The document discusses the muscles of facial expression and mastication. It provides details on the origin, insertion, function and nerve supply of the main facial muscles including the orbicularis oculi, corrugator supercili, and zygomaticus major. It also discusses the muscles of mastication - masseter, temporalis, lateral pterygoid, and medial pterygoid - and their roles in elevating and moving the mandible for chewing. The document emphasizes the importance of understanding facial muscle anatomy for areas like prosthodontics and in treating patients with facial paralysis.
2. CONTENTS
Introduction
Muscles of the facial expression
Origin and insertion
Functions
Applied anatomy
Muscles of mastication
Origin and insertion
Functions
Prosthodontic Considerations
Clinical relevance
References
3. Face is the most prominent part of the body.
Facial muscles help in showing a wide range of emotions.
The face, therefore is an index of the mind.
INTRODUCTION
4. DEVELOPMENT OF FACIAL MUSCLES
EMBRYOLOGICALLY : They develop from the mesoderm of the second
branchial arch.
MORPHOLOGICALLY: They represent the best remnants of Panniculus
Carnosus, which is a continuous subcutaneous muscle sheet seen in some
animals.
6. CORRUGATOR SUPERCILLI
Muscle Origin Insertion Action
Corrugator
supercilli.
Medial end
of
superciliary
arch.
Skin of
mid-
eyebrow.
Vertical
wrinkling of
forehead,
frowning.
7. Muscle Origin Insertion Action
ORBICULARIS
OCULI
Orbital part
Palpebral part
Lacrimal part
Medial part of medial
palpebral ligament &
adjoining bone.
Lateral part of medial
palpebral ligament.
Lacrimal fascia &
lacrimal bone.
Concentric rings return
to the point of origin.
Lateral palpebral raphae.
Upper& lower tarsi.
Closes lids tightly,
wrinkling, protects eye
from bright light.
Closes lids gently,
blinking.
Dilates lacrimal sac,
directs lac. Puncta into
lacus lacrimalis, supports
the lower lid.
8. Muscle Origin Insertion Action
Procerus Nasal bone and upper
part of lateral nasal
cartilage
Skin of forehead
between eyebrows and
on bridge of the nose
Causes transverse
wrinkling
9. Muscle Origin Insertion Action
Compressor naris Maxilla just lateral to
nose
Aponeurosis across
dorsum of nose
Nasal aperture
compressed
Dilator naris Maxilla over the
lateral incisor
Alar cartilage of
nose
Nasal aperture
dilated
Depressor septi Maxilla over the
central incisor
Lower mobile part of
nasal septum
Nose pulled
inferiorly
10. Muscle Origin Insertion Action
ORBICULARIS
ORIS
Intrinsic part
Superior incisivus, from
maxilla, inferior
incisivus, from mandible
Angle of mouth Closes lips and protrudes lips, numerous extrinsic muscles
make it most versatile for various types of grimaces
Extrinsic part Thickest middle stratum,
derived from
buccinator,thick
superficial stratum,
derived from elevators
and depressors of lips
and their angles
Lips and the angle of
the mouth
11. BUCCINATOR
Pierced by
Parotid duct
Buccal
branch of
mandibular
nerve
Upper fibers, from maxilla,
opposite molar teeth.
Lower fibers, from mandible,
opposite molar teeth.
Middle fibers, from
pterygomandibular raphae
Straight to upper lip.
Straight to lower lip.
Decussate before passing
to lips.
Flattens cheek against gums
& teeth, prevents
accumulation of food in
vestibule.
Whistling Muscle.
Muscle Origin Insertion Action
12. Muscle Origin Insertion Action
Levator labii
superioris
Infraorbital margin
of maxilla
Skin of upper
lateral half of the
upper lip
Elevates the upper
lip, forms
nasolabial groove
Zygomaticus
Major
Posterior aspect of
lateral surface of
zygomatic bone
Skin at the angle of
the mouth
Pulls the angle
upwards and
laterally as in
smiling
Levator anguli oris Maxilla just below
infraorbital foramen
Skin of angle of the
mouth
Elevates the upper
lip, forms
nasolabial groove
13. Muscle Origin Insertion Action
Zygomaticus
Minor
Anterior aspect of
lateral surface of
zygomatic bone
Upper lip medial to
its angle
Elevation of the
upper lip
Depressor anguli
oris
Oblique line of
mandible below the
first molar,
premolar and
canine teeth
Skin at the angle of
the mouth and
fuses with
orbicularis oris
Draws angle of
mouth downwards
and laterally
14. Muscle Origin Insertion Action
Mentalis Mandible inferior
to incisor teeth
Skin of chin Elevates and
protrudes lower lip
Risorius Fascia on the
masseter muscle
Skin at the angle of
the mouth
Retracts angle of
the mouth
15. Platysma Upper parts of pectoral
and deltoid fasciae.
