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Trigeminal nerve
1. Trigeminal nerve
Department of Oral & Maxillofacial Surgery
New Horizon Dental College & Research Institute
Presented By: Dr Kamini Dadsena
Guided By:
Dr. R. S. Madan
Dr. V. Kharsan
Dr.Akshay Daga
Dr. Abhishek Balani
Dr. Sumit Tiwari
2. introduction:
Trigeminal nerve is largest cranial nerve, it contains both sensory and motor fiber.
It was described by Fallopius and again by Meckel in 1748. The name trigeminal was given by
Winslow on account of its three divisions.
It has 3 branches:
1. Opthalmic – sensory
2. Maxillary – sensory
3. Mandibular - mixed
General somatic afferent fibers contain both exteroceptive and proprioseptive impulses.
It attached to the lateral part of the pons by its two roots, motor and sensory
4. Trigeminal nuclei
The sensory trigeminal nerve
nuclei –
largest of the cranial nerve
nuclei
extend through whole of the
brainstem.
1. The mesencephalic nucleus
- proprioception
2. The chief sensory nucleus (or
"pontine nucleus" or "main
sensory nucleus" or "primary
nucleus") – touch
5.
6. SEMILUNAR OR
GASSERIAN GANGLION.
Sensory ganglion
corresponding to
DorsalRootGanglia of
spinal nerves.
Cresentric in shape with
convexity anterolat.
Contains cell bodies of
pseudounipolar neurons.
LOCATION: lies in a bony
fossa at apex of the
petrous temporal bone
on floor of middle
THE TRIGEMINAL GANGLION
7. COVERINGS: covered by dural pouch = MECKLES CAVE OR CAVUM TRIGEMINALE.
Roof- 2 layers of dura
floor- 1 dural and 1endosteal dural layer.
cave lined by pia and arachnoid thus the
ganglion is bathed in CSF.
ARTERIAL SUPPLY: ganglionic branches of ICA, middle meningeal artery and
accessory meningeal artery.
Conti…
8. Ganglia associated with
trigeminal nerve
Associated with the three divisions of the trigeminal
nerve are four small ganglia.
The ciliary ganglion is connected with the ophthalmic
nerve.
The sphenopalatine ganglion with the maxillary nerve.
And the otic and submaxillary ganglia with the
mandibular nerve.
16. OPHTHALMIC NERVE
Smallest of the 3 branches
Purely sensory
Arises from the anteromedial end of the semilunar ganglion and passes
forward in the lateral wall of cavernous sinus.
As opthalmic division passes forward from cavernous sinus it devides into
3 branches:
1. Lacrimal
2. Frontal
3. Nasociliary
17. Course:
emerges from trigeminal ganglion
lateral wall cavernous sinus
3 branches in ant part of cavernous
sinus, lacrimal, nasocilliary, frontal.
superior orbital fissure
orbit
18. Sensory or Afferent fibers from:
Scalp
Skin of forehead
Conjuctiva
Sclera
Lacrimal gland
Skin of the lateral angle of eyeball
Lining of the ethmoidal cells
Upper eyelid lining the frontal sinus
24. Lacrimal nerve
smallest of the three branches
Passes into orbit at the lateral angle of SOF
It runs forward on the upper border of the lateral rectus muscle It is joined by the
zygomaticotemporal branch of the maxillary nerve, which contains the parasympathetic
secretomotor fibers to the lacrimal gland.
The lacrimal nerve then enters the lacrimal gland and gives branches to the conjunctiva and the
skin of the upper eyelid.
Occasionally it is absent, in which case it is replaced by thezygomaticotemporal nerve: the
relationship is reciprocal
Receives communicating branch from trochlear nerve
25. Frontal nerve
Largest of three branches
It enter the orbit by the way of SOF
The frontal nerve runs forward on the upper surface of
the levator palpebrae superioris muscle and divides
into the supraorbital and supratrochlear nerves
These nerves leave the orbital cavity and supply the
frontal air sinus and the skin of the forehead and the
scalp.
