygomatic arch superiorly.
 When the powerful masseter muscle, which is attached to the inferior border of the arch,
contracts and exerts a strong downward pull on the zygomatic arch, the temporal fascia
provides resistance.

Boundaries:
a. Posterosuperiorly: superior temporal line
b. Inferiorly: infratemporal crest

c. Anteriorly: frontal process of zygomatic bone

d. Laterally: zygomatic arch

e. Floor: formed by 4 bones: frontal, parietal, temporal, and sphenoid forming pterion which is

thinnest part of the lateral wall of the skull where the anteroinferior corner of the parietal
bone articulates with the greater wing of the sphenoid.
Clinically, the pterion is an important area because
it overlies the anterior division of
the middle meningeal artery and vein.
 Contents
1muscle:temporalis muscle.
3 nerves: auriculo temporal nerve(superficial to temporal fascia),zygomatico-temporal nerve
,and deep temporal nerves(deep to temporalis muscle)
3vessels:superficial temporal vessels(superficial to temporal fascia),
deep temporal vessels ,and middle temporal artery(deep to temporalis muscle).
 The infratemporal fossa
The infratemporal fossa is an irregularly shaped space deep and inferior to the Zygomatic arch,
deep to the ramus of the mandible and posterior to the maxilla (Deep lateral region of face).
❖ The pterygomaxillary fissure is a vertical fissure that lies within the fossa between the
pterygoid process of the sphenoid bone and back of the maxilla. It leads medially into the
pterygopalatine fossa
❖. The inferior orbital fissure is a horizontal fissure between the greater wing of the sphenoid
bone and the maxilla. It leads forward into the orbit. Superiorly, the fossa is limited by the
infratemporal surface of the greater wing of the sphenoid bone and the very anteroinferior-
most portion of the squamous part of temporal bone. The bony ridge extending across
these two bones, known as the infratemporal crest, delineates the superior-most extent of
the roof of the fossa.
Muscles related to the infratemporal fossa
Nerves in the infratemporal fossa
Origin
Branches of the mandibular nerve
Branches of the mandibular nerve
Vessels in the infratemporal fossa
Branches of the maxiliary artery
Branches of the maxillary artery
Branches of the maxillary artery
The pterygoid venous plexus
The pterygoid venous plexus
Structures related to lateral pterygoid muscle:
Structures related to spheno –mandibular ligament
Communications:

The infratemporal fossa communicates with the temporal fossa as the temporalis
muscle descends from its origin in the temporal fossa to be inserted onto the coronoid
process of the mandible.
Nerves and vessels supplying the temporalis muscle pass from the infratemporal
fossa to the temporal fossa to pierce the deep surface of this muscle. Two foramina
open onto its roof on the medial aspect of the infratemporal region of the greater
wing of the sphenoid.
1. The larger of the two, the foramen ovale, transmits the mandibular division of

the trigeminal nerve exiting from the cranial vault and the accessory meningeal
artery proceeding to the cranium.
2. The smaller foramen, the foramen spinosum, lies between the foramen ovale

and the spine of the sphenoid. It transmits the middle meningeal artery and the
recurrent meningeal nerve from the fossa into the cranium.
The fossa communicates with the orbit at its most supero anterior aspect via the inferior
orbital fissure between the maxilla and the greater wing of the sphenoid. Through this
fissure pass the maxillary division of the trigeminal nerve, on its way to the floor of the orbit,
as well as the zygomatic branch which arises from it.
The cleft between the maxilla and the lateral pterygoid plate is the pterygomaxillary
fissure communicating with the pterygopalatine fossa, medially. It is through this fissure that
the maxillary artery distributes to the fossa, eventually to reach the nasal cavity via the
sphenopalatine foramen
 Foramina opened in the infratemporal fossa: (summary)
i. Foramen spinosum: for middle meningeal artery into middle cranial fossa

ii. Foramen ovale: for mandibular nerve (CN V3) and accessory meningeal artery

iii. Pterygomaxillary fissure: medial cleft leading into pterygopalatine fossa; for terminal

part of maxillary artery
iv. Inferior orbital fissure: leads anteriorly into orbit; for zygomatic and infraorbital

