Anatomy of the Skull PDF

Summary

This document provides an outline of the skull, focusing on the frontal, occipital, and sphenoid bones. It describes their structure, external and internal surfaces, and their roles in the skeletal system. Key features and articulations are highlighted. This information is suitable for undergrads studying human anatomy.

Full Transcript

OUTLINE 1.

The skull

Frontal, occipital and sphenoid bone
 SKULL

The skull is the bony skeleton of the head and most complex osseous structure in the
body.
The vertebrate skull is modified part of the axial skeleton together with vertebral column,
ribs and sternum.
The skull is composed of 28 separate bones, of which most are paired, but some in the
median plane are single. The majority of bones in the skull are held by fibrous joints
termed sutures.
The skull can be subdivided into cranium and mandible, based upon the fact that most of
bones of the skull articulate by fixed joints, mandible is easily detached.
The skull can be divided into – neurocranium and viscerocranium. The neurocranium
protects the brain and organs of special sense and viscerocranium is associated with the
cranial parts of the respiratory and digestive tract.
Neurocranium is devided into the upper part termed the calvaria or calva (skull “cap”)
and inferior part basis cranii or the base of the cranium.
The cranial cavity contains the brain, pineal and hypophyseal (pituitary) gland, parts of
cranial nerves, blood vessels, meninges and cerebrospinal fluid. The important nerves and
vessels pass in and out of the skull via openings termed foramina.
Many of the bones are flat, irregular or pneumatic. The cranial bones consist of two thin
plates of compact bones: outer and inner tables, separated by diploe. Trabecular bones
contain red bone marrow.
 FRONTAL BONE

Frontal bone is like half a shallow, irregular cap forming the forehead or frons. The
frontal bone is pneumatic bone (frontal sinus). The frontal bone has two parts: vertical
and horizontal part. Each part has external and internal surface.

VERTICAL – SQUAMOUS PART OF THE FRONTAL BONE
This forms the major portion of the bone. The squamous part has two surfaces: external
and internal.

External surface
External surface of the vertical or squamous part has rounded frontal tuber (tuberosity)
about 3 cm above the midpoint of each supra-orbital margins. These tubera are especially
prominent in young skulls and in adult females. Below them, are two curved superciliary
arches, medially joined by a smooth median elevated glabella; they are more prominent
in males.
The supra-orbital margins of the orbital openings lie inferiorly to the superciliary arches.
On their medial thirds is a supra-orbital notch (or foramen) containing supraorbital
vessels and nerve. Medially to it is a small frontal notch or foramen.
The supra-orbital margin ends laterally into the zygomatic process that meets the
zygomatic bone. From here a line – temporal line curves postero-superiorly. The area of
the frontal bone below and behind the temporal line is known as temporal surface and
forms the anterior part of the temporal fossa.
The region between supra-orbital margins is the nasal part.

Internal surface
Internal surface of the vertical part is concave. Its upper, median part has a vertical
groove for the superior sagittal sinus, the edges of which unite below as the frontal
crest. Groove contains the superior sagittal sinus and crest ends with a foramen caecum.
Several granular foveolae for arachnoid granulations usually exist along the groove for
the superior sagittal sinus.
Internal surface of the horizontal part shows impressions for cerebral gyri and small
furrows for meningeal vessels.

HORIZONTAL PART
External surface of the horizontal part of the frontal bone is divided into two orbital and
one nasal part.

Orbital parts
The orbital parts of the frontal bone are two thin, triangular laminae which are separated
by wide ethmoidal notch.
The orbital surface of each plate is concave with antero-lateral fossa for the lacrimal
gland. Behind the medial end of the supra-orbital margin is the trochlear fovea (or
spine), for attachment of a fibrocartilaginous trochlea for the superior oblique muscle of
the eyeball.
The cerebral (or internal) surface is convex and marked by frontal gyri and faint grooves
for meningeal vessels.

Nasal part
The region between the supra-orbital margins is the nasal part. The serrated nasal notch
(or nasal border) articulates with the nasal bones, maxillary frontal processes and
lacrimal bones. The region ends into the nasal spine. Lateral to the nasal spine are placed
the openings of frontal sinuses.
Behind the nasal spine is wide, quadrilateral ethmoidal notch. Several ethmoidal air cells
are visible along its lateral margins. Two transverse grooves across each margin are
converted into anterior and posterior ethmoidal canals by the ethmoid bone; these canals
open on the medial orbital wall, transmitting anterior and posterior ethmoidal nerves and
vessels.
Border
The parietal (posterior) margin is thick, deeply serrated.
FRONTAL SINUS
Frontal sinus is paired structure which consists of two irregular cavities placed behind the
superciliary arches. Each communicates with the middle meatus of the nasal cavity.
 OCCIPITAL BONE

Occipital bone forms the back and base of the cranium. It has four parts which enclose
the foramen magnum; the plate postero-superior to foramen is the squama (squamous
part), the massive quadrilateral part anterior to it is the basilar part (basi-occipital); on
each side of the foramen is the lateral part (exoccipital).

SQUAMA
The squama is convex externally and concave internally. The squama has two surfaces:
external and internal.
The external surface presents, the external occipital protuberance. On each side two
curved lines extend laterally from it: the highest nuchal line and the superior nuchal
line. From the external occipital protuberance the median external occipital crest
descends to the foramen magnum. On each side an inferior nuchal line spreads laterally
from the crest‫׳‬s midpoint.
The squama‫׳‬s internal surface is divided into four deep fossae by an internal occipital
protuberance and by sagittal and horizontal extensions from it. The two superior fossae
are triangular and adapted to the cerebral occipital poles, the inferior are quadrilateral and
adapted to the cerebellar hemispheres. A wide groove ascends from the protuberance –
groove for the superior sagittal sinus. An internal occipital crest descends from the
protuberance. On each side a wide groove for the transverse sinus extends laterally from
the protuberance.

Angles
The squama has angles: superior angle and two lateral angles (marked internally by
ends of the grooves for the transverse sinuses).

Borders
The squama has two borders. The lambdoid border extends from the superior to the
lateral angles, and articulates with the occipital borders of the parietal bones, forming the
lambdoid suture. The mastoid borders extend from lateral angles to the jugular processes,
articulating with the mastoid parts of temporal bones.

BASILAR PART
The basilar part extends anteriorly from the foramen magnum, fusing with the sphenoid
in adults (spheno-occipital synchondrosis).
This part has two surfaces:
Inferior surface of the basilar part has a small pharyngeal tubercle for attachment of the
fibrous pharyngeal raphe, about 1 cm anterior to foramen magnum.
Superior surface of the basilar part is a broad groove and forms part of the clivus, which
ascends anteriorly from the foramen magnum.
On its lateral margins are grooves for the inferior petrosal sinuses, below which the
lateral margins articulate with petrous parts of the temporal bones.

LATERAL (CONDYLAR) PARTS
The lateral (condylar) parts of the occipital bone flank the foramen magnum. On their
inferior surface are occipital condyles for articulation with superior facets of the atlas.
There are oval or kidney like shaped. Behind each condyle is condylar fossa. Its floor is
sometimes perforated by a condylar canal.
On the superior surface an oval jugular tuberculum. It overlies the hypoglossal canal,
which transmits the hypoglossal nerve and meningeal branch of the ascending pharyngeal
artery. Laterally to the jugular tuberculum is jugular process, quadrilateral plate, lined by
a jugular notch. This notch is sometimes divided by small intrajugular process. Jugular
notch, together with the same structure on the petrous part of the temporal bone, forms
the jugular foramen. On the superior surface of the jugular process a deep groove ends at
the jugular notch, it contains the end of the sigmoid sinus (groove for the sigmoid sinus).
 SPHENOID BONE

Sphenoid bone lies in the base of the skull, among the frontal, temporal and occipital
bone. It has body, paired greater and lesser wings and two pterygoid processes,
descending from junctions of the body and greater wings. The body contains sphenoidal
sinuses.

BODY
The body is cuboidal in shape (it has six surfaces) and it contains two paranasal
sphenoidal sinuses.
Cerebral or superior surface
Anteriorly, on the cerebral or superior surface the jugum sphenoidale is placed. Jugum
sphenoidale is bounded behind by the prechiasmatic sulcus, leading laterally to the optic
canals. Posterior to it lies the Turkish saddle (sella turcica), which consists of:
tuberculum sellae, hypophysial fossa (containing the pituitary gland) and dorsum sellae.
The tuberulum sellae is completed laterally by two middle clinoid processes and dorsum
sellae by two posterior clinoid processes.
Posterior surface
Posteriorly to the dorsum sellae, the sphenoidal body, together with the basilar part of the
occipital bone, forms the clivus.
Lateral surfaces
The body‫׳‬s lateral surfaces have carotid sulcuses, which accommodate the internal
carotid artery and cavernous sinus.
Anterior surface
On the anterior surface lies the sphenoidal crest. Its joints the ethmoid bone. On each
side of the crest is an opening of the sphenoidal sinus. The sphenoidal sinuses are closed
antero-inferiorly by sphenoidal conchae.
Inferior surface
The body‫׳‬s inferior surface bears a median triangular sphenoidal rostrum, which
articulates with the vomer. On each side of the posterior part of the rostrum a thin vaginal
process is placed.
LESSER WINGS
The lesser wings are triangular in shape, protruding laterally from the superior margin of
the body. The lesser wing is connected to the body by anterior and posterior root.
Between roots lies the optic canal, containing the optic nerve and ophthalmic artery. The
suprior surface of each wing is a smooth. The inferior surface, together with the greater
wing, forms the superior orbital fissure. On the medial end of the posterior border of the
lesser wings anterior clinoid processes are located.

Superior orbital fissure, triangular in shape, connects middle cranial with orbital cavity.
It is bounded medially by sphenoidal body, superiorly by the inferior surface of the lesser
wing and inferiorly by the orbital surface of the greater wing.

GREATER WINGS
The greater wing is connected to the body by three roots. Between anterior and middle
root is foramen rotundum (transmitting the maxillary nerve); between middle and
posterior root is foramen ovale (transmitting the mandibular nerve). On the spine of the
sphenoid bone is foramen spinosum (transmitting the middle meningeal artery and
meningeal branch of the mandibular nerve).
The greater wings have two surfaces: cerebral and lateral surface. The crebral surface
participates in formation of the middle cranial fossa. The lateral surface is, further,
divided into four surfaces. Temporal surface (which participates in formation of the
temporal fossa) and infratemporal surface (which participates in formation of the
infratemporal fossa) are divided by a transverse infratemporal crest. Orbital surface
forms the lateral wall of the orbital cavity and participates in formation of the superior, as
well as inferior orbital fissurae and maxillary surface participates in formation of the
pterygopalatine fossa.