26. SUPRATROCHLEAR N
Smaller nerve
Medial
Receives commu branch
from infratrochlear n
Curves around sup med
margin of orbit
supplies: med
conjunctiva and UL
lower part of forehead
Lies betwn frontalis and
corrugator supercilli
Larger
Lies lateral
Passes through
supraorbital notch
Lies beneath frontalis
Divides in med and lat
branches.
Supplies: conjunctiva,
scalp upto vertex,
mucous membrane of
frontal sinus
SUPRAORBITAL N
27. Passes through med part of sup. Orbital fissure within the tendenious
ring betwn the two div of occulomotor nerve.
Runs along med wall of orbit betwn SO and MR
Divides into terminal branches ANT ETHMOIDAL NERVE and
INFRATROCHLEAR NERVE
branches in orbit.
NASOCILLIARY NERVE
28. 1. Sensory root of the ciliary ganglion:
the long or sensory root arises from nasociliary nerve.
2. Long cilliary nerve: 2 or 3.
run along med side of the ON
pierce sclera and supply cornea, iris, cilliary body.
carry pain temp and touch.
sympathetic motor supply to dilator pupillae.
3. Posterior ethmoidal branch:
passes thru post ethmoidal foramen to supply the ethmoid and sphenoid PNS.
conti
29. 4. Infratrochlear Nerve
smaller terminal branch
emerges below trochlea
appears on face above med angle the eye.
supplies: upper half of external nose
skin of med most part of UL andLL
medial conjunctiva
lacrimal sac
caruncle
30. 5. Anterior ethmoidal nerve:
largar terminal branch
course: ant ethmoidal foramen and canal
into ant cranial fossa on sup surf of cribriform plate
Through slit lat to crista galli into nasal cavity
Med internal nasal branch lat internal nasal branch
Supplies ant nasal septum supplies ant part lat nasal
cavity emerges as
external nasal nerve to
skin of ala,vestibule,and
tip of nose
34. CLINICAL APPLICATION OF TRIGEMINAL
GANGLION
Shingles and varicella-zoster: The trigeminal
ganglion, as any sensory ganglion, may be the
site of infection by the herpes zoster virus
causing shingles, a painful vesicular eruption in
the sensory distribution of the nerve.
Trigeminal neuralgia (tic douloureux): This is
severe pain in the distribution of the trigeminal
nerve or one of its branches, the cause often
being unknown. It may require partial
destruction of the ganglion.
34
35. CLINICAL APPLICATION
Ethmoid tumours
Malignant tumours of the mucous lining of the
ethmoid air cells may expand into the orbits,
damaging branches of opthalmic nerve. This may
lead to displacement of the orbital contents
causing proptosis and squint, and sensory loss over
the anterior nasal skin.
Nasal fractures
Trauma to the nose may damage the nasociliary
nerve. Sensory loss of the skin down to the tip of the
nose may result.
35
36. Corneal reflex: When the cornea is touched, usually with a wisp of
cotton, the subject blinks. This tests V and VII. The nerve impulses pass
through cornea and then through nasociliary nerve to the brain.
Supraorbital injuries
Trauma to the supraorbital margin may damage the supraorbital
and supratrochlear nerves causing sensory loss in the scalp.
36
37. CORNEAL REFLEX
Ask the patient to look upward
to the ceiling and gently
depress the lower eyelid
Lightly touch the lateral edge
of the cornea with damp
cotton wool
Look for both direct and
consensual blinking
39. MAXILLARY NERVE
Second division of trigeminal nerve
Pure sensory
Supplies derivatives of maxillary process and frontonasal process.