Fibres run upwards
and medially
Anterior fibres, to
the base of the
mandible and
posterior fibres to
the skin of the
lower face
Releases pressure of skin on the
subjacent veins; depresses
mandible; pulls the angle of the
mouth downwards as in horror or
fright.
Muscle Origin Insertion Action
16. A few of the common facial expressions & the muscles producing them are
given below:
Smiling & laughing: Zygomaticus major.
Sadness: Levator labii superioris &Levator anguli oris.
Grief: Depressor anguli oris.
Anger: Dilator naris & Depressor septii.
Frowning: Corrugator supercilii & procerus.
Horror, terror& fright: Platysma.
Surprise: Frontalis
18. NERVE SUPPLY
The facial nerve is the motor nerve of the face.
Emerge from the parotid gland and diverge to supply
the various facial muscles.
Temporal- frontalis, auricular muscles, orbicularis
oculi
Zygomatic- orbicularis oculi (lower eyelid)
Buccal- muscles of cheek and upper lip
Marginal mandibular- muscles of lower lip
Cervical- platysma
19. Ophthalmic division of
trigeminal nerve
1. Supratrochlear nerve
2. Supraorbital nerve
3. Lacrimal nerve
4. Infratrochlear nerve
5. External nasal nerve
1. Upper eyelid and forehead
2. Upper eyelid, frontal air sinus, scalp
3. Lateral part of upper eyelid
4. Medial parts of both eyelids
5. Lower part of dorsum and tip of the nose.
Maxillary division of
trigeminal nerve
1. Infraorbital nerve
2. Zygomaticofacial nerve
3. Zygomaticotemporal nerve
1. Lower eyelid, side of the nose and upper lip
2. Upper part of cheek
3. Anterior part of temporal region
Mandibular division of
trigeminal nerve
1. Auriculotemporal nerve
2. Buccal nerve
3. Mental nerve
1. Upper 2/3rd of lateral side of auricle,
temporal region
2. Skin of lower part of cheek
3. Skin over chin
Sensory nerve supply
The trigeminal nerve with its three branches is the chief sensory nerve of the face
Trigeminal neuralgia may involve one or more of the three divisions of the trigeminal nerve. It causes attacks of
very severe burning and scalding pain along the distribution of the affected nerve.
20. Applied anatomy:
INFRANUCLEAR LESION
Injury to the facial nerve at the stylomastoid foramen is
known as Bell’s palsy, upper and lower quarters of the face on
the same side get paralyzed.
During mastication, food accumulates between the cheek and
the teeth. Articulation of labials is impaired.
21. Lagophthalmos
It is the inability to close the eyelid.
It may be the result of the residual effect of 7th cranial nerve damage secondary to
Bell’s palsy, tumour, cancer removal.
Failure to provide protection to the eye may lead to exposure keratitis, corneal
abrasion, or blindness.
The treat includes ointments, eye drops, taping, tarsorraphy, or an eyelid implant.
22. SUPRANUCLEAR LESION:
• usually a part of hemiplegia with injury of corticonuclear fibres,
• Only the lower quarter of the opposite side of the face is paralyzed.
• The upper quarter with the frontalis and orbicularis oculi escapes due to its bilateral representation in the
cerebral cortex.
• Only voluntary movements are affected and the emotional expressions remain normal as there are
separate pathways for voluntary and emotional movements.
23. Prosthodontic Considerations
Aging
• Wrinkles start appearing when layers of fat are lost. Age reduces the concavity and “pout” of the upper lip, and it
flattens the philtrum.
• The nasolabial grooves deepen, which produces a sagging look to the middle third of the face, whereas atrophy
of the subcutaneous and buccal pads of fat dissapears, and the upper lip droops( chelioptosis) over the maxillary
teeth.
• These canges are accentuated even more dramatically when teeth are lost or there is loss of occlusal vertical
dimension.
24. Treatment of patients with facial paralysis.
In cases of unilateral facial paralysis- cheek plumper can be used.
They are also known as the cheek lifting appliance and are basically prosthesis for supporting and
lifting the cheek to provide required support and esthetic that will increase the self-esteem of the
patient.
A conventional cheek plumper is a single unit prosthesis with extensions on either side in the region of
the polished buccal surfaces of the denture and are continuous with the rest of the denture.