PTERYGOID PROCESSES
The pterygoid processes descend perpendicularly from the junctions of greater wings and
body. Each consists of a medial and lateral plate, which upper parts are fused anteriorly.
Below, the plates are separated by pterygoid notch and posteriorly they diverge in the
pterygoid fossa, in which is the medial pterygoid muscle attached. Above is the small,
oval scaphoid fossa (for the tensor veli palatini muscle attachment), formed by division
of the upper posterior border of the medial plate. The anterior surface of the root of the
pterygoid process is pierced by the anterior orifice of the pterygoid canal.
The lateral pterygoid plate is thin. Its lateral surface is part of the medial wall of the
infratemporal fossa. Its medial surface is the pterygoid fossa‫׳‬s lateral wall. Also, it has
anterior and posterior border.
The medial pterygoid plate is narrower and longer. Its lower end curves into pterygoid
hamulus. The lateral surface is the pterygoid fossa‫׳‬s medial wall. The medial surface
participates in formation of the posterior nasal aperture. Also, it has anterior and
posterior border.
The medial plate is prolonged above on the sphenoid body‫׳‬s inferior aspect as the thin
vaginal process, connecting anteriorly with the sphenoidal process of the palatine bone
(in that way they form the palatovaginal canal) and medially with the ala of the vomer
(in that way they form the vomerovaginal canal).

SPHENOIDAL SINUS
Sphenoidal sinus is undeveloped at birth. Pneumatization begins at the age of three and
progress posteriorly.
 OUTLINE 2.

Ethmoid, parietal and temporal bone
 ETHMOID BONE

Ethmoid bone lies in the anterior part of the cranial base and participates in formation of
the medial wall of the orbits, as well as the roof, lateral and medial wall of the nasal
cavity.
It has a horizontal, perforated cribriform plate, a median perpendicular plate and two
lateral labyrinths which contain ethmoidal air cells.

CRIBRIFORM PLATE fills the ethmoidal notch of the frontal bone and forms a large
part of the roof of the nasal cavity. It is penetrated by numerous foramina. A triangular
median crista galli projects up from this lamina; its anterior border has two small alae,
completing the foramen caecum, described with the frontal bone.

PERPENDICULAR PLATE, thin and quadrilateral descends from the cribriform plate
to form the upper part of the nasal septum. Its anterior border is attached to the nasal
septal cartilage; its posterior border joining the sphenoidal crest; its inferior border meets
the vomer; its superior border is fused with the cribriform plate, as well as with the nasal
spine of the frontal bone and the nasal bone.

ETHMOIDAL LABYRINTHS consist of thin-walled ethmoidal air cells, classified in
the anterior, middle and posterior group.
The lateral surface or orbital plate of the labyrinth is part of the medial orbital wall, the
medial being part of lateral nasal wall. The superior surface shows open air cells. It is
crossed by two grooves completing anterior and posterior ethmoidal canals with the
frontal bone. On the posterior surface air cells are completed by the sphenoidal conchae
and orbital process of the palatine bone.
The medial surface of the labyrinth forms part of the lateral nasal wall and end as the
convoluted middle nasal concha (forming the middle nasal meatus). Above this the
surface shows the thin, curved superior nasal concha (forming the superior nasal
meatus). Posterior ethmoidal air cells open into this meatus. The conchae curve
infero-medially, each roofing a meatus, which open into the nasal cavity. Concha’s
superior border articulates with the medial surface of the labyrinth and its free lower
border is gently curved.
The superior concha is thin, curved lamina, superior to the middle concha. It roofs the
superior nasal meatus.
The middle concha is larger and it extends above the middle nasal meatus.
Middle ethmoidal air cells produce a swelling called bulla ethmoidalis which is placed
on the lateral wall of the middle meatus.
A thin, curved uncinate process, variable in size, projects postero-inferiorly from the
labyrinth and below bulla ethmoidalis. Uncinate process crosses the ostium of the
maxillary sinus to join the etmoidal process of the inferior nasal concha.
The curved gap between process and bulla is the semilunar hiatus. At its upper end it is
in continuous with the ethmoidal infundibulum. Infundibulum communicates with the
anterior and middle group of ethmoidal air cells, frontal and maxillary sinus.

ETHMOIDAL SINUS
The ethmoidal cells (sinuses) are present at birth. By two years of age they are
recognizable through the use of CT scanning.
 PARIETAL BONE

Parietal bone forms the most of the cranial roof and sides. Quadrilateral in shape, each
bone has two surfaces, four borders and four angles.

Surfaces
1. External surface is convex, with a central parietal tuber (tuberosity). Curved superior
and inferior temporal lines cross it, forming two arches. To the superior arch is attached
the temporal fascia and to the inferior arch is attached the temporalis. Posteriorly close to
the sagittal (superior) border a parietal foramen is placed (sometimes it could be absent).
2. Concave internal surface is marked by cerebral gyri and grooves for the middle
meningeal vessels. Along the sagittal border is a groove for the superior sagittal sinus,
completed by the opposite parietal bone. Granular foveolae for arachnoid granulations
flank the groove for the sagittal sinus.

Borders
1. Serrated sagittal border, longest and thickest, articulates with the opposite parietal
bone and participates in formation of the sagittal suture.
2. Squamous (inferior) border articulates with sphenoid bone.
3. Frontal border is deeply serrated and articulates with the frontal bone to form half of
the coronal suture.
4. Occipital border, deeply serrated, articulates with the occipital bone, forming half of
the lambdoid suture.

Angles
1. Frontal (antero-superior) angle is at the BREGMA (meeting of the sagittal and
coronal sutures).
2. Spenoidal (antero-inferior) angle (PTERION), meeting the frontal bone and greater
sphenoid wing.
3. Occipital (postero-superior) angle is at the LAMBDA, the meeting of sagittal and
lambdoid sutures.
4. Mastoid (postero-inferior) angle (ASETERION) articulates with the occipital and
mastoid process of the temporal bone.
 TEMPORAL BONE

Temporal bones are placed in the sides of the calvaria and the base of the skull. It belongs
to flat and pneumatic bones. Each temporal bone consists of four components: the
squamous, petromastoid and tympanic part, as well as the styloid process.

SQUAMOUS PART
The squamous part is thin. It has vertical and horizontal part.
Vertical part
Its external surface is convex and forms the part of the temporal fossa for the attachment
of temporalis. Also, it shows the groove for middle temporal artery. The supramastoid
crest curves backwards and upwards across its posterior part. The suprameatal triangle
lies in the anterior end of the supramastoid crest. The triangle usually contains a small
suprameatal spine anteriorly.
The internal (cerebral) surface of the squamous part is concave. This surface shows
grooves for the branches of middle meningeal vessels. Its lower border is fused to the
anterior region of the petrous part. The superior border is thin and joints the inferior
border of the parietal bone. Posteriorly it forms an angle with the mastoid element.
Horizontal part
The horizontal part of the squamous part consists of the zygomatic process and
mandibular fossa.
Zygomatic process
The zygomatic process extends forward from the lower region of the squamous part. The
posterior part of the zygomatic process is bounded by anterior and posterior roots. The
anterior root is forming an articular tubercle. The posterior root is small, conical
postglenoidal tubercle, prolonged forwards above the external acoustic meatus. Its upper
border continues into the supramastoid crest.
The anterior part of the zygomatic process is thin and flat. The anterior end is serrated
and articulates with the temporal process of the zygomatic bone, forming zygomatic arch.
Mandibular fossa
The mandibular fossa is limited by the articular tubercle of the zygomatic process. It
presents an anterior articular area, formed by the squamous part, and a posterior,
non-articular area, formed by the tympanic element.
Posteriorly, the mandibular fossa is separated from the tympanic part by the
squamotympanic fissure. Medially, a projection from the petrous part of the temporal
bone (tegmen tympani) goes through the squamotympanic fissure further dividing it into
petrotympanic and petrosquamosus fissures.

PETROMASTOID PART
Petrous part
It has a base, apex, three surfaces (anterior, posterior and inferior) and three borders
(anterior, posterior and superior). It contains the acoustic labyrinth.
The base corresponds to the mastoid processes.
The apex is irregular in shape. It shows the internal opening of the carotid canal and
limits the foramen lacerum posteriorly (with the greater wing of the sphenoid and the
basilar part of the occipital bone).
Anterior surface contributes to the floor of the middle cranial fossa. Behind the apex is a
trigeminal impression for trigeminal ganglion. The arcuate eminence is raised by the
anterior semicircular canal; laterally and anteriorly to it is placed the tegmen tympani
(roof of the tympanic cavity). Anteriorly, tegmen bears groove for the greater petrosal
nerve which passes to enter the bone by hiatus for the greater petrosal nerve. Groove
and hiatus for the lesser petrosal nerve are placed in front of the latter structures.
Posterior surface shows the internal acoustic opening near its center. Behind it lies the
opening of vestibular canaliculus and above it is the subarcuate fossa.
The irregular inferior surface is part of the external surface of the base of the cranium.
Near the apex of the petrous part is a quadrilateral area which is associated with the
attachment of muscles. Behind this region is the large circular external opening of the
carotid canal, behind which is the jugular fossa which contain the superior bulb of the
internal jugular vein.
Superior border is the longest and is grooved by the superior petrosal sinus.
Posterior border is intermediate in length. Together with the occipital bone jugular fossa
contributes to the jugular foramen. The jugular foramen is divided into two parts.
Anterior part transmitting nerves (IX, X XI cranial nerve) and posterior part is place
where sigmoid sinus continues as internal jugular vein and descends into the neck.
Mastoid part
This is posterior region of the temporal bone. This part projects down as mastoid process.
It has three surfaces. Outer or lateral surface shows the mastoid foramen, which is
variable size and position. Internal surface of the mastoid process bears a deep groove
for the sigmoid sulcus. Inferior surface contains the deep mastoid notch for the posterior
belly of digastric muscle attachment and the occipital groove, in which occipital artery
runs. It is located medially to the notch. Superior border of the mastoid part is serrated
for the articulation with the mastoid angle of the parietal bone. Posterior border, serrated
as well, articulates with the occipital bone.

TYMPANIC PART
The tympanic part of the temporal bone is part below the squamous part and in front of
the mastoid process. The bony part of the external acoustic meatus is about 16 mm long.
Its medial end is closed by tympanic membrane (placed in the tympanic sulcus) and the
outer end is bounded by the posterior zygomatic root (the postglenoid tubercle),
superiorly. Inferior border is sharp and form the sheath of the styloid process (vaginal
process). Between the styloid and mastoid process the stylomastoid foramen is placed,
the external end of the facial canal which transmits the facial nerve and stylomastoid
artery. The cartilaginous part of the external acoustic meatus is attached to the lateral
surface of the bony part.