40. i
Course: trigeminal gang. Middle cranial fossa
lat wall of cavernous sinus
foramen rotundum
pterigopalatine fossa
in groove on post surf of maxilla
through inf orbital fissure into orbit as INFRA ORBITAL N
through infraorbital foramen on face
42. Innervations:
1. Skin:
• Middle portion of face
• Lower eyelid
• Side of nose
• Upper lip
2. Mucous membrane:
• Nasopharynx
• Maxillary sinus
• Soft palate
• Hard palate
• Tonsil
3. Maxillary teeth and pdl
43. MAXILLARY NERVE
Within cranium In pterygopalatine fossa In infraorbital canal On face
Middle
meningeal
nerve
Inferior
palpebral
Lateral nasal
Superior labial
MSA
(middle superior
alveolar nerve)
ASA
(anterior
superior
alveolar nerve)
Zygomati
c
PSA
(posterio
rsuperior
alveolar)
Pterygopalatin
e
Zygomatic
o
temporal
Zygomatic
o
facial
Orbital
Nasal
Palatine
Pharynge
al
Ganglionic
branch
44. WITHIN CRANIUM
Middle meningeal nerve
It leaves the maxillary nerve near the foramen rotundum.
It runs along with the middle menigeal artery to supply the
duramater in the middle cranial fossa
45. IN PTERYGOPALATINE FOSSA
1. Ganglionic branches-
related to pterigopalatine ganglion
Carry sensations from orbital periosteum, nose, pharynx,palate
Carry post ganglionic parasymp. Secretomotor fibres to lacrimal
gland
46. Zygomatic Nerve:
Starts in the pterygopalatine fossa
Enters the orbit through the infraorbital fissure along its
lateral border where it divides into 2 branches :
Zygomatictemporal
Zygomaticfacial
47. A. zygomaticofacial nerve
Appears on face through
foramen in the zygomatic bone
Supplies skin on prominence of
cheek
B. zygomaticotemporal nerve
Supplies skin of temporal
region after peircing temporal
fascia 2 cm above zygoma
Gives communicating branch to
lacrimal N
48.
49. Posterior superior alveolar
nerve:
• It supply Maxillary molars & their gingivae
• Pass through the apical foramen of the roots of the molars except the
mesiobuccal root of the first molar.
• Mucous membrane of the maxillary sinus
56. PHARYNGEAL BRANCH
Leaves the posterior part of
pterygopalatine ganglion
pharyngeal canal
Supplies the mucous membrane of
nasopharynx &
posterior part of eustachian tube.
58. Superior alveolar branches
Middle superior alveolar : maxillary bicuspids
Anterior superior alveolar : maxillary cental, lateral incisors & cuspids
59. Middle superior alveolar br : form the superior dental plexus
of nerves within the maxillary sinus
: as a direct branch of infraorbital n.
the middle superior alveolar n. may be missing and that the maxillary
bicuspids receive their sensory innervation from the
superior dental plexus.
.
60. Terminal branches
The palpebral branch ascend deep to the orbicularis
oculi, piercing the muscle to supply the skin in the
lower eyelid.
The nasal branches supplies the skin of the side of
the nose and of the movable part of the nasal septum.
Superior labial branch supply the skin of anterior
part of cheek, upper lip, oral mucosa and labial
glands.
61. Applied anatomy:
Causes of injury to Maxillary nerve –
1. Maxillofacial surgical procedures
Orthognathic surgeries
head & neck preprosthetic surgeries
Treatment of benign & malignent lesions
2. Trauma & facial fractures
3. Dental implant placement
4. Endodontic therapy
5. Tratment of pathology (specially periapical)
6. During administration of local anesthesia
62. Cavernous sinus thrombosis
- Cavernous sinus
syndrome is a medical
emergency, requiring
prompt medical
attention, diagnosis, and
treatment
- Result from involvement
of CS by
inflammatory/septic foci.
63. Potential causes of cavernous
sinus syndrome include –
1. metastatic tumors,
2. direct extension of nasopharyngeal
tumors,
3. meningioma,
4. pituitary tumors,
5. aneurysms of the intracavernous
carotid artery
6. bacterial infection causing
cavernous sinus thrombosis,
7. aseptic thrombosis,
8. fungal infections.
64. Clinical features:
• High grade fever
• Altered consciousness
• Severe infection in danger area of face
• Chemosis
• Proptosis
• Opthalmoplagia
multiple cranial neuropathies.
- exophthalmos
- sensory loss in V1 and / or V2.