25. Demerits of such a design are:
● Excessive weight which could hamper retention of the maxillary complete denture
● Can result in muscle fatigue.
● Can destabilize the maxillary denture
● Could interfere with masseter muscle and coronoid process of the mandible
● Difficult to insert the denture due to excessive weight.
● Can’t be used in patients with limited mouth opening.
This problem can be solved with the fabrication of denture with detachable cheek plumper
creating dentures that are in harmony and dignity with the aging individual, which will not
eradicate but compliment the stigma of aging in them.
28. DEVELOPMENT
The muscular system develops from intra embryonic mesoderm
Muscles of mastication are derived from first or mandibular arch.
Therefore all muscles are supplied by the mandibular nerve.
29. FUNCTIONS:
Control all movements of the mandible.
There is a wide area of origin of some of the muscles compared with the area of
insertion, making it possible to have a wide range of movement.
The muscles of mastication occur bilaterally in pairs. Each muscle runs in a
different direction and at a different level. This also helps in the range of
movement.
30. Activities- divided into 2 types-
FUNCTIONAL- chewing, speaking, swallowing
PARAFUNCTIONAL - grinding, clenching, and bruxing
32. Muscle Origin Insertion Function
Masseter
-Quadrilateral muscle Superficial layer from
the anterior 2/3 of the
lower border of
zygomatic arch&
from the zygomatic
process of maxilla.
The superficial fibers
pass downwards&
backwards at an angle
of 45 degrees. They
are inserted into the
lower part of lateral
surface of ramus of
mandible.
The muscle elevates the mandible to close the
mouth & clenches the teeth.
-Fibers are arranged
in three layers.
Middle layer from
anterior 2/3 of deep
surface& posterior
1/3 of lower border of
zygomatic arch.
The middle fibers are
inserted into the
middle part of ramus
Deep layer from the
deep surface of the
zygomatic arch.
the deep fibers into
the upper part of
ramus & into the
coronoid process.
33. Muscle Origin Insertion Function
Temporalis This muscle fills
the temporal fossa
-Temporal fossa, excluding the
zygomatic bone.
-Temporal fascia.
-The margins & deep surface
of coronoid process &
- The anterior border of ramus
of mandible.
-Elevates the mandible.
-Posterior fibers retract the
protruded mandible.
- Side to side grinding
movements of mandible
34. Muscle Origin Insertion Function
LATERAL PTERYGOID
Short,conical and has muscle has upper & lower heads
Both heads arises
from the sphenoid
bone.
a) The upper head
is small. It arises
from the
infratemporal
surface & crest of
greater wing of
sphenoid bone.
b) The lower head
is large. It arises
from the lateral
pterygoid plate
The fibers runs forwards
& laterally & converge
to be inserted into:
a) The pterygoid fovea
on the anterior surface
of neck of mandible.
b) The anterior margin
of articular disc &
capsule of TMJ.
Depresses the
mandible to open the
mouth, (with
suprahyoid muscles)
.
The lateral & medial
pterygoid muscles of
both sides acting
together protrude the
mandible.
The medial & lateral
pterygoid muscles of
the two sides contract
alternatively to
produce side to side
movements of
mandible (as in
chewing).
35. Muscle Origin Insertion Function
MEDIAL PTERYGOID
This is a quadrilateral
muscle. It has a small
superficial head & a large
deep head which forms
the major part of muscle.
a) Superficial head from the
tuberosity of maxilla & adjoining
bone.
b) Deep head from the medial
surface of the lateral pterygoid plate
& adjoining part of palatine bone.
The fibers run downwards,
backwards & laterally
- inserted into the roughened area on
the medial surface of angle & the
adjoining part of ramus of mandible,
below & behind the mandibular
foramen & the mylohyoid groove.
-Elevates the mandible.
-Helps to protrude the
mandible.
36. Nerve supply
Masseter-Masseteric nerve, a branch of anterior division of
the mandibular nerve.
Temporalis-Deep temporal branches from the anterior
division of mandibular nerve.
Lateral pterygoid-A branch from the anterior division of
mandibular nerve.
Medial pterygoid-Nerve to the medial pterygoid, which is a
branch of the main trunk of mandibular nerve.
37. Blood supply:
• Masseter: maxillary artery which is a branch
of external carotid artery.
• Temporalis: middle and deep temporal
arteries
• Medial Pterygoid: Pterygoid branch of
maxillary artery
• Lateral Pterygoid: Pterygoid branch of
maxillary artery.
