The oculomotor nerve is the third cranial nerve. It enters the orbit via the superior orbital fissure and controls most of the eye's movements, including constriction of the pupil and maintaining an open eyelid by innervating the levator palpebrae superioris muscle. The oculomotor nerve is derived from the basal plate of the embryonic midbrain. Cranial nerves IV and VI also participate in control of eye movement.

Structure[edit]

The oculomotor nerve originates from the third nerve nucleus at the level of the superior colliculus, in the midbrain. The third nerve nucleus is located lateral to the cerebral aqueduct, on the pre-aqueductal grey matter. The fibers from the two third nerve nucleus located laterally on either side of the cerebral aqueduct then pass through the red nucleus. From the red nucleus fibers then pass via substantia nigra exiting through the interpeduncular fossa. The oculomotor nerve via superior orbital fissure then innervate (terminating) to the:

1) Superior Rectus muscle (extraocular muscle)

2) Inferior Rectus muscle (extraocular muscle)

3) Medial Rectus muscle (extraocular muscle)

4) Inferior Oblique (extraocular muscle)

5) Levator palpebrae superioris (muscle to upper eye lid)

Nuclei[edit]

The oculomotor nerve (CN III) arises from the anterior aspect of mesencephalon (midbrain). There are two nuclei for the oculomotor nerve:

• The oculomotor nucleus originates at the level of the superior colliculus. The muscles it controls are the striated muscle in levator palpebrae superioris and all extraocular muscles except for the superior oblique muscle and the lateral rectus muscle.

• The Edinger-Westphal nucleus supplies parasympathetic fibers to the eye via the ciliary ganglion, and thus controls the sphincter pupillae muscle (effecting pupil constriction) and the ciliary muscle (affecting accommodation).

Sympathetic postganglionic fibres also join the nerve from the plexus on the internal carotid artery in the wall of the cavernous sinus and are distributed through the nerve, e.g., to the smooth muscle of superior tarsal (Mueller's) muscle.

Emergence from brain[edit]

On emerging from the brain, the nerve is invested with a sheath of pia mater, and enclosed in a prolongation from the arachnoid.

It passes between the superior cerebellar (below) and posterior cerebral arteries (above), and then pierces the dura mater anterior and lateral to the posterior clinoid process, passing between the free and attached borders of the tentorium cerebelli.

It runs along the lateral wall of the cavernous sinus, above the other orbital nerves, receiving in its course one or two filaments from the cavernous plexus of the sympathetic, and a communicating branch from the ophthalmic division of the trigeminal.

Superior and inferior rami[edit]

It then divides into two branches, which enter the orbit through the superior orbital fissure, between the two heads of the lateral rectus.

Here the nerve is placed below the trochlear nerve and the frontal and lacrimal branches of the ophthalmic nerve, while the nasociliary nerve is placed between its two rami:

• superior branch of oculomotor nerve
• inferior branch of oculomotor nerve

Function[edit]

The oculomotor nerve include axons of type GSE, general somatic efferent, which innervate skeletal muscle of the levator palpebrae superioris, superior rectus, medial rectus, inferior rectus, and inferior oblique muscles.

The nerve also includes axons of type GVE, general visceral efferent, which provide preganglionic parasympathetics to the ciliary ganglion.

Clinical significance[edit]

Disease[edit]

Paralysis of the oculomotor nerve, i.e., oculomotor nerve palsy, can arise due to:

• direct trauma,
• demyelinating diseases (e.g., multiple sclerosis),
• increased intracranial pressure (leading to uncal herniation)
  • due to a space-occupying lesion (e.g., brain cancer) or a
  • spontaneous subarachnoid haemorrhage (e.g., berry aneurysm), and
• microvascular disease, e.g., diabetes.

In people with diabetes and older than 50 years of age, an oculomotor nerve palsy, in the classical sense, occurs with sparing (or preservation) of the pupillary reflex. This is thought to arise due the anatomical arrangement of the nerve fibers in the oculomotor nerve; fibers controlling the pupillary function are superficial and spared from ischemic injuries typical of diabetes. On the converse, an aneurysm which leads to compression of the oculomotor nerve affects the superficial fibers and manifests as a third nerve palsy with loss of the pupillary reflex (in fact, this third nerve finding is considered to represent an aneurysm--until proven otherwise--and should be investigated).^[1]

Examination[edit]

Eye muscles[edit]

Cranial nerves III, IV, and VI are usually tested together. The examiner typically instructs the patient to hold his head still and follow only with the eyes a finger or penlight that circumscribes a large "H" in front of the patient. By observing the eye movement and eyelids, the examiner is able to obtain more information about the extraocular muscles, the levator palpebrae superioris muscle, and cranial nerves III, IV, and VI.

Since the oculomotor nerve controls most of the eye muscles, it may be easier to detect damage to it. Damage to this nerve, termed oculomotor nerve palsy is also known by the down 'n out symptoms, because of the position of the affected eye (lateral, downward deviation of gaze).

Pupillary reflex[edit]

The oculomotor nerve also controls the constriction of the pupils and thickening of the lens of the eye. This can be tested in two main ways. By moving a finger toward a person's face to induce accommodation, as well as his going cross-eyed, his pupils should constrict.

Shining a light into one eye should result in equal constriction of the other eye. The neurons in the optic nerve decussate in the optic chiasm with some crossing to the contralateral optic nerve tract. This is the basis of the "swinging-flashlight test".

Loss of accommodation and continued pupillary dilation can indicate the presence of a lesion on the oculumotor nerve.

Additional images[edit]

• Map of the oculomotor nerve

• Map of somatic portion of oculomotor nerve

• Dura mater and its processes exposed by removing part of the right half of the skull, and the brain.

• Tentorium cerebelli from above.

• Coronal section through mid-brain.

• Mesal aspect of a brain sectioned in the median sagittal plane.

• Hind- and mid-brains; postero-lateral view.

• Median sagittal section of brain.

• Dissection showing the course of the cerebrospinal fibers.

• Plan of oculomotor nerve.

• Nerves of the orbit, and the ciliary ganglion. Side view.

• Alveolar branches of superior maxillary nerve and sphenopalatine ganglion.

• Figure showing the mode of innervation of the Recti medialis and lateralis of the eye.

• Oblique section through the right cavernous sinus.

• Dissection showing origins of right ocular muscles, and nerves entering by the superior orbital fissure.

• Pathways in the Ciliary Ganglion.

• Oculomotor nerve

• Cerebrum.Inferior view.Deep dissection

See also[edit]

This article uses anatomical terminology; for an overview, see anatomical terminology.

• Cranial nerve
• Anisocoria
• Oculomotor nucleus

References[edit]

External links[edit]

• MedEd at Loyola GrossAnatomy/h_n/cn/cn1/cn3.htm
• oph/183 at eMedicine - "Oculomotor nerve palsy"
• Oculomotor Nerve at the US National Library of Medicine Medical Subject Headings (MeSH)
• NeuroNames hier-479
• Animations of extraocular cranial nerve and muscle function and damage (University of Liverpool)
• cranialnerves at The Anatomy Lesson by Wesley Norman (Georgetown University) (III)
• Notes on Oculomotor Nerve