65. Treatment:
early and aggressive Broad spectrum parentral
antibiotic administration for 3-4 weeks.
IV mannitol toreduce intracrainial pressure.
Anticoagulant to prevent ext. of thrombosis. Heparin
20,000 unit in 1500 ml of D5 or 200mg dicumarol orally
followed by 100mg daily.
Corticosteroid reduced intra cranial tension but there
is risk of spread of infection.
Neurosurgical intervention is mandatory.
66. Trauma to bones of skull & face
malar fractures-Trauma to infraorbital margin may
cause sensory loss of infraorbital skin.
69. Making Nasopalatine Blocks Comfortable: A Randomised Prospective
Clinical Comparison of Pain Associated with the Injection Using an Insulin
Syringe and a Standard Disposable 3 mL Syringe
Sundararaman Prabhu, Syed Faizel, Vedant Pahlajani, and Shweta Jha
Prabhu
J Maxillofac Oral Surg. 2013 December; 12(4): 436–439.
70. Making Nasopalatine Blocks Comfortable: A Randomised
Prospective Clinical Comparison of Pain Associated with the Injection
Using an Insulin Syringe and a Standard Disposable 3 mL Syringe
J Maxillofac Oral Surg. 2013 December; 12(4): 436–439.
Published online 2012 August 1. doi: 10.1007/s12663-012-0412-4
PMCID: PMC3847027
Making Nasopalatine Blocks Comfortable: A Randomised Prospective Clinical Comparison of Pain
Associated with the Injection Using an Insulin Syringe and a Standard Disposable 3 mL Syringe
Sundararaman Prabhu, Syed Faizel, Vedant Pahlajani, and Shweta Jha Prabhu
Aim:
This study was conducted to compare and evaluate the pain associated with
administration of Nasopalatine blocks using a disposable insulin syringe and
the conventional disposable 3 mL syringe.
Conclusion
Pain associated with administration of the nasopalatine blocks may be
significantly mitigated by using the Insulin syringe
71. MAXILLARY SINUS
INFECTIONS
Infections of the maxillary sinus may cause
infraorbital pain or may cause referred pain
to other structures supplied by Vb (e.g.
upper teeth).
73. Gradenigo’s syndrome:
first described in 1904 by Guiseppe Gradenigo.
It is defined as a clinical triad of otitis media, severe pain originating from
the trigeminal nerve, and ipsilateral sixth cranial nerve palsy.
J Med Case Rep. 2014; 8: 217.
Published online 2014 June 23. doi: 10.1186/1752-1947-8-217
PMCID: PMC4086707
Gradenigo’s syndrome secondary to chronic otitis media on a
background of previous radical mastoidectomy: a case report
Yuvatiya Plodpai,1 Siriporn Hirunpat,2 and Weerawat Kiddee3
Author information ► Article notes ► Copyright and License
information ►
74. Pterygopalatine Ganglion:
Sphenopalatine ganglion is the largest
parasympathetic ganglion, suspended by two roots of
maxillary nerve.
Functionaly it is related to facial nerve.
It is also the ganglion of hay fever.
Roots:
Sensory, sympathetic and secreatomotor or
parasympathetic roots.
75. Sensory roots is from maxillary nerve
Sympathetic roots is from postganglionic plexus
around ICA. The nerve is called deep petrosal. It unites
with greater petrosal to form the nerve of pterygoid
canal. The fibres of deep petrosal nerve do not relay
on ganglion.
76.
77.
78.
79. Clinical examination of
maxillary nerve:
Sensory: apply gentle touch, pinpricks, or warm or cold
objects to areas supplied by the nerve and note
responses;
Reflex: sneeze reflex.
84. Introduction:
Mandibular nerve is the largest branch of the
trigeminal nerve.