STYLOID PROCESS
The styloid process projects antero-inferiorly from the inferior aspect of the temporal
bone. Its length is variable. The process is covered laterally by the parotid gland; the
facial nerve crosses its base, the external carotid artery its tip. Medially, the process is
separated from the beginning of the internal jugular vein by the attachment of
stylopharyngeus.
 OUTLINE 3.

FACIAL BONES
 MAXILLA

Maxillae hold the upper teeth, both together form the upper jaw, and connect on the left and
right with the zygomatic bones (cheek bones). Each assists in forming the boundaries of three
cavities, namely, the roof of the oral cavity, the floor and lateral wall of the nasal cavity and the
floor of the orbit. The maxilla also enters into the formation of two fossae, the infratemporal
and pterygopalatine, and two fissures, the inferior orbital and pterygomaxillary.

Each bone consists of a body and four processes, frontal, alveolar, zygomatic and palatine.

The body (‘corpus maxillae’)

The body is pyramidal in shape, and contains a large cavity, the maxillary sinus. It has base,
nasal surface, apex and three surfaces - an anterior or facial, a posterior or infratemporal, a
superior or orbital.

Surfaces of the body

The anterior surface is directed anterolaterally. Just above of the canine teeth is a depression,
the canine fossa. Above the fossa is the infraorbital foramen, the end of the infraorbital canal;
it transmits the infraorbital vessels and nerve. Medially, the anterior surface is limited by a
deep concavity, the nasal notch, which with its fellow of the opposite side forms the anterior
nasal spine.

The infratemporal surface is convex, directed posterolaterally and forms part of the
infratemporal fossa. It is separated from the anterior surface by the zygomatic process and by a
strong ridge, extending upward from the socket of the first molar tooth. It is pierced about its
center by the alveolar foramina, the apertures of the alveolar canals, which transmit the
posterior superior alveolar vessels and nerves. At the lower part of this surface is a rounded
eminence, the maxillary tuberosity.

The orbital surface is a thin plate of bone, which forms the floor of the orbit. Immediately
deep to this thin plate is the maxillary sinus. Near the middle of the posterior part of the orbital
surface is the infraorbital groove, for the passage of the infraorbital vessels and nerve. The
groove passes forward, and ends in an infraorbital canal. The canal opens into the anterior
surface as the infraorbital foramen.

The nasal surface presents a large, irregular opening, maxillary hiatus, leading into the
maxillary sinus. Below the aperture is a smooth concavity which forms part of the inferior
meatus of the nasal cavity, and behind it is a rough surface for articulation with the
perpendicular plate of the palatine bone; this surface is traversed by a greater palatine groove.
Groove is converted into a greater palatine canal by the perpendicular plate. In front of the
opening of the sinus is deep groove, the lacrimal groove, which makes up about two-thirds of
the cicrumference of the nasolacrimal canal. The rest of the canal is contributed by the
lacrimal bone and inferior nasal concha; this canal opens into the inferior meatus of the nose
and transmits the nasolacrimal duct, which transports tears from the orbit to the nasal cavity.
More anteriorly is an oblique ridge, the conchal crest, for articulation with the inferior nasal
concha.

The frontal process ('processus frontalis; nasal process')

Its lateral surface is divided by vertical anterior lacrimal crest, which is continuous below with
the infraorbital margine of the body. The smooth area anterior to the anterior lacrimal crest
merges below with the anterior surface of the body of the maxilla. Behind the crest, a vertical
groove combines with one on the lacrimal bone to complete the lacrimal fossa. Its medial
surface forms part of the lateral wall of the nasal cavity. A rough subapical area articulates
with the ethmoidal bone, below this is the ethmoidal crest, the posterior end of which
articulates with the middle nasal concha. The upper border articulates with the frontal bone and
the anterior with the nasal; the posterior border is thick, and hollowed into a groove, which is
continuous below with the lacrimal groove on the nasal surface of the body.

The zygomatic process ('processus zygomaticus; malar process')

The zygomatic process extends laterally to the zygomatic bone. In front it forms part of the
anterior surface; behind, it is concave, and forms part of the infratemporal fossa; above, it is
serrated for articulation with the zygomatic bone; while below, it presents the prominent
arched border which marks the division between the anterior and infratemporal surfaces. The
zygomatic process is the apex of the pyramid.

The alveolar process ('processus alveolaris')

The alveolar process of booth maxillae form the upper alveolar (dental) arch. The alveolar
process forms the sockets and supporting bone for the maxillary teeth. These cavities dental
alveoli are separated by interalveolar septa. They are eight in number, and vary in size and
depth according to the teeth they contain. That for the canine tooth is the deepest; those for the
molars are the widest, and are subdivided into minor cavities by interradicular septa; those for
the incisors are single, but deep and narrow.

The palatine process ('processus palatinus; palatal process')

The palatine process, is horizontal and projects medially from the nasal surface of the bone. It
forms a considerable part of the floor of the nose and the roof of the mouth.

The superior surface of the palatine process is concave from side to side, smooth, and forms
the greater part of the floor of the nasal cavity. It presents, close to its medial margin, the upper
orifice of the incisive canal. The lateral border of the process is continuous with the body of the
maxilla. The medial border is thicker in front than behind, and is raised above into a ridge, the
nasal crest, which, with the corresponding ridge of the opposite bone, forms a groove for the
reception of the vomer. The front of this ridge rises to a considerable height, and is named the
incisor crest; it is prolonged forward into a sharp process, which forms, together with a similar
process of the opposite bone, the anterior nasal spine. The posterior border is serrated for
articulation with the horizontal part of the palatine bone (the transverse palatine suture).

Its inferior surface is concave, and forms, with the palatine process of the opposite bone, the
anterior three-fourths of the bony palate. The inferior surface displays palatine spines and
palatine grooves for the transmission of the descending palatine vessels and nerve. The medial
border articulates with the palatine process of the opposite bone, and forms the median palatine
suture. The lateral border of the process is continuous with the rest of the bone. When the two
maxillae are articulated, a tunnel-shaped opening, the incisive foramen, is seen in the middle
line, immediately behind the incisor teeth. In this opening the orifices of two lateral canals are
visible; they are named the incisive canals. On the under surface of the palatine process, a
delicate linear suture, well seen in young skulls, may sometimes be noticed extending
anterolaterally on either side from the incisive foramen to the interval between the lateral
incisor and the canine tooth. The small part in front of this suture constitutes the premaxilla (os
incisivum), which in most vertebrates forms an independent bone; it includes the whole
thickness of the alveolus, the corresponding part of the floor of the nose and the anterior nasal
spine, and contains the sockets of the incisor teeth.

The maxillary sinus ('sinus maxillaris')
The maxillary sinus is a large pyramidal cavity within the body of the maxilla: its apex extends
into the zygomatic process and the base, medial wall, forms part of the lateral wall of the nasal
cavity. Its walls are everywhere exceedingly thin, and correspond to the nasal, orbital, anterior,
and infratemporal surfaces of the body of the bone. Its nasal wall, or base, presents a large,
irregular aperture, communicating with the nasal cavity. In the articulated skull this aperture is
much reduced in size by the following bones: the uncinate process of the ethmoid above, the
ethmoidal process of the inferior nasal concha below, the vertical part of the palatine behind,
and a small part of the lacrimal bone. It usually opens into the posterior part of the middle
meatus of the nose, generally by two small apertures left between the above-mentioned bones.
Usually only one small opening exists, near the upper part of the cavity; the other is closed by
mucous membrane. The floor is formed by the alveolar process and part of the palatine process
of the maxilla and the roof contributes the major part of the floor of the orbit. Anterior wall
forms anterior, facial surface, and posterior wall is formed by infratemporal surface of the
maxilla. The infraorbital canal usually projects into the cavity as a well-marked ridge
extending from the roof to the anterior wall. On the posterior wall are the alveolar canals,
transmitting the posterior superior alveolar vessels and nerves to the molar teeth. The size of
the cavity varies in different skulls, and even on the two sides of the same skull.

Changes produced in the maxilla by age

At birth the transverse and anteroposterior diameters of the bone are each greater than the
vertical. The frontal process is well-marked and the body of the bone consists of little more
than the alveolar process, the teeth sockets reaching almost to the floor of the orbit. The
maxillary sinus presents the appearance of a furrow on the lateral wall of the nose. In the adult
the vertical diameter is the greatest reflecting the development of the alveolar process and
enlargement of the sinus. In old age the bone reverts in some measure to the infantile
condition; its height is diminished, and after the loss of the teeth the alveolar process is
absorbed, and the lower part of the bone contracted and reduced in thickness.

MANDIBLE

The mandible is the largest, strongest and lowest bone in the face. It holds the lower teeth
in place and articulates with the temporal bones of the skull at the temporomandibular movable
synovial joints.
It has a horizontally curved body that is convex forwards, and two broad rami, that ascend
posteriorly. The junction of the posterior border of the ramus and the lower border of the body
forms the prominent angle of the mandible.

The body of mandible

The body is U-shaped and has external and internal surfaces separated by upper and lower
borders.
Anteriorly, the external surface shows an inconstant faint median ridge, which indicates
fusion of the halves of the fetal bone at the mandibular symphysis (symphysis menti). It is
present at birth and begins to fuse in the first year of life, resulting in one mandible. Inferiorly,
this ridge divides to enclose a mental triangle. Its base forms mental protuberance which eds
on each side as a mental tubercle. The mental protuberance and mental tubercles constitute the
chin. The mental foramen, from which the mental nerve and vessels emerge, is situated below
either the interval between the premolar teeth, or the second premolar tooth. The external
oblique line is a ridge of bone, which originates at the mental tubercle and sweeps upward and
posteriorly to become the sharp anterior border of the ramus. A number of muscles of facial
expresion are attached to the external surface of the mandible.
The internal surface is divided by an oblique mylohyoid line, sharp and distinct near the
molars, but faint in front. It extends from a point a centimetre from the upper border behind the
third molar to the mental symphysis. To the mylohyoid line is attached mylohyoid muscle (and
above its posterior end the superior pharyngeal constrictor, some fascicles of the buccinator,
and the pterygomandibular raphe behind the third molar). Below this line is the slightly
concave submandibular fossa which adjoins submandibular salivary gland. The area above the
mylohyoid line widens anteriorly into a triangular sublingual fossa related to the sublingual
gland. Above the mylohyoid line, medial to the molar roots, a rounded torus mandibularis –
mandibular torus sometimes appears. In the midline of the body is a small elevation, often
divided into upper and lower parts, the superior and inferior mental spines (or genial spine).
The superior mental spine gives attachment to the genioglossus, and the inferior mental spine
to the geniohyoid.
The upper border, the alveolar part, contains 16 dental sockets, or the dental alveoli, for
the roots of the lower teeth. It consists of lateral, or buccal (also called facial), and medial, or
lingual, plates of bone joined transversely by interdental and interradicular septa. Interalveolar
septa form individual sockets between the roots of adjacent teeth. Interradicular septa form
individual sockets for the multirooted teeth. The roots cause on external surface of mandible
bulges called alveolar yokes. The external surface of the alveolus adjacent to the molar teeth
gives attachment to buccinator.
If the teeth are lost, alveolar bone is resorbed and the mandibular canal and mental foramen
come to lie nearer the superior border.
The lower border of the body, the base, extends posterolaterally from the mandibular
symphysis into the lower border of the ramus behind the third molar tooth. It can be palpated in
its entirety just deep to the skin. Near the midline, on each side, is a rough digastric fossa that
gives attachment to the anterior belly of the digastric muscle. The facial artery usually curls
round the base of the mandible, sometimes making a shallow groove.