39. Muscle Origin Insertion Function
DIGASTRIC Anterior belly : from
digastric fossa of mandible,
supplied by nerve to
mylohyoid
Posterior belly: from
mastoid notch of temporal
bone, supplied by facial
nerve
Hyoid bone -It depresses the mandible
when mouth is opened
wide,it is secondary to
lateral pterygoid.
-Elevates hyoid bone
40. Muscle Origin Insertion Nerve supply Function
MYLOHYOID
Flat, triangular
muscles forming
the floor of the
mouth and lies
deep to anterior
belly of digastric.
mylohyoid line
of mandible
hyoid bone nerve to
mylohyoid
-Elevates the
floor of the
mouth in first
stage of
deglutition.
-depresses the
mandible
41. Muscle Origin Insertion Nerve supply Function
GENIOHYOID inferior mental
spine (genial
tubercle)
Hyoid bone Hypoglossal nerve. Elevates the hyoid
bone and depresses
the mandible when
hyoid is fixed
42. Infrahyoid muscles:
Function:
• They have no direct significance.
• Their action is to fix or depress the hyoid bone so that suprahyoid muscles can act
43. Relevance in prosthodontics:
MASSETER:
It will responsible for formation of masseteric notch (distobuccal to the pad i.e. outline of distobuccal border) it
forms due to the action of masseter over buccinator.
This area of denture must be carefully recorded because overextension causes soreness.
Under extension, may result in a loss of support and resistance, to distal displacement.
ACTIVATION - Hold the tray with index finger and thumb at lower border of mandible. Instruct the patient to
close his mouth against the pressure exerted by the finger of operator. This will result masticatory muscle contract
against buccinator muscle.
44. Buccinator
Superior fibres of buccinator- seat the denture.
Inferior fibres of buccinator- control denture stability and relaxes to form a pouch to store
food.
A clinical study involving electromyography analysis of the function of the buccinator
muscle by Lundquist’showed that the nature of buccinator muscle contraction was not
able to adapt to changes in the contours of the denture base. Because learning and
adaptation appear to be limited, the denture contours should be designed to harmonize
with existing buccinators muscle function
45. Mylohyoid
It is very important to achieve stability of lower denture by acquiring adequate peripheral seal in
that area.
It can be determined by:-
Skillful border moulding and impression procedures.
BOUCHER says that the denture flange must be parallel to the mylohyoid muscle when it is
contracted.
ACTIVATION: - During borer moulding or impression making procedure, ask the patient to
swallow or move the tongue RT and Lt Side.
46. In maxilla:
Buccal frenum :
o Levator anguli oris- attaches beneath the frenum
o Orbicularis oris- pulls frenum in forward direction
o Buccinator – pulls frenum in backward direction
Inadequate provision for the buccal frenum of excess thickness of the flange distal to the buccal
notch can cause dislodgement of the denture when the cheeks are moved posteriorly as in a broad
smile.
Recording: the cheek is elevated and then pulled outward, downward and inward and moved
backward and forward.
47. Buccal vestibule:
o Varies with the contraction of the buccinators
o Contraction of the masseter muscle under heavy closing forces reduces the space
available for the distal end of buccal flange.
Recording: the cheek is elevated and then pulled outward, downward and inward.
48. IN THE MANDIBLE
Buccal frenum: overlies the depressor anguli oris and buccinator is attached to it.
Denture should be extended less in this region and the impression should be functionally
trimmed to have the maximum seal.
Buccal vestibule :
This space is influenced by the masseter. When the masseter contracts, it pushes inward against the
buccinator, producing a bulge in the mouth, which is reproduced as a notch in the denture flange.
49. Neutral zone
• The neutral zone has been defined as the area in the mouth where during function, the forces of the
tongue pressing outwards are neutralised by the forces of the cheeks and lips pressing inwards.
• The aim of the neutral zone is to construct a denture in muscle balance. That is a denture which is in
harmony with its surroundings to provide optimum stability, retention and comfort.
• A denture shaped by the neutral zone technique will ensure that the muscular forces are working more
effectively.
So the area is reduced in bulk, but concavity should not be made too pronounced because it can lead to food
accumulation and the buccinators is unable to clean out this hollow
50. When the posterior fibres of temporal muscle contract they tend to move the mandible posteriorly in
CR or to hold it in its most post position during terminal hinge movement.
Thus when a patient is instructed to “ Pull your lower jaw back and close on your back teeth” to make
a CR record or to locate the post terminal hinge axis the temporal muscles and the inframandibular
muscles retrude the mandible and maintain it in this most posterior position.