Mixed nerve with two roots:
1. Large sensory : from inferior angle of TGG
2. Small motor : Motor cells located in pons & medulla
88. Innervations:
1. Sensory roots:
a) Skin:
Temporal region
Auricula
Ext. auditory meatus
Cheek
Lower lip
Lower part of face
b. Mucous membrane
Cheek
Tongue
Mastoid cells
c. Mandibular
teeth and pdl
d. Bone of
mandible
e. TMJ
f. Parotid gland
89. 2. Motor roots
a. Masticatory muscles:
Masseter
Temporalis
Medial pterygoid
Lateral pterygoid
b. Mylohoid
c. Ant. Belly of digastric
d. Tensor tympani
e. Tensor veli palatini
90. Branches of Mandibular Nerve
Mandibular
nerve
Branches from
undivided nerve
Nervus spinosus
Nerve to medial
pterygoid
Nerve to tensor
tympani
Nerve to tensor
veli palatini
Branches from
anterior division
Nerve to lateral
pterygoid
Nerve to
masseter muscle
Nerve to
temporal muscle
Buccal nerve
Branches from
posterior division
Auriculotemporal
nerve
Lingual nerve
Inferior alveolar
nerve
Incisive nerve
Mental nerve
Mylohyoid nerve
98. Buccal nerve:
Also k/a buccinator or long
buccal nerve.
Passes between two heads of
lateral pterygoid muscle.
Sensory fibres to
1. Skin of cheeks
2. Buccal gingiva to
mandibular molars
3. Mucobuccal fold
102. Auriculotemporal nerve:
Arises by a medial & lateral root.
Communications:
Each root receives communicating fibers from the otic
ganglion;
which are sensory & secretomotor to parotid gland.
104. Branches :
Communication to facial:
Otic gang.: sensory, secretory and
vasomotor to parotid
Articular : posterior part of TMJ
Ant. Auricular : skin over the helix & tragus of
ear
Ext. auditory Meatal : skin lining the meatus
& tympanic membrane
Superficial temporal branch : skin over the
temporal region
105. Lingual nerve
Passes downward medial to lat. Pterygoid
In pterygopalatine space, between ramus and medial
pterygoid
Runs parallel to inf. Alveolar nerve
Lies below and behind lower 3rd molar.
Proceeds ant. In muscle of tongue
106. Sensory:
1. To ant. 2/3rd of tongue
2. Floor of mouth
3. Gingiva to lingual surface
of mandible
107. Inferior alveolar nerve:
Largest br. Of post. Division.
Lies medial to lateral pterygoid
Enter mandibular canal.
Throughout the path it accompany with IAA & IAV.
108. Mylohyoid nerve
Br. From IAN before it enter in mandibular canal.
Runs downward & forward in mylohyid groove
It is mixed nerve.
Supply:
1. Motor to mylohyid muscle & ABD
2. Sensory to skin on the ant & inf. Surface of mental
protuberance
3. Sensory innervation to mandi. Incisors and mesial
roots of mandibular 1st molar.
109. Terminal branches
IAN divided into mental and insive nerve.
Incisive nerve remains in mand. Canal and supply
mandi. 1st PM, C & I.
Mental nerve: exit the canal through mental foram.
And divided into 3 branches to that innervate the skin
of the chin, skin & mucous membrane of lower lip.
111. Nerve block:
Complication of Inferior alveolar nerve block:
1. Failure of anesthesia: due to accesory sensory
innervation to mandibular teeth esp. mylohyoid
nerve.
2. Hematoma:
3. trismus
4. Transient facial paralysis
112. Complication of mandibular nerve block:
1. Gow – gate tech.:
hematoma
Trismus
temporary paralysis of 3rd, 4th, & 6th nerve complete paralysis of eye
for 20 min.
1. Vazirani- akinosi closed mouth tech:
failure to anesthesia
Hematoma
Trismus
Transient facial paralysis
113. Mental nerve block complication:
Hematoma
Paresthesia to lip &/or chin
Complication of Incisive nerve block:
Failure of anesthesia:
Hematoma
Paresthesia to lip&/or chin
114. Lingual nerve injury
Surgical trauma :
1. Complication of the regional blocking of nerve
2. Extraction of the mandibular 3rd molars
3. Jaw fracture
4. Stone in the submandibular gland duct
5. Probing or removing such stones
6. Accidental laceration of the ventral surface of
tongue during dental restoration
7. Rarely TUMOUR in this region
EFFECTS: various sensation of pain, numbness,
burning, altered gustatory function
115.