The ramus of mandible

The mandibular ramus is quadrilateral, and has two surfaces (lateral and medial), four
borders (superior, inferior, anterior and posterior) and two processes (coronoid and condylar).
The lateral surface is relatively fetureless and bears the oblique ridges in its lower part
providing attachment for masseter (masseteric tuberosity).
The medial surface presents, a little above centre, an irregular mandibular foramen,
leading into the mandibular canal, curving down and forwards into the body. Anteromedially
the foramen is overlapped by a thin, triangular, and tonguelike lingula. Attached to it is the
sphenomandibular ligament. The mylohyoid groove runs downward and forward from the
inferior border of the mandibular foramen, below the posterior part of the mylohyoid line.
Occupying this groove are the nerve and vessels to the mylohyoid muscle. The medial surface
of the ramus receives the medial pterygoid on the roughened area postero-inferior to the
mylohyoid groove (pterygoid tuberosity).
The thin superior border bounds the mandibular incisure (or the mandibular notch)
surmounted in front by the somewhat triangular, flat coronoid process and behind by a strong
condylar process.
The inferior border of the mandibular ramus is continuous with the mandibular base. It is
typically everted in males, but in females is frequently inverted.
The anterior border is thin above where it is continuous with that of the coronoid process,
and thicker below where it is continuous with the oblique line. The temporal crest is a ridge of
bone on the internal surface of the ramus, paralelly to its anterior border. It runs down from the
tip of the coronoid process to the third molar tooth where it divides into two ridges, lateral and
medial. The retromolar fossa, is the depression between the lateral and medial ridges of
temporal crest and the third molar. This landmark is extremly important in locating the site of
injection for an anesthetic block of the inferior alveolar nerve.
The posterior border, thick and rounded, extends from the condyle to the angle, being
gently convex backwards above, and concave below. It is in contact with the parotid gland.

The coronoid process is sharp and projects up slightly forwards. Its margins and medial
surface are attachments for most of the temporalis.
The condylar process consists of the head and neck. The head is covered by fibrocartilage
and articulates with reciprocally shaped mandibular fossa of the temporal bone. It is convex in
all directions with greater transverse dimension. Its lateral aspect is palpable in front of the
auricular tragus. Below the head is the narrower neck. The neck’s anterior surface bears a
rough pterygoid fovea which receives the lateral pterygoid. Its medial surface is related to the
auriculotemporal nerve and maxillary artery.
The mandibular canal

The mandibular canal is the continuation of the mandibular foramen deep into the
mandible. It runs obliquely inferiorly and anteriorly through the ramus and body just below the
roots of the mandibular teeth with which it communicates by small canals. The canal ends at
the midline. It carries the inferior alveolar nerve and vessels from which branches enter dental
roots, periodontal sockets and septa. Between the roots of the first and second premolars, or
below the second, the canal divides into mental and incisive parts. The mental canal swerves
up, back and laterally to the mental foramen, and the incisive canal continues below the incisor
teeth.

INFERIOR NASAL CONCHA

The inferior nasal concha is curved horizontal lamina in the lateral nasal wall. It has
two surfaces, medial and lateral, two borders, superior and inferior and two ends, anterior and
posterior. The medial surface is convex, and lateral is concave forming internal wall of the
inferior nasal meatus. The superior border is divided into three regions; anterior articulating
with the conchal crest of the maxilla, posterior articulating with the conchal crest of the
palatine bone, and the middle part with three processes, variable in size and form. The lacrimal
process is small and articulates with descending process from the lacrimal bone, it forms part
of the nasolacrimal canal. Most posteriorly, a thin ethmoidal process articulates with uncinate
process of the ethmoidal bone. In the midlle part of the superior border there is maxillary
process. It curves inferolaterally to articulate with medial surface of the maxilla at the opening
of the maxillary sinus. The inferior border is thick.

LACRIMAL BONE

The lacrimal bone is the smallest of the cranial bones. It lies anteriorly in the medial
wall of the orbit. It has two surfaces, medial and lateral, and four borders, superior, inferior,
posterior and anterior. The lateral (orbital) surface is divided by a vertical posterior lacrimal
crest. Anterior to the crest there is vertical groove and the anterior edge of the groove meets the
posterior border of the frontal process of the maxilla to complete the fossa for the lacrimal sac.
The medial wall of the groove is prolonged by a descending process that contributes to the
formation of the nasolacrimal canal by joining the maxilla and lacrimal process of inferior
nasal concha. A part of the lateral surface behind the lacrimal crest extends inferiorly into the
lacrimal hamulus, which, together with maxilla, completes the upper opening of the
nasolacrimal canal. The anterior lacrimal border articulates with the frontal process of the
maxilla, the posterior border with orbital plate of the ethmoid bone, the superior border with
the frontal bone and the inferior border with the orbital surface of the maxilla.
 NASAL BONE

Two nasal bones are small, oblong, variable in size and form, and placed side by side
between the frontal processes of the maxillae. They form the nasal bridge. Each nasal bone has
two surfaces, external and internal, and four borders, superior, inferior, lateral and medial. The
external surface is convex and internal concave. The superior border articulates with frontal
bone. Thin inferior border is continuous with lateral nasal cartilage. The lateral border joins the
frontal process of the maxilla and medial meet its fellow.

VOMER

The vomer is thin, flat and almost trapezoid. It forms posteroinferior part of the nasal
septum. It has two surfaces and four borders, superior, inferior, anterior and posterior. Both
surfaces are marked by grooves for nerves and vessels. The tick superior border bears alae
separated by deep groove. The inferior border articulates with median nasal crests of the
maxillae and the palatine bones. The anterior border is the longest and articulates in its upper
half with the perpendicular plate of the ethmoid bone. The posterior border is concave,
separating the posterior nasal apertures.

ZYGOMATIC BONE

Each zygomatic bone forms the prominence of a cheek, contributes to the floor and
lateral wall of the orbit and the walls of the temporal and infratemporal fossae, and completes
the zygomatic arch. It is described as having three surfaces, five borders and two processes.
The surfaces are lateral, posteromedial and orbital.
The lateral (facial) surface is convex. Its upper part bears zygomaticofacial foramen for
the zygomaticofacial nerve and vessels.
The posteromedial (temporal) surface articulates anteriorly with zygomatic process of
the maxilla, and greater posterior smooth part extends up posteriorly on its frontal process
forming anterior wall of temporal fossa. This surface bears the zygomaticotemporal foramen.
The orbital surface is smooth and concave and forms anterolateral ppart of the orbital
floor and adjacent lateral wall. It bears zygomatico-orbital foramen which leads into the
zygomatic canal.
The concave anterosuperior (orbital) border forms inferolateral part of the orbital
opening. The anteroinferior (maxillary) border articulates with the maxilla. The
posterosuperior (temporal) is convex above and concave below. The posteroinferior border
serves as attachment of masseter. The posteromedial border articulates with the greater wing of
the sphenoidal bone above and maxilla below.
The frontal process articulates above with the zygomatic process of the frontal bone and
behind with greater wing of the sphenoidal bone.
 The temporal process, directed backwards, articulates with zygomatic process of the
temporal bone to complete the zygomatic arch.

PALATINE BONE

The palatine bone is paired bone, posteriorly placed in the nasal cavity between the
maxilla and the pterygoid process of the sphenoidal bone. It contributes to the floor and lateral
wall of the nose, to the floor of the orbit, to the pterygopalanine and pterygoid fossae. It is
irregular in shape with two plates, horizontal and perpendicular, arranged as an L- shape, and
three processes, pyramidal, orbital and sphenoidal.

Horizontal plate

The horizontal plate is guadrilateral, with two surfaces, nasal and palatine, and four
borders, anterior, posterior, lateral and medial. The nasal, superior surface is concave, and
forms the posterior part of the nasal floor. The palatine, inferior surface, with its fellow, forms
the posterior quarter of the bony palate. The posterior border is thin and concave. Medially,
with its fellow from the opposite side, the posterior border forms a median posterior nasal
spine. The anterior border articulates with the palatine process of the maxilla. The lateral
border is continuous with the perpendicular plate of the palatine bone. The medial border
articulates with its fellow in the midline and forms posterior part of the nasal crest which
articulates with the posterior part of the lower edge of the vomer.

Perpendicular plate

The perpendicular plate is thin and has two surfaces, nasal and maxillary, and four
borders, anterior, posterior, superior and inferior.
The nasal, medial surface bears two crests, conchal and ethmoidal. Inferiorly, the nasal
surface is concave where it contributes to part of the inferior nasal meatus. Above this is
horizontal crest that articulates with inferior nasal concha. Above the conchal crest there is
shallow depression which forms a part of the middle nasal meatus. This depression is limited
above by an ethmoidal crest for the middle nasal concha, above which a narrow, horizontal
groove forms part of the superior nasal meatus.
The maxillary, lateral surface is largely rough and irregular and articulates with nasal
surface of the maxilla. Posterosuperiorly it forms a smooth medial wall to the pterygopalatine
fossa. Its anterior area, also smooth, overlaps the maxillary hiatus from behind to form a
posterior part of the medial wall of the maxillary sinus. Posteriorly on the maxillary surface
there is deep descending greater palatine groove. This groove is converted into the canal by the
maxilla. The greater palatine canal transmits the greater palatine vessels and nerv.
The anterior border is thin and irregular. Level with the conchal crest, a pointed lamina
projects below and behind the maxillary process of the inferior concha and articulates with it
and so appears in the medial wall of the maxillary sinus.
The posterior border articulates with medial pterygoid plate.
 Orbital and sphenoidal processes project from the superior border, and are separated
by the sphenopalatine notch (converted into a foramen by articulation with the body of the
sphenoid).
The inferior border is continuous with the lateral border of the horizontal plate.

