The document discusses the 12 pairs of cranial nerves. It provides detailed information on the olfactory, optic, oculomotor, trochlear, trigeminal, abducent, and facial cranial nerves. It describes the embryology, course, distribution and functions of these nerves. It also discusses various clinical conditions that can arise from injuries or lesions to the different cranial nerves.
2. INTRODUCTION
• There are 12 pairs of cranial nerves
• A cranial nerve is made up of single or
multiple function called modality
• Each modality is sensory or motor in nature.
4. EMBRYOLOGY
During early stages of development, the walls of
the neural tube is made up of 3 layers :
• Inner ependymal layer
• Middle mantle layer
• Outer marginal layer
5. • Soon the middle mantle layer differentiates
into :
Dorsal alar lamina
Ventral basal lamina
• It is partially separated by sulcus limitans.
6. Attachment of nerves to brain
• I and II - forebrain
• III and IV - midbrain
• V , VI , VII , VIII - pons
• IX , X , XI, XII -medulla oblongata
8. • It is sensory nerve
• Carries impulses of smell
• ORIGIN : olfactory epithelium
9. OLFACTORY CELL
Olfactory cells are 16-20 million in number
Olfactory cell present in the nasal mucosa serves
as first order neuron in olfactory pathway.
10. OLFACTORY NERVE
• Olfactory nerves are 20 in number
• Represent central processes of olfactory cells
• They pass through cribriform plate of ethmoid
and club with cells of olfactory bulb.
11.
12. OLFACTION AND CODING
• In the olfactory epithelium, odorants bind to
specific receptors on the primary olfactory
neurons. This leads to the activation of a G
protein ,which activates adenylyl cyclase ,
which in turn produces cyclic adenosine
monophophate from ATP and activates an ion
channel that is permeable to cations Na+ and
Ca2+. This leads to a shift in membrane
potential leading to depolarization and
production of action potential.
13.
14. CLINICAL ANATOMY
• ANOSMIA : Loss of olfactory fibres with
ageing.
• Head injury causes damage to olfactory bulbs
resulting in anosmia and CNS rhinorrhea.
• Abscess of frontal lobe of brain compresses
olfactory bulb resulting in anosmia.
17. FIELD OF VISION
It includes 4 fields :
• Upper temporal
• Lower temporal
• Upper nasal
• Lower nasal
18. RETINA
• Cells of the retina represents first order
neurons
• They receive impulses from the rods and
cones present in the retina
• Temporal field is seen by the nasal hemiretina
and vice versa.
24. CLINICAL ANATOMY
• Lesions in retina leads to scotoma that is
certain points may become blind spots.
• Loss of vision in one half of visual field –
hemianopia.
• Optic nerve damage results in complete
blindness of that eye.
27. • Distributed to extraocular and intraocular mucles.
• It is motor nerve
• ORIGIN : anterior surface of midbrain
• The nuclei associated is oculomotor nucleus in
the grey matter of midbrain.
29. CLINICAL ANATOMY
• Lesions lead to drooping of the eyelid due to
paralysis of levator palpebrae superioris
muscle
• Lateral squint
• Diplopia
• Ptosis
• Loss of accommodation
• Dilatation of the pupil
32. • 4 th cranial nerve
• Supplies only the superior oblique muscle of
the eyeball.
• Nuclei associated with this nerve is trochlear
nucleus
• The trochlear nucleus is situated in the
ventromedial part of the central grey matter
of midbrain at the level of inferior colliculus.
35. CLINICAL ANATOMY
• When trochlear nerve is damaged diplopia
occurs.
• Paralysis of the trochlear nerve results in :
defective depression of the adducted eye
and also diplopia.
37. EMBRYOLOGY
• During the development of embryo, the
pharyngeal arches appear in the forth and
fifth week.
• It gives rise to 6 pharyngeal arches, of which
the 5th arch disappears..
• Trigeminal nerve is derived from 1st
pharyngeal arch.
38. INTRODUCTION
• The largest cranial nerve
• It is a mixed nerve (sensory and motor)
• Sensory to – the skin of the face
mucosa of the cranial viscera
• Motor to – mucles of mastication
anterior belly of digatric
mylohyoid
tensor veli palatini
and tensor tympani
39. SENSORY NUCLEI
• MESENCEPHALIC NUCLEUS
extends from pons till midbrain
receives proprioceptive impulses from muscles
of mastication, temperomandibular joint and
teeth
• SUPERIOR SENSORY NUCLEUS
fibers carrying touch and pressure relay in this
nucleus
40. • SPINAL NUCLEUS
it takes pain and temperature sensations
from most of the face area
41. MOTOR NUCLEUS
• Innervates mucles of mastication , tensor veli
palatini and tensor tympani
• Located in the pons
• Derived from from first branchial arch
42.
