Human Anatomy Lecture 11: Pterygopalatine Fossa 2022-2023 PDF

Summary

These lecture notes cover human anatomy, specifically the pterygopalatine fossa. The document details the location, structure, and communications of this area within the skull. It also explains the nerves and vessels associated with it.

Full Transcript

Academic year 2022-2023
‫فرع جراحة الفم والوجه والفكين‬
‫كلية طب االسنان‬
2ed year

Human Anatomy
Lecture 11
Pterygopalatine fossa

By:Dr.Nada hashim AL JASSIM

Snell R.S. Clinical Anatomy by regions, 9th Edition, Lippincott Williams
& Wilkins, [2012
For more detailed instructions, any question, cases need help please post
to the telegram group of the session
 The 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.
Although small in size,
the pterygopalatine fossa communicates via fissures and foramina in its walls
with:
the middle cranial fossa;
infratemporal fossa;
floor of the orbit;
lateral wall of the nasal cavity;
oropharynx;
Roof of the oral cavity.
Because of its strategic location, the pterygopalatine fossa is a major site of
distribution for the maxillary nerve [V2] and for the terminal part of the
maxillary artery. In addition, parasympathetic fibers from the facial nerve [VII]
 Anteriorly : posterior surface of
maxilla

 Posteriorly: root of pterygoid process
and part of greater wing of sphenoid

 Medially: lateral surface of palatine
bone(perpendicular plate)
 Communications and openings:
1-The pterygomaxillary fissure: transmits the maxillary artery from the
infratemporal fossa, the posterior superior alveolar branches of the maxillary
division of the trigeminal nerve and the sphenopalatine veins.
2-The inferior orbital fissure: transmits the infraorbital and zygomatic branches of
the maxillary nerve, the orbital branches of the pterygopalatine ganglion and the
infraorbital vessels.
3-The foramen rotundum: transmit the maxillary division of the trigeminal nerve.
4-The pterygoid canal: It transmits the greater petrosal and deep petrosal nerves
(which combine to form the nerve of the pterygoid canal) and an accompanying
artery derived from the maxillary artery.
 Communications and openings:
5-The sphenopalatine foramen: This foramen communicates with the lateral wall
of the nasal cavity. It transmits the nasopalatine and posterior superior nasal
nerves (from the pterygopalatine ganglion) and the sphenopalatine vessels.
6-The opening of a palatine canal found at the base of the fossa. Lower down, the
canal divides into greater and lesser palatine canals. The palatine canal transmits
the greater and lesser palatine nerves, together with accompanying vessels, and
these pass to the hard palate to emerge at the greater and lesser palatine
foramina.
7-Pharyngeal canal: courses posteriorly and medially into pharynx, for
pharyngeal artery
Schematic illustration of the pterygopalatine fossa. Abbreviations: FR, foramen
rotundum; GPN, greater palatine nerve; IOF, inferior orbital fissure; LPN, lesser
palatine nerve; MN, maxillary nerve; PTC, pterygoid canal; SPF, sphenopalatine
foramen; SPG, sphenopalatine ganglion
contents
The maxillary nerve
 Branches from the main maxillary nerve trunk:
Meningeal nerve
 Ganglionic branches