Pyramidal process

The pyramidal process slopes down posterolaterally from the junction of the horizontal
and perpendicular palatine plates into the angle between the pterygoid plates of the sphenoid
bone. On its posterior surface there is a smooth, grooved triangular area which completes, with
pterygoid plates, the pterygoid fossa.

Orbital process

The orbital process is directed superolaterally from the anterosuperior angle of the
perpendicular plate. It has three articular and two non-articular surfaces. It articulates with
maxilla, sphenoidal and ethmoidal bones. Of the non-articular, the superior orbital forms small
posterior part of the orbital floor. The lateral surface forms part of the anterior wall of the
ptreygopalatine fossa.

Sphenoidal process

The sphenoidal process is a thin plate that is directed superomedially from the
superoposterior angle of the perpendicular plate. Its superior surface articulates with
sphanoidal bone (body and root of the medial pterygoid plate). The lateral surface with its
anterior smooth pars forms part of the medial wall of the pterygoid fossa. The inferomedial
surface forms part of root and lateral wall of the nose.

HYOID BONE

The hyoid bone is a small bone that has the shape of the horseshoe, or the letter U. It is placed
in the anterior side of the neck, between the mandible and the larynx. Main parts of the hyoid
bone are the body and two paired processes, the greater and the lesser horns. The body has two
surfaces, anterior and posterior and two borders, superior and inferior. The greater horns
project posteriorly and superiorly from the body and the lesser horns start superiorly from the
place where greater horns joins the body.
The hyoid bone connects the floor of the oral cavity in front with the pharynx behind and the
larynx bellow.
 OUTLINE 4.

CRANIO-FACIAL CAVITIES
NEONATAL CRANIUM
TEMPORAL FOSSA

The temporal fossa is a narrow fan-shaped space that cover the lateral surface of the skull. It is
limited above by a pair of temporal lines that extend across the skull from the zygomatic process
of the frontal bone to the supramastoid crest of the temporal bone.

INFRATEMPORAL FOSSA

The wedge-shaped infratemporal fossa is inferior to the temporal fossa and middle cranial fossa
and deep to the ramus of the mandible. It has four walls, anterior, medial, lateral and superior
wall or the roof and is open to the neck posteroinferiorly.

The anterior wall is formed by the posterior, infratemporal surface of the maxilla, contains the
alveolar foramina. Along the superior border of the anterior wall there is lateral part of the
inferior orbital fissure.

The lateral wall is formed by medial surface of the ramus of the mandible. It bears the opening
to the mandibular canal.

The medial wall is formed by lateral plate of the pterygoid process of the sphenoid bone. It
contains the pterygomaxillary fissure anteriorly, which is communication between the
infratemporal and pterygopalatine fossae.

The superior wall, or roof is formed by inferior, infratemporal surface of the greater wing of the
sphenoid. Lateral to the infratemporal crest of the greater wing of the sphenoid the infratemporal
fossa communicates through the zygomatic foramen with the temporal fossa superiorly. The
zygomatic foramen is space between the infratemporal crest of the greater wing medially and
zygomatic arch laterally.

The major structures which occupy the infratemporal fossa are medial and lateral pterygoid
muscles, the maxillary artery, the mandibular nerve, chorda tympani branch of the facial nerve,
the parasympathetic otic ganglion and the pterygoid venous plexus.

PTERYGOPALATINE FOSSA

The pterygopalatine fossa is an inverted “tear-drop” shaped space between bones on the lateral
side of the skull immediately posterior to the maxilla and anterior to the pterygid process of the
sphenoid. It is placed laterally to the nasal cavity, medially to the infratemporal fossa. Shaped
like four-sided pyramid, it has three walls, anterior, medial and posterior, (the lateral wall is
missed), the base or the roof, turned upward and apex turned downward.

The anterior wall is formed by the posterior surface of the maxilla. Along the superior border of
the anterior surface there is medial part of the superior orbital fissure.
The medial wall is formed by the lateral surface of the perpendicular plate of the palatine bone.
In the upper part of this surface there is sphenopalatine foramen, the communication with the
nasal cavity.

The posterior wall is formed by the anterosuperior surface of the pterygoid process and the
upper part of the posterior wall is formed by the maxillary surface of the greater wing of the
sphenoid bone. It bears the foramen rotundum (communication with middle cranial fossa) and
more medial and inferior small foramen, the anterior opening of the pterygoid canal.

Laterally the pterygopalatine fossa communicates with infratemporal fossa through the
pterygomaxillary fissure.

The roof is formed by the inferior surface of the body of the sphenoid bone.

The apex of the pterygopalatine fossa extends inferiorly in to the greater palatine canal, which is
communication with oral cavity.

Major contents of the pterygopalatine fossa are the maxillary nerve, the pterygopalatine ganglion
and the terminal part of the maxillary artery.

NASAL CAVITY

The two nasal cavities are the irregular spaces between the roof of the mouth and the cranial
base, divided by bony vertical septum that is approximately median in position. Lateral to the
nasal cavities are orbits. Each nasal cavity has superior wall or roof, inferior wall or floor,
lateral wall and medial or septal wall and two openings, anterior and posterior. The cavity is
wider below than the above, and widest and vertically deepest in its central region.

Bones that contribute to the skeletal framework of the nasal cavities include:
- the unpaired ethmoid, sphenoid, frontal bone and vomer
- the paired nasal, palatine and lacrimal bones, maxillae and inferior nasal conchae.
Of all the bones associated with the nasal cavities, the ethmoid is a key element.

Roof
The roof is horizontal. Its anterior part is formed by the nasal spine of the frontal bones and the
nasal bones. The central part is formed by the cribriforme plate of the ethmoid bone which
separates the nasal cavity from the anterior cranial fossa. Posteriorly, the roof is formed by the
anterior and inferior surfaces of the body of the sphenoid. At the junction of the cribriforme plate
of the ethmoid and the body of the sphenoid there is spheno-ethmoidal recess.

Floor
The floor of the nasal cavity or bony palate is smooth, concave and slopes up from anterior to
posterior apertures. Anteriorly, the palatine processes of the maxillae and, behind them, the
horizontal plates of the palatine bones, articulate in the midline and with each other. The nasal
floor is therefore crossed at the junction of its middle and posterior thirds by the transverse
palatine suture and in the midline, at the junction of the two halves of the bony palate there is
median palatine suture.

Medial wall

The medial wall of the nasal cavity is the bony nasal septum which is placed vertically in the
median sagittal plane and separates the right and left nasal cavities from each other. It is formed
primarily by the vomer and the perpendicular plate of the ethmoid. The vomer extends from the
body of the sphenoid to the bony palate, forming the posteroinferior part of the septum
(including the posterior border). The perpendicular plate of the ethmoid forms the anterosuperior
part of the bony nasal septum. The nasal septum is often deviated, more usually to the left.

Lateral wall

The lateral wall is formed largely by the maxilla, anteroinferiorly; by the perpendicular plate of
the palatine bone and medial plate of the pterygoid process of the sphenoid bone posteriorly;
superiorly by the labyrinth of the ethmoid bone (which separates the nasal cavity from the orbit)
and medial surface of the lacrimal bone and inferiorly by the inferior nasal concha. The lateral
wall contains three projections of variable size called the inferior, middle and superior nasal
conchae. The inferior nasal concha is independent bone which articulates with the nasal surface
of the maxilla and the perpendicular plate of the palatine bone. It is the largest nasal concha and
extends along almost all the lateral nasal wall. The middle and superior nasal conchae are medial
processes of the ethmoidal labyrinth. Inferolateral surfaces of the superior, middle and inferior
nasal conchae form with lateral nasal wall superior, middle and inferior nasal meatuses. The
part of the nasal cavity between the superomedial surfaces of the three nasal conchae and the
nasal septum is common nasal meatus and the part of the nasal cavity behind the nasal conchae
and the posterior opening of the nasal cavity is nasopharyngeal meatus.

The posterior nasal apertures or choanae are oval openings separated by the posterior border of
the vomer. Each choana is limited below by the horizontal plate of the palatine bone, above by
the body of the sphenoid and laterally by the medial pterygoid plate.

The anterior nasal aperture or piriform aperture is formed in its larger inferior and lateral parts
by the maxillae and the nasal bones above.

ORBIT

The upper part of the facial skeleton contains two orbital cavities. Each cavity is pyramidal in
shape and has a base at the orbital opening and long, posteromedially directed axis. The major
structures which occupy the orbital cavity are eye and optic nerve, the extraocular muscles, blood
vessels and nerves and lacrimal apparatus.

Each orbit has four walls, the roof or superior wall, floor or inferior wall, medial and lateral
walls, a base and the apex.
Roof

The roof or the superior wall is formed chiefly by the thin orbital plate of the frontal bone with
small contribution from the sphenoid bone. Posteriorly, the lesser wing of the sphenoid bone
completes the roof. It is gently concave at its orbital surface, which separates the orbital contents
and the brain in the anterior cranial fossa. Anteromedially it bears a small trochlear fovea or
spine where the trochlea for superior oblique is attached. Anterolaterally there is a shallow
lacrimal fossa for the orbital part of the lacrimal gland.

Floor

The floor or inferior wall is mostly formed by the maxilla and, anteriorlly, by the zygomatic
bone. Posteromedially the small triangular orbital process of the palatine bone joints the medial
wall. The floor is thin and largely roofs the maxillary sinus. Not quite horizontal, it ascends a
little laterally. Posteriorly it is separated from the lateral wall by the inferior orbital fissure,
which connects the orbit posteriorly to the pterygopalatine fossa, and more anteriorly to the
infratemporal fossa. From the posterior border of the floor of the orbit runs forwards the
infraorbital groove and continues into the infraorbital canal which opens on the face at the
infraorbital foramen.

Lateral wall

The lateral wall is formed by the orbital surface of the greater wing of the sphenoid posteriorly
and by the frontal process of the zygomatic bone anteriorly. The lateral wall is the thickest wall
of the orbit, especially posteriorly where it separates the orbit from the middle cranial fossa.
Anteriorly the lateral wall separates the orbit and the temporal fossa. The lateral wall and the
roof are separated posteriorly by the superior orbital fissure. The superior orbital fissure
connects orbit with middle cranial fossa.