branches of maxillary nerve (CN V2), infraorbital artery, and communication between
pterygoid plexus and inferior ophthalmic vein
Contents
❖ Muscles of mastication (masseter and most of temporalis lie outside of infratemporal
fossa)
Lower portion of temporalis muscle: passes medial to zygomatic arch to insert on
coronoid process and anterior border of ramus of mandible
Lateral pterygoid muscle: from lateral pterygoid plate and greater wing of sphenoid
to neck of mandible and articular disc of TMJ
Medial pterygoid muscle: from medial surface of lateral pterygoid plate and
tuberosity of maxilla to medial surface of ramus and angle of mandible
❖ Mandibular nerve (CN V3) and its branches, chorda tympani, and otic ganglion
❖ Maxillary artery
 Temporalis
Muscles of mastication
Origin: from temporal fascia and temporal fossa from temporal lines to
infratemporal crest
Insertion: coronoid process and anterior border of ramus of mandible
Action: closes jaw, posteroinferior part retracts jaw
Innervation: anterior and posterior deep temporal
branches of mandibular nerve (CN V3), which
curve around infratemporal crest to pass
beneath temporalis
 Masseter
1. Origin

a. Superficial part: anterior 2/3 of lower border of zygomatic arch

b. Deep part: posterior and medial side of zygomatic arch

2. Insertion

a. Superficial part: angle and lower lateral surface of ramus of mandible

b. Deep part: upper lateral surface of ramus

3. Action: closes the jaw

4. Innervation: masseteric nerve from mandibular nerve (CN V3), which passes over

mandibular notch to enter muscle
 Medial pterygoid (internal pterygoid)
1. Origin: medial surface of lateral pterygoid plate of sphenoid, pyramidal process of

palatine and tuberosity of maxilla
2. Insertion: lower and posterior part of angle and medial surface of ramus of

mandible
3. Action: closes jaw with bilateral contraction; helps grinding movements with 1-

sided contraction (moving jaw side to side)
4. Innervation: nerve to medial pterygoid from mandibular nerve (CN V3), which

also sends branches to innervate tensor tympani and tensor veli palatini
 Lateral pterygoid (external pterygoid)
Origin
a. Superior head: from inferior surface of greater wing of sphenoid

b. Inferior head: from lateral surface of lateral pterygoid plate

Insertion
a. Superior head: articular disc of TMJ

b. Inferior head: pterygoid fovea on neck of mandibular condyle

Action: protrudes mandible, opening mouth by drawing mandible and articular disc forward
onto articular tubercle; unilateral contraction moves mandible from side to side, assisting in
grinding motion (Note: anterior belly of digastric, geniohyoid, mylohyoid, and platysma help in
opening mouth)
Innervation: nerve to lateral pterygoid from mandibular nerve (CN V3
 Clinical significance
The temporalis muscle can be used as a flap for various deformities.The primary
indications for the temporalis muscle flap are for intraoral, cranial base, and
orbital reconstructions. The use of split temporalis muscle as a sling for the lower
eyelid and lip in facial paralysis is another common indication: some dynamic
movement is possible through the V3 branch of the trigeminal nerve. (Also
masseter muscle can be used in patient with facial paralysis).Less common
indications are for palate and maxillary reconstruction..
TRAUMA TO THE TEMPORAL REGION:
The bone of calvarium is thinnest in the temporal fossa. Strong blows to the side of the
head may cause a depressed fracture, in which a fragment of bone is depressed inward
to compress or injure the brain. At the pterion, the middle meningeal artery is easily
ruptured following such an injury CAUSING EXTRA DURAL HEMATOMA that compress
the brain and could be fatal if untreated
Benign Masseteric Hypertrophy is a relatively uncommon condition that can occur
unilaterally or bilaterally. Pain may be a symptom, but most frequently a clinician is
consulted for cosmetic reasons. Although it is tempting to point to Malocclusion, Bruxism,
clenching, or Temporomandibular joint disorders, the etiology in the majority of cases is
unclear. Diagnosis is based on awareness of the condition, clinical and radiographic
findings, and exclusion of more serious Pathology such as Benign and Malignant Parotid
Disease.
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