Eye anatomy

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Anatomy of the Eye Done by: Mohammed A Qazzaz

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Eye anatomy

Transcript of Eye anatomy

Page 1: Eye anatomy

Anatomy of the Eye

Done by:

Mohammed A Qazzaz

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Gross anatomy

• The outer coat which is transparent anteriorly is called the cornea.

• The white and opaque coat is the sclera.

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•A rich vascular coat (the choroid) lines the posterior segment of the eye and nourishes the retina at its inner surface.

•The ciliary body lies anteriorly. It contains the smooth ciliary muscle whose contraction alters lens shape and enables the focus of the eye to be changed.The ciliary epithelium secretes aqueous humour and maintains theocular pressure. The ciliary body provides attachment for the iris.

•The lens lies behind the iris and is supported by fine fibrils (the zonule)running between the lens and the ciliary body.

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•The angle formed by the iris and cornea (the iridocorneal angle) is lined by a meshwork of cells and collagen beams (the trabecular meshwork). In the sclera outside this, Schlemm’s canal conducts the aqueous humour from the anterior chamber into the venous system, permitting aqueous drainage. This region is termed the drainage angle.

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Between the cornea anteriorly and the lens and iris posteriorly lies the anterior chamber. Between the iris, the lens and the ciliary body lies the posterior chamber (which is distinct from the vitreous body). Both these chambers are filled with aqueous humour. Between the lens and the retina lies the vitreous body.

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The OrbitThe eye lies within the bony orbit whose has the shape of a four-sided pyramid. At its posterior apex is the optic canal which transmits the optic nerve to the brain. The superior and inferior orbital fissures allow the passage of blood vessels and cranial nerves which supply orbital structures. On the anterior medial wall lies a fossa for the lacrimal sac. The lacrimal gland lies anteriorly in the superolateral aspect of the orbit.

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•provide mechanical protection to the anterior globe.

•secrete the oily part of the tear film.

•spread the tear film over the conjunctiva and cornea.

•prevent drying of the eyes.

•contain the puncta through which the tears drain into the lacrimal drainage system.

The eyelids:

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They comprise:

•A surface layer of skin.

•The orbicularis muscle.

•A tough collagenous layer (the tarsal plate).

•An epithelial lining, the conjunctiva, reflected onto the globe.

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The levator muscle passes forwards to the upper lid and inserts into the tarsal plate. It is innervated by the third nerve. Damage to the nerve or changes in old age result in drooping of the eyelid (ptosis). A flat smooth muscle arising from the deep surface of the levator inserts into the tarsal plate. It is innervated by the sympathetic nervous system.

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If the sympathetic supply is damaged (as in Horner’s syndrome) a slight ptosis results.The margin of the eyelid is the site of the mucocutaneous junction. It contains the openings of the meibomian oil glands which are located in the tarsal plate. These secrete the lipid component of the tear film. Medially, on the upper and lower lids, two small puncta form the initial part of thelacrimal drainage system.

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Horner’s syndrome

3rd nerve Pulsy

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THE LACRIMAL DRAINAGE SYSTEM

Tears drain into the upper and lower puncta and then into the lacrimal sac via the upper and lower canaliculi. They form a common canaliculus before entering the lacrimal sac. The nasolacrimal duct passes from the sac to thenose. Failure of the distal part of the nasolacrimal duct to fully canalize at birth is the usual cause of a watering, sticky eye in a baby.Tear drainage is an active process. Each blink of the lids helps to pump tears through thesystem.

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Lacrimal duct obstruction

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The tear film (10iμm thick) covers the external ocular surface andcomprises three layers:• a thin mucin layer in contact with the

ocular surface and produced mainly by the conjunctival goblet cells;

• an aqueous layer produced by the lacrimal gland;

• a surface oil layer produced by the tarsal meibomian glands and delivered to the lid margins.

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The functions of the tear film are as follows:

• it provides a smooth air/tear interface for distortion free refraction of light at the cornea

• it provides oxygen anteriorly to the avascular cornea

• it removes debris and foreign particles from the ocular surface through the flow of tears

• it has antibacterial properties through the action of lysozyme, lactoferrin and the immunoglobulins, particularly secretory IgA.

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The cornea is 0.5 mm thick and comprises:

• The epithelium, an anterior squamous layer thickened peripherally at the limbus where it is continuous with the conjunctiva.The limbus houses its germinative—or stem—cells.

• An underlying stroma of collagen fibrils, ground substance and fibroblasts. The regular packing and small diameter of the collagen fibrils accounts for corneal transparency.

• The endothelium, a monolayer of non-regenerating cells which actively pumps ions and water from the stroma to control corneal hydration and transparency.