Medial wall

The medial wall of the orbit is extremely thin except posteriorly. It consists of four bones: the
maxilla, lacrimal, ethmoid and sphenoid bones. Anteriorly is frontal process of the maxilla.
Behind it is lacrimal bone. The largest part of the medial wall is formed by orbital plate of the
ethmoid bone, and posteriorly is the body of the sphenoid bone. The anterior part of the medial
wall bears the fossa for the lacrimal sac formed by lacrimal grooves on the frontal process of
maxilla and lateral surface of the lacrimal bone. The fossa for the lacrimal sac is limited
anteroirly by the anteiror lacrimal crest on the frontal process and posteriorly by the posterior
lacrimal crest on the lacrimal bone. The fossa for the lacrimal sac continues below into the
nasolacrimal duct. The orbital plate of the ethmoid bone articulates above with the frontal bone
at a suture which is interrupted by anterior and posterior ethmoidal foramina which connect orbit
with anterior cranial fossa.

Orbiral opening

The orbital opening or base of the orbit is quadrangular in shape with rounded angles. On the
orbital opening there is the orbital margin formed by four margins: supra-orbital margin on the
frontal bone, medial margin, the anterior lacrimal crest on the frontal process of the maxilla,
infra-orbital margin on the maxilla and on the zygomatic bone, and lateral margin on the
frontal process of the zygomatic bone and zygomatic process of the frontal bone.

Apex

The apex of the orbit lies near the medial end of the superior orbital fissure and contains the
optic canal. The optic canal lies between the roots of the lesser wing of the sphenoid and is
bounded medially by the body of the sphenoid.
NEONATAL CRANIUM – FONTANELLES

The many bones of the head collectively form the skull. Most of these bones are interconnected
by sutures, which are immovable fibrous joints. In the fetus and newborn there are large
membranous and unossified gaps, fontanelles between the bones of the skull, particulary
between the large flat bones that cover the top of the cranial cavity. The fibrous membrane,
forming the cranial vault before ossification, is unossified at the angles of the parietal bones,
leaving six fonticulli (fontanelles), two median (anterior and posterior) and two lateral pairs
(sphenoidal and mastoid).
The anterior fontanelle, the largest, at the junction of the sagittal, coronal and frontal sutures, and
hence rhomboid in shape, is 4 cm in anteroposterior and 2,5 cm in transverse dimensions.
The posterior fontanelle, at the junction of the sagittal and lambdoid sutures, is hence triangular.
The sphenoidal (anterolateral) and mastoid (posterolateral) fontanelles are small, irregular and at
the sphenoidal and mastoid angles of the parietal bones.
The fontanelles allow the head to deform during its passage through the birth canal, and to allow
the postnatal growth. Fontanelles and the width of the sutures allow bones of the cranial vault
some overlap. The skull is compressed in one plane with compensatory elongation orthogonal to
this. These disappear within the first week.
At birth the skull is larger in proportion to other skeletal parts, but the facial region is relatively
small compared with its size in the adult life. Smallness of the face at birth is due to the
rudimentary stage of the mandible and maxillae, non-eruption of the teeth and the small size of
the maxillary sinuses and nasal cavity. The large size of the calvaria, especially the cranial vault,
is related to precocious cerebral growth.
Growth of the vault is rapid during the first year and then slower to the seventh by which time it
has reached almost adult dimensions. Most of the fontanelles close during the first year of life by
ossification of the bones around them. The sphenoidal and posterior fontanelles are closed within
2 or 3 months of birth. Mastoid fontanelles are closed usually near the end of the first year and
the anterior fontanelle at about the middle of the second year.
 OUTLINE

General vertebral features
Cervical vertebrae

Craniovertebral joints
GENERAL VERTEBRAL FEATURES

A vertebra has a ventral body and a dorsal vertebral (neural) arch, together enclosing a
vertebral foramen, occupied by the spinal cord, meninges and their vessels. Opposed surfaces
of adjacent bodies are bound together by intervertebral discs of fibrocartilage. The foramina
form a vertebral canal for the spinal cord and between vertebral bodies, intervertebral
foramina. The cylindroid vertebral body varies in size, shape and proportions in different
regions.
The vertebral arch has on each side a narrower ventral part, the pedicle and dorsally a
broader lamina. Projecting from their junctions are paired, superior and inferior articular
processes; dorsally is a median spinous process.
Pedicles are short and thick. The upper (superior) and lower (inferior) border, of the
pedicle are concave and form a superior shallow and an inferior deep notch. Adjacent vertebral
notches contribute to an intervertebral foramen when.
Laminae, directly continuous with pedicles are vertically flattened.
The spinous process (spine) projects dorsally from the junction of the laminae. Spines
vary much in size, shape and direction.
The superior and inferior articular processes (zygapophyses) arise from the vertebral
arch at the pediculolaminar junctions. Articular processes of adjoining vertebrae thus form
small synovial zygapophyseal joints.
Transverse processes project laterally from the pediculolaminar junctions.
Vertebrae are internally trabecular with an external shell of compact bone perforated by
vascular foramina.
All vertebrae, from second cervical to first sacral, articulate by cartilaginous joints
between their bodies, synovial joints between their articular processes and fibrous joints
between their laminae and also between their transverse and spinous processes.
CERVICAL VERTEBRAE
The seven cervical vertebrae, the smallest of the movable vertebrae, are typified by a
foramen in each transverse process. The first, second and seventh have special features.

Typical cervical vertebra
The typical cervical vertebra has a small, vertebral body. The superior surface of the
vertebral body is saddle-shaped, formed by flange-like lips which arise from most of the lateral
circumference of the upper margin of the vertebral body; these are sometimes referred to as
uncinate or neurocentral lips or processes.
The pedicles and the longer laminae, enclosing a large, triangular vertebral foramen. The
spinous process of the sixth cervical vertebra is larger and is often not bifid.
The spinous process (spine) is short and bifid, with two tubercles.
The junction between lamina and pedicle bulges laterally between the superior and
inferior articular processes.
The transverse process is morphologically composite around the foramen
transversarium. Its dorsal and ventral roots terminate laterally as corresponding tubercles.
Anterior tubercles of the transverse process of the fourth to sixth cervical verterbrae are
elongated and rough for tendinous slips of scalenus anterior; the sixth is the longest and is often
called the carotid tubercle. The carotid artery can be immobilized and compressed in the groove
formed by the vertebral bodies and the larger anterior tubercles.

Atlas
The atlas, the first cervical vertebra, supports, the head. The atlas consists of two lateral
masses connected by a short anterior and a longer posterior arch.
The anterior arch is convex anteriorly, and carries a roughened anterior tubercle. Its
upper and lower borders provide attachment to the anterior atlanto-ocipital membrane. The
posterior surface of the anterior arch carries a concave, facet for the dens.
The lateral masses are ovoid; their long axes converging anteriorly. Each bears a reniform
superior articular facet for the respective occipital condyle. On the medial surface of each
lateral mass is a tubercle for attachment of the transverse ligament.
On the posterior arch the superior surface bears a wide groove for the vertebral artery.
The posterior tubercle of the posterior arch is a rudimentary spinous process.
 The transverse processes are longer than those of all cervical vertebrae except the
seventh. The apex of the transverse process, which is usually palpable between the mastoid
process and ramus of the mandible is homologous with the posterior tubercle of typical cervical
vertebrae.

Axis
The axis, the second cervical vertebra, has a dens (odontoid process), which projects
cranially from the superior surface of the body. The dens is conical in shape, with a length of
15.0 mm. The anterior surface bears an ovoid articular facet for the anterior arch of the atlas.
Large ovoid articular facets are present on either side of the dens.

Seventh cervical vertebra
The seventh cervical vertebra, or „vertebra prominens“, has a long spinous process
visible at the lower end of the nuchal furrow.
CRANIOVERTEBRAL JOINTS
The articulation between the cranium and vertebral column consists of the occipital
condyles, atlas and axis and functions like a universal joint.

1. Atlanto-occipital joints
Each joint consists of two articular surfaces, one on the occipital condyle the other on
the lateral mass of the atlas. The bones are connected by articular capsules and the anterior and
posterior atlanto-occipital membranes.
The anterior atlanto-occipital membrane connects the anterior margin of the foramen
magnum to the upper border of the anterior arch of the atlas.
The posterior atlanto-occipital membrane is also broad, but relatively thin, connecting
the posterior margin of the foramen magnum to the upper border of the posterior atlantal arch.
It arches over the grooves for the vertebral arteries, venous plexuses and first cervical nerve.
The main movement at the atlanto-occipital joints is flexion, with a little lateral flexion
and rotation.

2. Atlanto-axial joints
Articulation of atlas to axis is at three synovial joints, a pair between lateral masses
(lateral atlantoaxial joints), and a median complex between the dens of the axis and the anterior
arch and transverse ligament of the atlas (median atlantoaxial joint).
Median atlantoaxial joint is a pivot between the dens and a ring formed by the anterior
arch and transverse ligament of the atlas. It has two synovial cavities which sometimes
communicate. A ovoid facet on the anterior dens articulates with the one on the posterior
aspect of the anterior atlantal arach. The synovial cavity of the posterior component of the
median joint complex lies between the posterior surface of the dens and the cartilaginous
anterior surface of the transverse ligament.
The transverse ligament divides the ring of the atlas into unequal parts; the posterior
and larger surrounds the spinal cord and meninges, the anterior contains the dens.
The transverse atlantal ligament is a broad, strong band. It is attached laterally to a small
but prominent tubercle on the medial side of each atlantal lateral mass. From its upper margin a
strong median longitudinal band arises which inserts into the basilar part of the occipital bone,
and from its interior surface a weaker consistent longitudinal band passes to the posterior
surface of the axis. These transverse and longitudinal components together constitute the
cruciform ligament.
Movements at the atlantoaxial joints are simultaneous at all three joints and consist
almost exclusively of rotation of the axis.
3. Ligaments connecting axis and occipital bone
Ligaments of the craniovertebral joints consist of the membrana tectoria, and paired alar
and median apical ligaments.

Membrana tectoria is placed inside the vertebral canal. This is a strong band representing the
upward continuation of the posterior longitudinal ligament. Membrana tectoria is attached to
the posterior surface of the axial body, attaching above the foramen magnum.
Alar ligaments are thick cords that extend from the apex of the dens horizontally and
laterally to the occipital condyles.
Apical ligament of the dens fans out from the apex of the dens into the anterior margin
of the foramen magnum between the alar ligaments.