 Zygomatic nerve

zygomaticotemporal nerve
zygomaticofacial nerve
 Infraorbital nerve

middle superior alveolar nerve anterior
superior alveolar nerve
Posterior superior alveolar nerve
 Branches from the pterygopalatine ganglion:
 Orbital nerve
 Nasopalatine nerve
 Posterior superior nasal nerve
Posterior inferior nasal nerve Greater
(anterior) palatine nerve Lesser
(posterior) palatine nerve
 Pharyngeal branch
The meningeal nerve:
This is the only branch from the main trunk of the maxillary nerve
that does not originate in the pterygopalatine fossa; it arises within
the middle cranial fossa, before the foramen rotundum. It runs with
the middle meningeal artery and innervates the dura mater lining
the middle cranial fossa.
The ganglionic branches:
These are usually two in number and connect the maxillary nerve
to the pterygopalatine ganglion.
The zygomatic nerve:
This leaves the pterygopalatine fossa through the inferior orbital
fissure. It passes along the lateral wall of the orbit before dividing
into zygomaticotemporal and zygomaticofacial branches. These
pass through the zygomatic bone to supply overlying skin. The
zygomaticotemporal nerve also gives a branch to the lacrimal
nerve, which carries autonomic fibres to the lacrimal gland.
The infraorbital nerve
This can be regarded as the terminal branch of the maxillary nerve
proper. It leaves the pterygopalatine fossa to enter the orbit at the
inferior orbital fissure. Initially lying in a groove in the floor of the
orbit (the infraorbital groove), the infraorbital nerve runs into a canal
(the infraorbital canal) and passes onto the face at the infraorbital
foramen. The middle and anterior superior alveolar nerves arise from
the infraorbital nerve in the orbit.
The branches of the maxillary nerve that arise with the
pterygopalatine ganglion contain not only sensory fibres from the
maxillary nerve, but also autonomic fibres from the ganglion, which are
mainly distributed to glands and blood vessels.
The orbital nerve
This passes from the pterygopalatine ganglion into the orbit through
the inferior orbital fissure. It supplies periosteum and, via
sympathetic fibres, the orbitalis muscle. The orbital nerve can also
supply part of the maxillary sinus and may pass
through the posterior ethmoidal foramen to innervate posterior
ethmoidal air cells and the sphenoid air sinus.
The Nasopalatine nerve
This nerve runs medially from the pterygopalatine ganglion into the
nasal cavity through the sphenopalatine foramen. It passes across the
roof of the nasal cavity to reach the back of the nasal septum.
The nasopalatine nerve then passes downwards and forwards within a
groove on the vomer to supply the posteroinferior part of the nasal
septum. It passes through the incisive canal, where it usually forms
a single nerve with its fellow of the opposite side, and emerges on
the hard palate at the incisive fossa to supply the oral mucosa
around the incisive papilla and palatal gingiva of the anterior teeth.
The posterior superior alveolar nerve(s)
This is one of three superior alveolar nerves that supply the
maxillary teeth. The middle and anterior superior alveolar nerves
are branches of the infraorbital nerve. The posterior superior
alveolar nerve leaves the pterygopalatine fossa through the
pterygomaxillary fissure. Then, it runs onto the tuberosity of the
maxilla and eventually pierces the bone to supply the maxillary
molar teeth and the maxillary sinus. Before entering the maxilla,
the nerve provides a gingival branch which innervates the buccal
gingivae around the maxillary molars.
The posterior superior nasal nerve
This nerve enters the back of the nasal cavity through the
sphenopalatine foramen. It divides into lateral and medial branches.
The lateral branches supply the posterosuperior part of the lateral
wall of the nasal fossa. The medial branches supply the nasal
septum overlying the posterior part of the perpendicular plate of
the ethmoid
The posterior inferior nasal nerve
This supplies the inferior part of the lateral wall of the nose in the region of the
inferior nasal concha.

The greater (anterior) palatine nerve
This nerves passes downwards from the pterygopalatine ganglion, through the
palatine canal, and onto the hard palate at the palatine foramen. On the palate, it runs
forwards at the interface between the palatine process and the alveolar process of the
maxilla to supply much of the mucosa of the hard palate and palatal gingivae (except
around the incisive papilla).
The lesser (posterior) palatine nerve(s)
This passes downwards from the pterygopalatine ganglion initially through the
palatine canal. It then passes through lesser palatine foramen (or foramina). It runs
backwards to supply the soft palate.

The pharyngeal branch
This originates from the pterygopalatine ganglion and passes through the
palatovaginal canal to supply the mucosa of the nasopharynx.
THE VEINS OF THE PTERYGOPALATINE FOSSA
The veins of the pterygopalatine fossa are small and variable. The
most consistent is the sphenopalatine vein. This vein drains the
posterior aspect of the nose and passes into the pterygopalatine fossa
through the sphenopalatine foramen. It drains into the pterygoid
venous plexus via the pterygomaxillary fissure.
The inferior ophthalmic vein in the floor of the orbit provides a
connecting branch to the pterygoid venous plexus. This vein passes
through the inferior orbital fissure in the region of the pterygopalatine
fossa.
Functionally, it supplies the maxillary teeth and their supporting structures, the hard
and soft palate, the maxillary air sinus, much of the nasal cavity, and skin
overlying the middle part of the face..
These branches can be classified into those which come directly from the maxillary
nerve, and those which are associated with the pterygopalatine parasympathetic
ganglion

Branches of maxillary nerve:
It gives 4 groups of branches:
nerve Courses and distribution
nerve Courses and distribution
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