116. Frey syndrome:
1st described by frey.
It is localised gustatory sweating in the area supplied by
auriculotemporal nerve.
Cause:
Congenital or acquired
Surgery of parotid gland, TMJ , parotid abscess, facial wound.
Clinical feature:
1. Pain in area supplied by ATN
2. Gustatory sweating
3. Erythema & flushing
4. Positive iodine starch test
117.
118. Treatment:
1. Antiperspirants
2. Anticholinergic prepn: glycopyrolate
3. Botulinum toxin A inj.
4. Radiation therapy: 50 Gy
5. Surgical:
i. Skin excision: for localise & small area
ii. ATN section: not permanent
iii. Tympanic neurectomy: safe procedure
119. Trigeminal neuralgia:
Tic douloureux; Trifacial neuralgia;
Fothergill’s disease
Definition: paroxymal episode of sudden, usually
unilateral, severe recurrent pain of shearing, stabbing
or lancinating type in distribution of one or more
branches of 5th cranial nerve, accompanied by
spasmodic contraction of facial muscles, often
initiated by ‘trigger zone’.
British journal of anesthesia(2001)
120. Etiology of TN:
Mostly idiopathic
Peripheral cause:
1. Nerve compression, trauma,
2. Herpes zoster infection
3. Aneurysm around nerve
4. Demyelination around the nerve
Central cause:
1. Microaneurysm around nerve
2. Cerebro pontine angle tumors
3. Multiple sclerosis
4. Demyelination of the nerve
5. Pulsation of basillar artery
6. High petrous ridge
122. Trigger points
• vermillion border of the
lips, alae of nose, the
cheeks, teeth & gums of
lower jaw & around the
eyes.
•Eating, chewing, washing
face, shaving, smiling,
speaking, brushing,
applying make-up,
encounting soft breeze.
123. •In the early stages pain is mild; of short duration with the
refractory period between the attacks; but at later stage the
pain becomes severe & tend to occur at more frequent
intervals.
124. Treatment:
MEDICAL
Anti-convulsants: Carbamazepine ( initial dose 200 mg three times a day &
tritated over 1 to 5 weeks period; eventually increasing to 800- 1200 mg)
Phenytoin
Baclofen ( GABA inhibitor )
Sodium Valproate ( 600 mg ) Clonazepam ( 1.5 mg/day )
Newer Anti- convulsants : Gabapentin, Lamotrigine, Vigabatrin
Corticosteroids
Tricyclic anti-depressants : Amitryptyline
125. SURGICAL:
Extracranial : Alcohol block in peripheral n.
Nerve section & avulsion
Electrosurgery
Cryosurgery
Selective radio frequency thermocoagulation
Peripheral neurectomy : Supraoribtal
Infraorbital
Lingual
Inferior alveolar
128. • Newer approaches:
a) Physiologic inhibition of pain by transcutaneous neural stimulation
b) Acupuncture
• Psychologic approaches :
a) Biofeedback
b)Psychiatric counseling
c) Hypnosis
129. IAN injury
Third molar surgery-
1 Upto 25% pts may not exp. spontaneous recovery of
sensation within one year.
2 Greater than 1 yr> microsurgery to be performed.
3. Mesioangular impactions greatest risk for nerve
damage followed by horizontal.
4. 0.33% reported cases of paresthesia & 0.184% with
permanent damage
# 2005 OOOE – RADIOGRAPHIC PROXIMITY OF MAND THIRD MOLAR TO INF. ALV N.
130. Rood & Sehab 1990
A. Radiolucency across
the roots
B. Deviation of mandibular
canal
C. Interruption of canal
D. Deflection of third molar
root by the canal
E. Narrowing of third molar
root
131. Orthognathic surgery1. BSSO highest incidencce of neurosensory disturbances.
2. Injuries most common at mandibular foramen during osteotomies.
3. Mand. advancement result in stretch injury & application of rigid fixation
cause mechanical & compression type of injury
4. As IAN appr. mental foramen increase risk during implant placement or
genioplasty
133. Dental implants
1. It is suspect to post. Region of
mandible & ant. To mental
foramen
2. Placement of endosseus
implants result in 100% transient
hypoesthesia & 16% permanent
sensory loss
134. Preauricular surgical approaches to
the mandible condyle or neck will
routinely expose the terminal
auriculotemporal n. trunk along with
superficial temporal artery.