43. COURSE AND DISTRIBUTION
• Both sensory and motor root are attached
ventrally to junction of pons and middle
cerebellar peduncle with motor root lying
ventromedially to the sensory root.
• Pass anteriorly in middle cranial fossa to lie
below tentorium cerebelli in cavum
trigeminale, here motor root lies inferior to
sensory root
44. • Sensory root connected to postromedial
concave border of the trigeminal ganglion.
• Convex antrolateral margin of the ganglion
gives attachment to the 3 divisions of the
trigeminal nerve.
45. • Motor root turns further inferior with sensory
component to emerge out of foramen ovale as
Mandibular nerve.
• Ophthalmic and Maxillary division emerges
through superior orbital fissure and foramen
rotundum respectively.
46. GANGLION
• SEMILUNAR GANGLION
• GASSERIAN GANGLION
• Contains cell bodies of pseudounipolar
neuron.
• Lies in a bony fossa at apex of the petrous
temporal bone on floor of middle cranial fossa
just lateral to posterior part of lateral wall of
the cavernous sinus.
47. • Coverings : covered by dural pouch that is the
Meckels cave
• Cave is lined by piamater and arachnoid
• Thus the ganglion is bathed in CSF
• ARTERIAL SUPPLY : Ganglionic branches of
Internal carotid artery , Middle meningeal
artery and Accessory meningeal artery.
48.
49. RELATIONS
• MEDIALLY : internal carotid artery and the
posterior part of cavernous sinus
• LATERALLY : middle meningeal artery
• SUPERIORLY : parahippocampal gyrus
• INFERIORLY : motor root of trigeminal nerve ,
greater petrosal nerve , apex of petrous
temporal bone and foramen lacerum
55. LACRIMAL NERVE:
• Smallest
• Supplies lacrimal gland and the conjuctiva
• It pierces the orbital septum and ends in the
skin of the upper eyelid
56. • FRONTAL :
• Largest and appears to be the direct continuation of
ophthalmic division
• Divides into
1. Supratrochlear
2. Supraorbital
Supratrochlear supplies skin of the forehead and scalp.
Supraorbital supplies the upper eyelid and lower part of
forehead.
57. • NASOCILLIARY :
• Intermediate in size
• Its branches are divided as following:
1. Branches in the orbit
2. Branches in the nasal cavity
3. Branches on the face
58. • Branches in the orbit:
1. Long root of ciliary ganglion :eyeball
2. Long ciliary nerve : iris and cornea
3. Posterior ethmoidal nerve : mucous
membrane lining of the posterior ethmoidal
and sphenoidal paranasal air cells.
4. Anterior ethmoidal nerve: anterior ethmoid
and frontal paranasal air cells.
59. • Branches in the nasal cavity :
Branches arising here supply the mucous
membrane of the nasal cavity.
• Terminal branches on the face :
They supply skin of both eyelid , lacrimal sac and
skin on the bridge of the nose.
61. • Sensory division
• 2nd division of trigeminal nerve
• Supplies derivatives of maxillary process and
frontonasal process
62.
63. •Meningeal branches
In cranial cavity
•2 ganglionic branches
Pterygopalatine fossa
•Posterior superior alveolar
•Zygomatic nerve
In infra temporal fosa
•Anterior superior alveolar
•Middlesuperior alveolar
In infraorbital canal
•Labial
•Nasal
•palpebral
In face
64.
65. • Branches given off on the cranium :
1. Meningeal branch : duramater of the anterior
and middle cranial fossae.
• Branches in the pterygopalatine fossa :
1. Ganglionic branch : contains secretomotor fibres
to the lacrimal gland .They provide sensory
fibres to the orbital periosteum and mucous
membrane of the nose , palate and pharynx.
66. In infratemporal fossa
1 . Zygomatic nerve : skin over the zygomatic
bone. It divides into zygomaticofacial and
zygomaticotemporal.
2 . Posterior superior alveolar nerve : supply 3
molar teeth except mesiobuccal root of first
molar.
67. • Branches in the infraorbital canal :
1. Middle superior alveolar nerve : supplies
maxillary premolars and mesiobuccal root of
first molar.
2. Anterior superior alveolar nerve : supplies
canine and incisors.
68. • Branches given on the face:
1. Palpebral branches : skin over the lower
eyelid and lateral angle ofthe eye.
2. Nasal branches : skin of the face and tip of
the nasal septum.
3. Superior labial branches : supplies cheek and
upper lip.
70. RELATIONS
• Begins in the middle cranial fossa through a large
sensory root and small motor root
• Sensory root arises from the lateral part of
trigeminal ganglion and leaves through foramen
ovale
• Motor root lies deep to trigeminal ganglion
• Motor root join the sensory root just below the
foramen forming main trunk.