Ligamentum nuchae also connects cervical vertebrae with the cranium. This is a
bilaminar fibroelastic intermuscular septum often considered homologous supraspinous and
interspinous ligaments in the neck. Extends from the external occipital protuberance to the
spine of C7.
 OUTLINE

Temporomandibular joint
Muscles and fasciae of the head
JOINTS OF THE HEAD

There are three types of the joint of the head: fibrous joints, cartilagineous joints and
synovial joints.
Fibrous joints are: sutures and dento-alveolar syndesmoses.
Sutures are junctions between adjacent bones of the skull. They are rigidly held together
by fibrous connective tissue. The major sutures are: coronal suture (between the frontal and
parietal bones), sagittal suture (between the right and left parietal bones), squamous suture
(between squamous part of the temporal bone and parietal bone), lambdoid suture (between
occipital and parietal bones). Other sutures are: sphenosquamous suture, occipitomastoid
suture, sphenofrontal suture, sphenoparietal suture, parietomastoid suture.
Dento-aveolar syndesmoses (gomphoses, or gompholitic joints) are
fibrous joints by which the root of a tooth is fixed into the dental alveoli or sockets of the
alveolar part of the mandible or maxilla by the periodontal ligaments or periodontium.
Cartilagineous joints (synchondroses) are the cartilagineous junctions betweeen the
bones of the cranium. The synchondroses occur within the developing chondrocranium forming
early support for the rapidly developing brain. They occur between the bones forming the base
of the skull (occipital, temporal, sphenoidal and ethmoidal bones): sphenoethmoidal
synchondrosis, sphenooccipital synchondrosis, sphenopetrosal synchondrosis, petrooccipital
synchondrosis...
Synovial joints of the head are temporomandibular and atlanto-occipital joint.

TEMPOROMANDIBULAR JOINT (TMJ)

The temporomandibular joint is a bilateral synovial articulation between the mandible
and temporal bone. The name of the joint is derived from the names of bones which form
the joint.
Each joint involves the temporal articular tubercle and anterior part of the mandibular
fossa above and mandibular condyle below.
An articular disc completely divides the joint, into upper and lower parts. Articular disc is
oval in shape and it is composed of dense fibrous connective tissue. It has central depression in
its lower surface that accommodates the articular surface of the mandibular condyle. Its edges
are fused with the fibrous capsule. Its function is to stabilize the TMJ. It is like a cushion. The
position of the disc is controlled by muscle function.
The major ligament associated with the TMJ is the lateral ligament. It is a strong and
broad ligament within the lateral part of the fibrous capsule (it is woven into the capsule). It is
attached to the articular tubercle and extends downwards and backwards to the lateral surface
of the neck of the mandible. It prevents posterior displacement of the condyle of the mandible.
There are also some distant ligaments that are important in restriction of excessive
movements in the joint (especially in excessive opening of the mouth). Sphenomandibular
ligament is medial; it descends from the spine of the sphenoidal bone and merges to the lingula
of the mandibular foramen. Stylomandibular ligament is a specialized band of deep cervical
fascia wich streches from the apex of styloid process to the mandible’s angle.
 During jaw movements, only the mandible moves. Normal movements of the mandible
during function, such as mastication, or chewing, are known as excursions: depression of
mandible (opening of the mouth), elevation of mandible (closing the mouth), two lateral
excursions (left and right), known as diduction, the forward excursion, known as protrusion, and
the reversal of protrusion, known as retrusion or retraction.

ATLANTO-OCCIPITAL JOINT

Joint consists of two articular surfaces, one on the occipital condyle the other on the
lateral mass of the atlas. The bones are connected by articular capsules and the anterior and
posterior atlanto-occipital membranes.
The anterior atlanto-occipital membrane connects the anterior margin of the foramen
magnum to the upper border of the anterior arch of the atlas.
The posterior atlanto-occipital membrane is also broad, but relatively thin, connecting
the posterior margin of the foramen magnum to the upper border of the posterior atlantal arch.
It arches over the grooves for the vertebral arteries, venous plexuses and first cervical nerve.
The main movement at the atlanto-occipital joint is flexion, extention, with a little lateral
flexion.
MUSCLES AND FASCIAE OF THE HEAD

Muscles of the head are divided into two groups

Superficial (craniofacial or mimetic) muscles
Deep (masticatory) muscles are concerned primarily with movements of the
temporomandibular joint

This division of head musculature reflects differences in embryonic origin and
innervation. In functional terms, activities such as mastication, deglutition, vocalization,
communicative and emotional expression, respiration, ocular, aural and nasal action brought
about by close co-operation and interdependence between muscles of the two groups.

I. CRANIOFACIAL MUSCLES (muscles of the face or muscles of facial expression).
Craniofacial myology is structurally and functionally very complex. The muscles of the
face are embedded in the superfical fascia and the majority arise from the bones of the skull
and are inserted into the skin. The orifices of the face, namely, the orbit, nose and mouth are
guarded by the eyelids, nostrils and lips. Craniofacial muscles surround these openings and
serve as sphincters or dilators of these structures. A secondary function of the facial muscles is
to modify the expression of the face. All the muscles of the face are supplied by the facial nerve.

Craniofacial muscles are grouped topographically and functionally as:
Epicranial
Epicranial group consists of occipitofrontalis and temporoparietalis muscles. Occipitofrontalis
covers the dome of the skull from the eyebrows to the highest nuchal line. It has occipital and
frontal part connected by the epicranial aponeurosis. Occipital part arises from the highest
nuchal line, while frontal part has no bony attachments of its own. Acting from the above,
frontal part raise eyebrows and skin over the root of the nose (expressions of surprise or
horror). Acting from the below it draws the skalp forwards, throwing the forehead into
transverse wrinkles. Occipital part draws the skalp backwards. Temporoparietalis muscle is
variable developed muscle which lies between the frontal parts of occipitofrontalis and the
anterior and superior auricular muscles.
Circumorbital and palpebral
The circumorbital and palpebral group of muscles are the muscles that surrounds orbit and
form the lids. These muscles are: orbicularis oculi, corrugator supercilli and levator palpebrae
superioris (which belongs to the lids). Orbicularis oculi is a broad, flat and elliptical muscle
which surrounds the circumference of the orbit. It is a sphincter muscle and plays important
role in the facial expression and ocular reflexes. It closes the lids voluntarily or reflexly (to close
the lids protectively in blinking), and helps drainage of tears. When contracts it produces the
skinfolds which radiate from the lateral angle of the eyelids (they become permanent in middle
age). Corrugator supercilii is a small muscle located at the medial end of each eyebrow. It
cooperates with orbicularis oculi, drawing the eyebrows medially and downwards. It is also
involved in frowning.
Nasal
Nasal muscle group comprises procerus, nasalis and depressor septi. Procerus is a small
pyramidal slip close to (or blended with) the occipitofrontalis muscle. It is inserted into the skin
between the eyebrows. It produces transverse wrinkles over the bridge of the nose in frowning
and “concentration”. Nasalis covers the lateral parts of the nose and assists in widening the
anterior nasal aperture. Depressor septi arises above the incisors and ascends to attach to the
nasal septum. It pulls the septum downwards and widens the nasal aperture.
Buccolabial
Buccolabial group is the largest. The most important muscle in this group is the buccinators. It is
the muscle of the cheek and the only one which has a fascia. It occupies the interval between
the maxilla and mandible. It attaches to the alveolar processes of the maxilla and mandible and
the anterior margin of the pterygomandibular raphe. It compresses the cheek against the teeth
anf gums during mastication and assist the tongue in directing the food between the teeth.
When the cheeks have been distended with air, the buccinator expel it between the lips (activity
important when playing wind instruments). Other buccolabial muscles are: levator labii
superioris (starts from the infraorbital margin and ends on the uper lip; it elevates and everts
upper lip), levator labii superioris alaeque nasi (arises from the upper part of the frontal process
of maxilla and inserts into an greater alar cartilage of the nose and the upper lip; it raises and
everts upper lip), zygomaticus muscles (arise from zygomatic bone and pass to the angle of the
mouth; they draw the angle upwards and laterally in laughing and elevate upper lip in
expressing smugness and contempt), risorius (known as „a muscle of laughing“; it is variable; it
arises from the zygomatic arch and ends on the dense, fibromuscular mass on each side of the
face), depressor anguli oris (it has the origin from the mental tubercle and ends at the angle of
the mouth; it draws the angle of the mouth downwards and laterally expressing the sadnesss),
depressor labii inferioris (arises from the oblique line of the mandible and ends at the lower lip;
it draws the lower lip downwards and little laterally in expression of melancholy, sorrow and
doubt), orbicularis oris (surrounds the mouth like an ellipse) and mentalis (arises from the
incisive fossa on the mandible and attaches to the skin of the chin; it raises the lower lip,
wrinkling the skinnof the chin).

II. MASTICATORY MUSCLES
The masticatory muscles are most immediately concerned with the movements of the
mandible in mastication (and speech). One side of the masticatory muscles is attached to the
mandible. All masticatory muscles are innervated by mandibular nerve. There are four
masticatory muscles: masseter, temporalis, and medial and lateral pterygoid muscles.

Temporalis
Temporalis arises from the whole of the temporal fossa up to the inferior temporal line
and from the deep surface of the temporal fascia. Its fibres converge and descend into a tendon
which passes through the gap between the zygomatic arch and the side of the skull. The muscle
attaches to the medial surface, apex, anterior and posterior borders of the coronoid process and
to the anterior border of the mandibular ramus. The anterior fibres of temporalis are orientated
vertically, the most posterior fibres almost horizontally.
Temporalis elevates the mandible and so closes the mouth. It also contributes to
side-to-side grinding movements. The posterior fibers retract the mandible after it has been
protruded.
 The nerve supply is provided by the branches of the mandibular nerve.

Masseter
Masseter is a quadrilateral muscle consisting of three layers which blend anteriorly. The
superficial layer is the largest: it arises by a thick aponeurosis from the zygomatic bone and from
the anterior two-thirds of the inferior border of the zygomatic arch. Fibres pass downwards and
backwards, to insert into the angle and lateral surface of the mandibular ramus. The middle
layer arises from the medial aspect of the anterior two-thirds of the zygomatic arch and from
the lower border of the posterior third of the arch, and inserts into the central part of the
mandibular ramus. The deep layer arises from the deep surface of the zygomatic arch and
inserts into the upper part of the mandibular ramus and into its coronoid process. Because it is
so close to the skin, the masseter is easily palpated when it contracts.
Masseter elevates the mandible to occlude the teeth in mastication and has small effect
in side-to-side movements, protraction and retraction.
Masseter is supplied by a branch of the mandibular nerve.

Lateral pterygoid
Lateral pterygoid is a short, thick muscle consisting of two heads - upper and lower one.
Upper head arises from the infratemporal surface and infratemporal crest of the greater wing of
the sphenoid bone, while lower head arises from the lateral surface of the lateral pterygoid
plate. The fibers of the lateral pterygoid converge and pass backwards and laterally to be
inserted into the pterygoid fovea. A part of the upper head may be attached to the capsule of
the temporomandibular joint.
Lateral pterygoid assists in opening the mouth (digastric and geniohyoid are the main
jaw opening muscles). When right and left muscles contract together the condyle is pulled
forward and slightly downward producing protrusion and depression of the mandible
Lateral pterygoid muscle is innervated by the branch from the mandibular nerve.