Trauma
Nerve impingement sec. to fracture
displacement
135. Traumatic Neuroma
Benign tumor
Exuberant attempt at repair of the damaged nerve
trunk
Following accidental or purposeful sectioning of a
nerve , difficult extraction
Oral traumatic neuroma: small nodule or swelling of
the mucosa typically near mental foramen, on the
alveolar ridge in edentulous areas or on the lips or
tongue.
Treatment: surgical excision of the nodule.
136. Trotter syndrome:
In nasopharyngeal carcinoma, the tumor may extend
laterally and involve the sinus of Morgagni sinus
involving the mandibular nerve.
This produces a triad of symptoms known asTrotter's
Triad. These symptoms are:
1) Conductive deafness (due to eustachian
tube involvement)
2) Ipsilateral immobility of the soft palate
3) Trigeminal neuralgia
138. Submandibular ganglia:
Sensory roots from lingual nerve. And it suspended by
two roots of lingual nerve.
sympathetic plexus is from the sympathetic flexus
around the facial artery. This plexus contains post
ganglionic fibres from superior cervical ganglion of
sympathetic trunk. These fibre vasomotor to the gland.
Secreatomotor roots is from superior salivatory nucleus
through nervus intermedius via chorda tympani. CT
joins lingual nerve. Parasympathetic fibre get relayed
in submandibular ganglion.
139. related to lingual nerve,
rests on hyoglossus muscle
supplies post ganglionic Parasympethetic
secretomotor fibres to submandibular and sublingual
gland.
140.
141. Br. To the Submandibular gland and sublingual
gland
142. Otic ganglion:
The otic ganglion lies deep to the trunk of mandibular
nerve, between nerve and tensor veli palatini muscle
in infra temporal fossa, just distal to foramen ovale.
Topographicaly it is related to mandibular nerve bt
functionaly it is related to glossopharyngeal nerve.
Roots:
1. Sensory roots from auriculotemporal nerve.
143. 2. Sympathetic roots from plexus around middle
meningeal artery.
3. Secretomotor roots is by lesser petrosal nerve from
the tympanic plexus formed by tympanic branch of
glossopharyngeal nerve. Fibres of lesser petrosal
nerve relay in otic ganglion. Postganglionic fibres
reaches the gland through auriculotemporal nerve.
144. Cont….
Branches:
1. Post ganglionic branches of ganglion pass through
auriculotemporal nerve to supply parotid gland
2. Motor branches to supplytwo muscle tensor
tympani and tensor veli palatini.
147. Clinical examination of nerve
Sensory: apply gentle touch, pinpricks, or
warm or cold objects to areas supplied by
the nerve and note responses.
Jaw jerk reflex:
Afferent- sensory portion of trigeminal n.
Reflex centre – pons
Significance-
1. Normal response slight
2. Brisk in supranuclear lesions of pyramidal
tracts above the nucleus of trigeminal n.
150. Ganglion:
Ganglia are aggregations of neuronal somata and are of varying form
and size.
They occur in
1. the dorsal roots of spinal nerves
2. Sensory roots of cranial nerves ie trigeminal, facial, glossopharyngeal,
vagal and vestibulocochlear
3. autonomic nerves
4. enteric nervous system.
Each ganglion is enclosed within a capsule of fibrous connective tissue
and contains neuronal somata and neuronal processes
Some ganglia, particularly in the ANS, contain fibres from cell bodies that
lie elsewhere in the nervous system and that either pass through, or
terminate within, the ganglia.
151. Submandibular Ganglia
The submandibular ganglia lies superficial to
hyoglossus muscle in submandibular region.