The lateral pterygoid muscle are also responsible for the lateral and protrusive movements of the
mandible that are necessary to make eccentric interocclusal records or pantographic tracings used
when one is adjusting the horizontal condylar guidances and the lateral condylar guidances of the
articulator.
51. Muscle involvement in horizontal jaw relation
The temporal, masseter and Medial pterygoid muscles elevate the mandible to a particular vertical
relation with the maxillae. The lateral pterygoid muscle show little activity when mandible is in centric
relation.
Muscle involvement in vertical jaw relation
The elevator muscle, temporalis, masseter and the medial pterygoid are involved in stablishing vertical jaw
relations. The depressor muscles are the inframandibular and suprahyoid muscles including the mylohyoid,
geniohyoid, digastric and platysma muscles. These muscles plus gravity help to control the tonic balance that
maintains physiologic rest position.
52. Clinical Considerations
Trismus:
Limited jaw mobility can result from trauma, surgery, radiation treatment, or even TMJ problems. The
limitation in opening may be a result of muscle damage, joint damage, rapid growth of connective tissue
(i.e. scarring) or a combination of these factors.
Treatment:
1) Externally activated appliances: Inflatable bite opener, Dynamic bite opener, threaded tapered screw,
Shell-shaped mouth opener, Screw type mouth gag, Tongue blades, Fingers, Therabite jaw motion
Rehabilitation system.
2) Internally activated appliances: tongue blades, plastic tapered cylinders.
53. Bruxism
• Bruxism is excessive teeth grinding and jaw clenching. It is an oral parafunctional activity.
• Muscles involved: masseter,temporalis,pterygoids,digastric and stylohyoid
SYMPTOMS and SIGNS:
• Indentations of the teeth in the tongue (crenated tongue)
• Hypertrophy of the muscles of mastication, particularly the masseter muscle.
• Tenderness, pain or fatigue of the muscles of mastication, which may get worse during chewing or other
jaw movement.
• Excessive tooth wear, particularly attrition and abfraction, tooth fractures, and repeated failure of dental
restorations
• Treatment : mouth gaurds
54. Effects of bruxism on dentures
Complete dentures: Textbooks on complete denture fabrication often mention that clinical
experience indicates that bruxism is a frequent cause of complaint of soreness of the denture-
bearing mucosa. Parafunctions can be a possible factor related to the magnitude of ridge
reduction.
Removable partial dentures: The question of restoring lost posterior support by means of
mandibular distal extension removable partial dentures (RPDs) in moderately shortened dental
arches remains controversial. However, systematic reviews have concluded that shortened dental
arches comprising anterior and premolar teeth generally fulfill the requirements of a functional
dentition without the need for prosthodontic extension, especially in older patients.
55. Myasthenia gravis
• It is an autoimmune neuromuscular disease that leads to fluctuating muscle weakness and fatigue.
• Muscle weakness first appear in the muscles of face,neck and jaw.
Symptoms
Partial paralysis of eye movements,droopy eyelids
Weakness and fatigue in neck and jaw with problems like chewing ,swallowing and holding up
the neck
TREATMENT
• Medication - acetylcholinesterase inhibitors to directly improve muscle function and
immunosuppressant drugs to reduce the autoimmune process.
• Thymectomy is a surgical method
56. MPDS- myofascial pain dysfunction syndrome
• Medial pterygoid muscle is most commonly involved.
• Also spasm of elevator and lateral pterygoid muscles are seen.
SIGNS AND SYMPTOMS:
• Facial pain, restricted jaw function and joint noise.
• Jaw movements increase the pain.
• Patients may describe a generally tight feeling, or a sensation of the jaw "catching" or "getting stuck“.
TREATMENT:
• Physiotherapy and myotherapeutic excercises
• TENS (Transcutaneous electronic nerve stimulation)
• Muscle relaxants and Surgery
• Botulinum toxin A (BtA) injections.
57. Conclusion
Masticatory and facial muscles include the most vital parts of oro -
facial structure both structurally and functionally.
Thus the success of prosthodontic treatment is in direct proportion to
the dentist's knowledge of functioning anatomy and the application of
this knowledge to denture construction
58. References:
1.B D Chaurasia’s Human Anatomy. Vol 3 Head, Neck and Brain. 11th edition.
2.Boucher. Prosthodontic treatment for edentulous patients. 9th edition Mosby 1985.
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paralysis. The Journal of Prosthetic Dentistry. 1976; 35(2):192-201.
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