Muscles of Mastication PDF

Summary

This document provides an overview of the muscles of mastication, their functions, locations, and features. It details the four key muscles involved in chewing and speaking, with descriptions of their origins, insertions, and actions. The document also touches upon the innervation and blood supply of these muscles, and related conditions.

Full Transcript

Muscles of Mastication
are related to the jaws and are responsible for
the masticatory function and speech.
 Muscles of Mastication
1. Masseter
2. Medial pterygoid
3. Lateral pterygoid
4. Temporalis
 Masseter muscle
is a quadrilateral-shaped muscle located on the lateral surface of ramus of
mandible and originates as three different layers:

1. Superficial layer: It is the biggest layer and originates from the anterior two-third of
the lower border of the zygomatic arch and the adjacent zygomatic process of
maxilla. It runs downwards and posteriorly at 45° into the lower lateral surface of the
mandibular ramus.

2. Middle layer: It begins from the deeper surface of the anterior two-third of the
zygomatic arch and the posterior one-third. These run vertically downwards to
become inserted into the middle part of the ramus.

3. Deep layer: It originates from the deep surface of the zygomatic arch, descends
vertically and inserts into the upper part of the ramus and the coronoid process.
Masseter muscle
 Medial Pterygoid
has a superficial and a deep head.
❏ The superficial head - is small and arises from the maxillary tuberosity.
❏ The deep head - is large and arises from the medial surface of the lateral
pterygoid plate and the adjoining process of the palatine bone. All the fibres
are inserted into a roughened area on the medial surface of the mandibular
angle and the ramus.bone. All the fibres are inserted into a roughened area
on the medial surface of the mandibular angle and the ramus.
Medial Pterygoid
 Lateral Pterygoid
has two heads:
❏ Upper head- This arises from the infratemporal surface
and the crest of the greater wing of the sphenoid.
❏ Lower head- This arises from the lateral surface of the
lateral pterygoid plate.
The fibres of both the heads converge and become
inserted into the pterygoid fovea present at the neck of the
mandible and the anterior margin of the articular disc and
capsule of the temporomandibular joint (TMJ).
Lateral Pterygoid
 Temporalis
The origin of this fan-shaped muscle is the temporal fossa
and the temporal fascia. Fibres pass deep to the
zygomatic arch and insert into the coronoid process and
the anterior border of the ramus.
Temporalis
 Innervation and Blood Supply
Motor: Motor supply is provided by the muscular branches
of the mandibular nerve (V3 of the trigeminal nerve).
Sensory: Sensory supply is by the trigeminal nerve.
Vascularity: The vascularity of the muscles of mastication
is maintained by the second part of the maxillary artery.
Myofascial Pain Dysfunction Syndrome (MPDS)
- It involves pain originating from the muscles of
mastication, their sheaths, tendons or ligaments. Pain is
referred to the face, head and neck regions.
- The common causes are improper dental occlusion and
nocturnal bruxism.
- Treatment includes analgesics and muscle relaxants
What is the role of salivary glands

The main salivary gland function is saliva production. Saliva plays an important role in
supporting your oral and overall health. For example, saliva:
Keeps your mouth and throat lubricated and comfortable.
Moistens food so it’s easier to swallow.
Contains an enzyme called amylase, which helps your stomach break down
starches in food.
Keeps your mouth clean.
Helps reduce your risk of cavities and gum disease.
Helps maintain the pH balance in your mouth.
 The Parotid Gland
is a bilateral structure, which displays a
lobular and irregular morphology.
It lies within a deep hollow, known as the
parotid region
The parotid region is bounded as follows:

Superiorly – Zygomatic arch.
Inferiorly – Inferior border of the
mandible.
Anteriorly – Masseter muscle.
Posteriorly – External ear and
sternocleidomastoid.
 The Parotid Gland

The secretions of the parotid gland are transported to the
oral cavity by the Stensen duct.
It arises from the anterior surface of the gland, traversing
the masseter muscle.
The duct then pierces the buccinator, moving medially. It
opens out into the oral cavity near the second upper
molar.
Vasculature

Blood is supplied by the posterior auricular and

superficial temporal arteries.