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The difference between the regenerative capacity of the epithelium and endothelium is important. Damage to the epithelial layer, by an abrasion for example, is rapidly repaired. Endothelium, damaged by diseaseor surgery, cannot be regenerated. Loss of its barrier and pumping functions leads to overhydration, distortion of the regular packing of collagen fibres and corneal clouding.The functions of the cornea are as follows:• it refracts light and together with

the lens, focuses light onto the retina;

• it protects the internal ocular structures.

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The sclera:• is formed from interwoven

collagen fibrils of different widths lying within a ground substance and maintained by fibroblasts.

• is of variable thickness, 1imm around the optic nerve head and 0.3imm just posterior to the muscle insertions.

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The choroid:

• is formed of arterioles, venules and a dense fenestrated capillary network.

• is loosely attached to the sclera.• has a high blood flow.• nourishes the deep, outer layers of the

retina and may have a role in its temperature homeostasis.

• Its basement membrane together with that of the retinal pigment epithelium (RPE) forms the acellular, Bruch’s membrane, which acts as a diffusion barrier between the choroid and the retina.

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The retinal pigment epithelium

The retinal pigment epithelium (RPE):

• is formed from a single layer of cells.

• is loosely attached to the retina except at the periphery (ora serrata) and around the optic disc.

• forms microvilli which project between and embrace the outersegment discs of the rods and cones.

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• phagocytoses the redundant external segments of the rods and cones.

• facilitates the passage of nutrients and metabolites between the retina and choroid.

• takes part in the regeneration of rhodopsin and cone opsin, the photoreceptor visual pigments recycling vitamin A.

• melanin granules absorb scattered light.

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The retina:

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Rods are responsible for night vision.They are sensitive to light and donot signal wavelength information (colour). They form the large majorityof photoreceptors in the remaining retina.

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The ciliary bodyThis is subdivided into three parts:

the ciliary muscle.

the ciliary processes (pars plicata.

the pars plana.

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THE CILIARY MUSCLEThis:

Comprises smooth muscle arranged in a ring overlying the ciliary processes.

Is innervated by the parasympathetic system via the third cranial nerve.

Is responsible for changes in lens thickness and curvature during accommodation. The zonular fibres supporting the lens are under tension during distant viewing. Contraction of the muscle relaxes them and permits the lens to increase its curvature and hence its refractive power.

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THE CILIARY PROCESSES (PARS PLICATA)

There are about 70 radial ciliary processes arranged in a ring around the posterior chamber.They are responsible for the secretion of aqueous humour.

Each ciliary process is formed by an epithelium two layers thick (the outer pigmented and inner non-pigmented) with a vascular stroma.

The stromal capillaries are fenestrated, allowing plasma constituentsready access.

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•The tight junctions between the non-pigmented epithelial cells provide a barrier to free diffusion into the posterior chamber.They are essential for the active secretion of aqueous by the non pigmental cells.

•The epithelial cells show marked infolding, which significantly increasestheir surface area for fluid and solute transport.

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THE PARS PLANA:

This comprises a relatively avascular stroma covered by an epithelial layer two cells thick.

It is safe to make surgical incisions through the scleral wall here to gain access to the vitreous cavity.

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The iris:

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In the orbit the optic nerve is surrounded by a sheath formed by the dura, arachnoid and pia mater continuous with that surrounding the brain.It is bathed in cerebrospinal fluid.

The central retinal artery and vein enter the eye in the centre of the optic nerve.

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• Extraocular Muscles

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• All of the extraocular muscles, with the exception of the inferior oblique, form a “cone” within the bony orbit

• The apex of the cone is in the posterior aspect (back) of the orbit, while the base of the cone is the attachment of the muscles around the midline of the eye. This conic structure is referred to as the “annulus of Zinn,” and within this cone runs the Optic nerve (cranial nerve II)

• Within the optic nerve are the ophthalmic artery and the ophthalmic vein

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• The superior oblique muscle is different from the others, because before it attaches to the eye, it passes through a ring-like tendon, the trochlea, which acts like a pulley in the nasal portion of the orbit

• The inferior oblique muscle (not a member of the annulus of Zinn) arises from the lacrimal fossa in the nasal portion of the bony orbit and attaches to the inferior portion of the eye

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• The primary muscle that moves an eye in a given direction is known as the agonist

• A muscle in the same eye that moves the eye in the same direction as the agonist is known as a synergist

• A muscle in the same eye that moves the eye in the opposite direction of the agonist is the antagonist

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• Cardinal positions of gaze• Up/right• Up/left• Right• Left• Down/right• Down/left

• In each position of gaze, one muscle of each eye is the primary mover of that eye, and is “yoked” to the primary mover of the other eye

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• A “vergence” or “disconjugate” movement involves simultaneous movement of both eyes in the opposite directions

• There are two principal vergence movements• Convergence – both eyes moving nasally or

inward• Divergence – both eyes moving temporally or

upward

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Extra ocular muscles examination:

Right eyeThe nose

SR

SO

IO

IR

MRLR

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