Functionally submandibular ganglion is connected to
facial nerve, while topologically it is connected to
lingual nerve.
Roots:
It has sensory, sympathetic and secreatomotor or
parasympathetic roots.
152. Sensory roots from lingual nerve. And it suspended by two roots of
lingual nerve.
sympathetic plexus is from the sympathetic flexus around the facial
artery. This plexus contains post ganglionic fibres from superior
cervical ganglion of sympathetic trunk. These fibre vasomotor to the
gland.
Secreatomotor roots is from superior salivatory nucleus through nervus
intermedius via chorda tympani. CT joins lingual nerve.
Parasympathetic fibre get relayed in submandibular ganglion.
153. related to lingual nerve,
rests on hyoglossus
muscle
supplies post ganglionic
Parasympethetic
secretomotor fibres to
submandibular and
sublingual gland.
SUBMANDIBULAR GANGLION
154. Br. To the Submandibular gland and sublingual
gland
155. Pterygopalatine Ganglion:
Sphenopalatine ganglion is the largest
parasympathetic ganglion, suspended by two roots of
maxillary nerve.
Functionaly it is related to facial nerve.
It is also the ganglion of hay fever.
Roots:
Sensory, sympathetic and secreatomotor or
parasympathetic roots.
156. Sensory roots is from maxillary nerve
Sympathetic roots is from postganglionic plexus
around ICA. The nerve is called deep petrosal. It unites
with greater petrosal to form the nerve of pterygoid
canal. The fibres of deep petrosal nerve do not relay
on ga
157.
158.
159. Cilliary ganglion:
Very small gangliom present in orbit.
Topographically, it is related to nasociliary nerve but
functionaly it is related to occulomotor nerve .
Roots:
1. Sensory from long ciliary nerve
2. Sympathetic roots from long ciliary nerve from
plexus around opthalmic artery.
3. Parasympathetic root is from a branch to inferior
oblique muscle.
160. Cont……
Parasymph. Fibres arises from Edinger-westphal
nucleus, join occulomotor nerve and leave it via nerve
to IO
Branches:
1. Gang.gives 10-12 short ciliary nerve containing post
ganglionic fibres for the supply of constrictor or
sphinctor pupillae for narrowing the size of pupil
and ciliary muscles for increasing curvature of ant.
Surface of lens during accomodation of eye.
161.
162.
163. Otic ganglion:
The otic ganglion lies deep to the trunk of mandibular
nerve, between nerve and tensor veli palatini muscle
in infra temporal fossa, just distal to foramen ovale.
Topographicaly it is related to mandibular nerve bt
functionaly it is related to glossopharyngeal nerve.
Roots:
1. Sensory roots from auriculotemporal nerve.
164. 2. Sympathetic roots from plexus around middle
meningeal artery.
3. Secretomotor roots is by lesser petrosal nerve from
the tympanic plexus formed by tympanic branch of
glossopharyngeal nerve. Fibres of lesser petrosal
nerve relay in otic ganglion. Postganglionic fibres
reaches the gland through auriculotemporal nerve.
4. Motor root is by branch from nerve to medial
pterygoid. This branches underlying through the
ganglion and devided into two branches to supply
tensor tympani and tensor veli palatini
165. Cont….
Branches:
1. Post ganglionic branches of ganglion pass through
auriculotemporal nerve to supply parotid gland
2. Motor branches to supplytwo muscle tensor
tympani and tensor veli palatini.
166. 4. OTIC GANGLION:
between trunk of mandibular nerve and tensor palatini
supplies post ganglionic
Parasympethetic secretomotor
fibres to parotid gland.
167.
168. Conclusion:
Mandibular nerve is one of the imp. Nerve of head &
neck.
It is nerve of 1st brachial arch.
Most commonly invoved in TN
Lingual nerve is most commonly involve in minor
surgical procedure of 3rd molar area
Injury to lingual, mental & IAN can be avoided by
proper tech.
Auriculotemporal nerve injury can be prevented by
modification of incision line.