Venous drainage is achieved via the retromandibular
vein.
Innervation
The parotid gland receives sensory and autonomic innervation. The

autonomic innervation controls the rate of saliva production.

Sensory innervation is supplied by the auriculotemporal nerve (gland) and
the great auricular nerve (fascia).
Parotid Gland Tumours

The parotid gland is the most common site of a salivary gland tumour. These
tumours are usually benign, such as an adenolymphoma.

Parotitis
inflammation of the parotid gland, usually as a result of an infection. The
parotid gland is enclosed in a tough fibrous capsule. This restricts swelling of
the gland, producing pain.
 The Sublingual Gland
the smallest of the three paired salivary glands.
almond-shaped and lie on the floor of the oral cavity. They are situated
underneath the tongue, bordered laterally by the mandible and medially by
genioglossus muscle of the tongue.
The glands form a shallow groove on the medial surface of the mandible
known as the sublingual fossa.
Both glands contribute to only 3-5% of overall salivary volume, producing
mixed secretions which are predominantly mucous in nature.
These secretions are important in lubricating food, keeping the oral mucosa
moist and initial digestion.
The Sublingual Gland
 The Sublingual Gland
submandibular duct and lingual nerve pass alongside
the medial aspect of the sublingual gland.
Both sublingual glands unite anteriorly and form a single
mass through a horseshoe configuration around the lingual
frenulum.
The superior aspect of this U-shape forms an elevated,
elongate crest of mucous membrane called the sublingual
fold (plica sublingualis). Each sublingual fold extends from a
posterolateral position and traverses anteriorly to join the
sublingual papillae at the midline, either side of the lingual
frenulum.
Secretions drain into the oral cavity by minor sublingual
ducts (of Rivinus), of which there are 8-20 excretory ducts
per gland, each opening out onto the sublingual folds.
Vasculature

Blood supply is via the sublingual and submental arteries
Venous drainage is through the sublingual and submental veins
Innervation

receive autonomic innervation through parasympathetic and sympathetic
fibres, which directly and indirectly regulate salivary secretions respectively.
Receive their parasympathetic input via chorda tympani nerve
Ranula-
- is a type of mucocele (mucous cyst) that occurs in the floor of the mouth
inferior to the tongue. It is the most common disorder associated with the
sublingual glands due to their higher mucin content in secretions compared
to other salivary glands.
 The Submandibular Gland
are a pair of elongate, flattened hooks which have
two sets of arms; superficial and deep. The
positioning of these arms is in relation to the
mylohyoid muscle, which the gland hooks around.
❏ Superficial arm – comprises the greater portion of
the gland and lies partially inferior to the posterior
half of the mandible, within an impression on its
medial aspect (the submandibular fossa).
❏ Deep arm – hooks around the posterior margin of
mylohyoid through a triangular aperture to enter the
oral cavity proper. It lies on the lateral surface of the
hyoglossus, lateral to the root of the tongue.
 The Submandibular Gland
The submandibular gland is located within
the anterior part of the submandibular
triangle. The boundaries of this triangle
are:
Superiorly: Inferior body of the mandible.
Anteriorly: Anterior belly of the digastric
muscle.
Posteriorly: Posterior belly of the digastric
muscle.
Secretions from the submandibular glands
travel into the oral cavity via the
submandibular duct (Wharton’s duct).
Vasculature
The submandibular gland is supplied by the submental artery and sublingual
artery
Its venous drainage is by two vessels:
Facial vein – empties directly into the internal jugular vein.
Sublingual vein – drains into the lingual vein and then internal jugular vein.
Parasympathetic

Parasympathetic innervation originates from the superior salivatory nucleus

Sympathetic

Sympathetic innervation originates from the superior cervical ganglion
Salivary Duct Calculi
- A calculus or sialolith is a calcified deposit which can block the lumen of a
duct. The submandibular duct is the most susceptible to calculi out of all the
salivary ducts; accounting for approximately 80% of cases. This is thought to
be due to the
❏ Torturous length of the duct (5cm)
❏ Ascending secretory pathway
❏ Nature of salivary secretion