• The main trunk lies in the infratemporal fossa on
the tensor veli palatini deep to lateral pterygoid.
73. From trunk...
• Meningeal branch:
enters the skull through foramen spinosum
supplies duramater of middle cranial fossa
• Nerve to medial pterygoid:
supplies the medial pterygoid
arises close to otic ganglion
this nerve gives a motor root to the otic ganglion
which does not relay and supplies tensor veli
palatini and tensor tympani muscles.
74.
75. From the anterior division...
• Buccal nerve :
only sensory branch of anterior division
supplies skin of cheek and mucous
membrane of buccinator.
Also supplies labial aspect of gingiva of
molars and premolars
76. • Deep temporal nerve :
Supplies temporalis muscle
• Nerve to lateral pterygoid :
Supplies lateral pterygoid
• Masseteric nerve
supplies masseter and TMj
Emerges at the upper border of lateral pterygoid
77.
78. From poterior division..
Auriculotemporal nerve :
• Auricular part supplies skin of the
tragus,upper pinna,external acoustic meatus
• Temporal part supplies skin of the temple
• Auriculotemporal nerve also supplies parotid
gland and TMJ
79. LINGUAL NERVE :
• Sensory to anterior 2/3rd of tongue.
• Supplies floor of oral cavity.
• The fibres of chorda tympani which is
secretomotor to submandibular and
sublingual salivary glands is also distributed
through lingual nerve.
80. • Begins from 1cm below the skull
• About 2 cm below the skull it is joined by
chorda tympani
• Lies in contact with mandible
• Medial to 3rd molar
81. INFERIOR ALVEOLAR NERVE :
• Largest terminal nerve
• It enters the mandibular foramen and runs in
the mandibular canal
• It is accompanied by inferior alveolar artery.
82. • Supplies mylohyoid muscle and anterior belly of digastric
Mylohyoid branch
• Supplies skin on the chin and lower lip
Mental nerve
• Labial aspect of gingiva of canine and incisors
Incisive branch
83. OTIC GANGLION
• Small, oval shaped, flattened ganglion
• Situated immediately below the foramen
ovale
• Lies on the medial surface of the mandibular
nerve and surrounds the origin of the nerve to
medial pterygoid.
84.
85. CLINICAL ANATOMY
• IN INJURY TO :
OPHTHALMIC NERVE : There is loss of corneal
blink reflex.
MAXILLARY NERVE : There is loss of sneeze
reflex.
MANDIBULAR NERVE : There is loss of jaw
jerk reflex.
86. • TRIGEMINAL NEURALGIA :
Pain along the distribution of the nerve
Caused due to local lesion or unknown cause
Sharp shooting pain which lasts for few
seconds
Has trigger zones
Maxillary nerve is most frequently involved
87. • The Trigeminal ganglion harbours the Herpes
zoster virus causing shingles in the distribution
of nerve.
• Flaccid paralysis of muscles of mastication in
injury of mandibular nerve leading to
decrease strength for biting.
88. Mandibular nerve
• Reffered pain : in cases of cancer of
tongue,pain radiates to ear and to temporal
fossa, over the ditribution of auriculotemporal
nerve.
• Lingual nerve lies in contact with mandible,
medial to 3rd molar,in case of extraction of it
care must be taken not to injure nerve.
89. • In extraction of mandibular teeth , inferior
alveolar nerve needs to be anaesthetised .
The drug is given before it enters the
mandibular canal
• Inferior alveolar nerve as it travels through the
mandibular canal can be damaged by the
fracture of the mandible .This can be assessed
by testing sensation over the chin.
90. ABDUCENT NERVE
• 6th cranial nerve
• Supplies the lateral rectus muscle of the
eyeball.
• Nuclei associated with this nerve is the
abducent nucleus.
• Nucleus is situated in the upper part of the
floor of fourth ventricle in the lower pons.
91.
92. COURSE
• Passes upward and anterolaterally in the
subarachnoid space of posterior cranial fossa
• Pierces the arachnoid and dura lateral to the
dorum sellae (part of the sphenoid bone)
93. • Arises between the layers of the dura on the
posterior surface of the petrous bone near its
apex
• Turns anteriorly to traverse the cavernous
sinus
94. • Enters the orbit through the superior orbital
fissure within the annular tendon to supply
the lateral rectus muscle
95. BLOOD SUPPLY
• The majority of the abducens nerves were
supplied by the anterolateral arteries , and
only some of them by the anterior inferior
cerebellar artery or the pontomedullary
artery.
96. CLINICAL ANATOMY
• Sixth nerve paralysis is one of the commonest
false localizing signs in cases with raised
intracranial pressure.
• Diplopia occurs
• Causes failure of abduction of the affected eye