Medial pterygoid
Medial pterygoid is a thick, quadrilateral muscle with the deep origin from the medial
surface of the lateral pterygoid plate of the sphenoid bone (pterygoid fossa), and superficial
origin from the maxillary tuberosity and the pyramidal process of the palatine bone. Its fibres
descend and are attached by a strong tendinous lamina to the medial surfaces of the
mandibular ramus and angle.
Medial pterygoid muscle is suppled by the branch from the mandibular nerve.
It assists in elevating the mandible and protracts the mandible (acting with the lateral
pterygoid).
FASCIAE OF THE HEAD

Temporal fascia
The temporal fascia that covers temporalis is a strong aponeurosis overlapped. The
superficial temporal vessels and the auriculotemporal nerve ascend over it. Above, it is a single
layer, attached to the whole of the superior temporal line; below, it has two layers, one attached
to the lateral and the other to the medial margin of the superficial temporal artery. The deep
surface of the fascia affords attachment to the superficial fibres of temporalis.

Masseteric fascia
The masseteric fascia is continuous with the temporal fascia on the zygomatic arch and
then passes downwards. Posteriorly it is attached to the cartilage of the external acoustic
meatus and passes over to the mastoid process. Inferiorly it is continuous with the cervical
fascia; anteriorly it covers the masseter after which it is continuous with the buccopharyngeal
fascia.

Parotid fascia
The parotid fascia is a strong layer of fascia, derived from the deep cervical fascia. It is
attached to the lower border of the zygomatic arch and invests the parotid gland.

Buccopharyngeal fascia
The buccopharyngeal fascia covers the buccinator muscle and at the anterior border of
the masseteric muscle, passes over to the medial surface of the mandibular ramus where it
covers the medial pterygoid muscle and then stretches over to the pharyngeal wall.
 OUTLINE

Blood vessels of the head and neck
CAROTID SYSTEM OF ARTERIES

The common carotid artery is a large bilateral vessel supplying head and neck; it ascends
to the level of the thyroid cartilage`s upper border, where it divides into an external carotid,
supplying the head, face and most of the neck, and an internal carotid, supplying the cranial and
orbital contents.

COMMON CAROTID ARTERIES

The right and left carotid arteries differ in length and origin. The right carotid, originates
from the brachiocephalic trunk behind the right sternoclavicular joint. The left carotid originates
directly from the aortic arch and therefore has both, thoracic and cervical parts.
Thoracic part of the left common carotid artery ascends until the level of the left
sternoclavicular joint, where it enters the neck. It is 20-25 mm long and it lies at first in front of
the trachea, then it inclines to the left.
Cervical part of both common carotid arteries ascends, diverging laterally from behind
the sternoclavicular joint to the thyroid cartilage`s upper border, where it divides into external
and internal carotid arteries. At its division the vessel has a dilatation, the carotid sinus. The
sinus is responsive to changes in arterial blood pressure, leading to reflex hemodynamic
modification. Its position on the main artery of the brain accounts for its role as a baroreceptor
in the control of intracranial pressure. The carotid body, behind the common carotid bifurcation,
a small, reddish-brown structure is a `chemoreceptor`. Each common carotid is contained in a
carotid sheath, continuous with the deep cervical fascia. This sheath encloses also the internal
jugular vein and vagus nerve; the vein lies lateral to the artery, the nerve between them and
posterior to both.
EXTERNAL CAROTID ARTERY

This artery begins lateral to the thyroid cartilage`s upper border. It first ascends between
the mastoid tip and the mandibular angle. Behind the mandible`s neck, in the substance of the
parotid gland, it divides into the superficial temporal and maxillary arteries. At its origin, it is
anteromedial to the internal carotid but becomes anterior, than lateral to this as it ascends. At
mandibular levels the styloid process and its attached structures intervene between the vessels,
the internal carotid being deep and the external superficial to the styloid process.
First part of the external carotid artery is placed in the carotid triangle and it is covered
by superficial fascia and skin. Leaving the carotid triangle, it is crossed by the posterior belly of
digastrics and by stylohyoid muscle. It enters the parotid gland where it is placed medial to the
facial nerve and the junction of the superficial temporal and maxillary veins.

External carotid artery gives eight branches (superficial temporal and maxillary artery are
terminal branches):
1. Superior thyroid
2. Ascending pharyngeal
3. Lingual
4. Facial
5. Occipital
6. Posterior auricular
7. Superficial temporal
8. Maxillary

1. SUPERIOR THYROID ARTERY
 This arises from the anterior surface of the external carotid artery dividing into terminal
branches at the apex of the thyroid lobe. It supplies the thyroid gland and adjacent skin.

2. ASCENDING PHARYNGEAL ARTERY
This, the smallest branch of the external carotid, is a long vessel, arising posteriorly near
the external carotid`s origin and ascending to the cranial base. It supplies muscles of the
pharynx, palatine tonsil, middle ear and meninges.

3. LINGUAL ARTERY
Lingual artery provides the chief blood supply to the tongue and the floor of the mouth.
It often arises with the facial or, less often, with the superior thyroid artery. It arises
anteromedially from the external carotid ascending almost vertically, courses sinuously forwards
on the tongues inferior surface as far as its tip.
Its relationship to hyoglossus divides the lingual artery into “thirds”: first part is in the
carotid triangle; second part passes deep to hyoglossus, the lower part of the submandibular
gland and the posteror part of mylohyoid; third part is the arteria profunda linguae which turns
upward near the anterior border of hyoglossus and then passes forwards close to the inferior
lingual surface, accompanied by the lingual nerve.
Branches are suprahyoid, dorsal lingual arteries and sublingual artery.

4. FACIAL ARTERY
This artery, arises anteriorly from the external carotid artery in the carotid triangle above
the lingual artery. Reaching the surface of the mandible it curves round its inferior border,
anterior to the masseter, to enter the face. Here it ascends sinuously and ends at the medial
palpebral commissure where it joins the dorsal nasal branch of the ophthalmic artery. Terminal
part of the facial artery is termed the angular artery.
Facial artery gives several branches: ascending palatine artery (supplies pharynx and
tonsils), tonsillar artery (supplies palatine tonsils and the tongue), superior and inferior labial
arteries (supply the structures of the upper and lower lip) and submental artery.

5. OCCIPITAL ARTERY
This artery arises posteriorly from the external carotid, about 2 cm from its origin. It runs
in the occipital groove of the temporal bone and ends posteriorly in the scalp.

6. POSTERIOR AURICULAR ARTERY
Posterior auricular artery is a small vessel which branches posteriorly from the external
carotid artery. It ascends to the groove between the auricular cartilage and mastoid process and
divides into auricular and occipital branches.

7. SUPERFICIAL TEMPORAL ARTERY
This, the smaller terminal branch of the external carotid, begins in the parotid gland
behind the mandible`s neck, crosses the posterior root of the zygomatic process of the temporal
bone and this divides into anterior and posterior branches.
 The superficial temporal supplies the parotid gland, temporomandibular joint and
masseter and it also has several named branches (transverse facial, auricular,
zygomatico-orbital, middle temporal, frontal and parietal arteries).

8. MAXILLARY ARTERY
This, the larger terminal branch of the external carotid artery. It arises behind the
mandibular neck, at first embedded in the parotid gland; it then passes medial to the
mandibular neck and superficial or deep to the lower head of the lateral pterygoid to reach the
pterygopalatine fossa. Its terminal part (sphenopalatine artery) traverses sphenopalatine
foramen end enters the nasal cavity. It has mandibular, pterygoid and pterygopalatine
segments.
The first, mandibular, part is horizontal and passes between the mandible`s neck and the
sphenomandibular ligament.
The second, pterygoid, part ascends obliquely forwards superficial or deep to the lateral
pterygoid.
The third, pterygopalatine, part passes through the pterygomaxillary fissure into the
pterygopalatine fossa, where it is situated anterior to the pterygopalatine ganglion.
The artery supplies mandible, maxilla, teeth, muscles of mastication, palate, nose and
cranial dura mater. Its branches are organized into three groups, corresponding with its parts.

Branches of the first part
Deep auricular artery pierces the wall of the external acoustic meatus, and supplies its
skin and the outer surface of the tympanic membrane.
Anterior tympanic artery is a small artery that supplies the middle ear. It enters the
tympanic cavity through the petrotympanic fissure, and ramifies upon the tympanic membrane.
Middle meningeal artery is the largest of the meningeal arteries. It enters the cranial
cavity through the foramen spinosum. It then runs in a groove on the squamous part of the
temporal bone, dividing into frontal and parietal branches.
Inferior alveolar (dental) artery descends to the mandibular foramen. Before entering
the foramen it has a mylohyoid branch, which descends with the mylohyoid nerve in its groove
on the mandibular ramus. The inferior alveolar artery then traverses the mandibular canal with
the inferior alveolar nerve and divides into the incisor and mental branches near the first
premolar. The incisor branch continues to the midline, where it anastomoses with its fellow. The
mental branch leaves the mental foramen, supplies the chin and anastomoses with the
submental and inferior labial arteries.

Branches of the second part
Branches of the second part are muscular branches for the masticatory and craniofacial
muscles (deep temporal branches, pterygoid branches, masseteric artery, buccal artery).

Branches of the third part
Posterior superior alveolar (dental) artery leaves the maxillary artery as it eaters the
pterygopalatine fossa. It descends on the maxilla`s infratemporal surface. It divides into
numerous branches, some of which enter the alveolar canals, to supply the molar and premolar
teeth and the lining of the maxillary sinus, while others are continued forward on the alveolar
process to supply the gingiva.

Infraorbital artery enters the orbit posteriorly through the inferior orbital fissure, to run
in the infraorbital groove and canal with the infraorbital nerve, both emerging on the face via
the infraorbital foramen. It supplies the upper incisor and canine teeth and the mucous
membrane of the maxillary sinus.
Greater (or descending) palatine artery descends in their palatine canal. The artery gives
off two or three lesser palatine arteries. The main vessel emerges on the palate’s oral surface by
the greater palatine foramen and runs in a curved groove near the alveolar border of the hard
palate to the incisive canal: it ascends this canal and anastomoses with a branch of the
sphenopalatine artery. It supplies the gingivae, palatine glands and mucous membrane.
Artery of the pterygoid canal passes through the pterygoid canal and supplies the upper
part of the pharynx, auditory tube,