Eye

Question 1

Three main pathways by which structures can enter and leave the orbit

Answer 1

Optic canal

Superior orbital fissure

Inferior orbital fissure

Question 2

Optic canal transmits

Answer 2

Optic nerve and ophthalmic artery

Question 3

Superior orbital fissure transmits

Answer 3

Oculomotor nerve (III), Trochlear nerve (IV), Abducens nerve (VI), Ophthalmic (V1) nerve. Superior ophthalmic vein

Question 4

Inferior orbital fissure transmits

Answer 4

Zygomatic branch of the maxillary V2 nerve, inferior ophthalmic vein and sympathetics

Question 5

Seven extraocular muscles

Answer 5

The levator palpebrae superioris, superior rectus, inferior rectus, medial rectus, lateral rectus, inferior oblique and superior oblique.

Question 6

Levator palpebrae superioris

Answer 6

Raising the superior eyelid. Oculomotor nerve (CN III).

The superior tarsal muscle (located within the LPS) is innervated by the sympathetic nervous system.

Question 7

Superior rectus

Answer 7

Elevation of eyeball, oculomotor nerve

Question 8

Inferior rectus

Answer 8

Depression of eyeball, oculomotor nerve

Question 9

Medial rectus

Answer 9

Medial movement (adduction), oculomotor nerve

Question 10

Lateral rectus

Answer 10

Lateral movement (abduction), abducens nerve

Question 11

Superior oblique

Answer 11

Depresses, lateral abduction, medial rotation, Trochlear nerve

Question 12

Inferior oblique

Answer 12

Elevates, medial adduction, lateral rotation, oculomotor nerve

Question 13

Lacrimal gland is

Answer 13

A compound tubuloacinar gland, comprised of lobules – which are formed by multiple acini. The acini contain serous cells and produce a watery serous secretion (lacrimal fluid).

Question 14

Lacrimation reflex

Answer 14

When something irritates the conjunctiva or cornea of the eye, the lacrimal reflex causes nerve impulses to pass along the ophthalmic branch of the fifth cranial nerve (trigeminal V1) and reach the midbrain.

The efferent limb of this reflex arc is parasympathetic facial (VII) via the pterygopalatine ganglion.

These nerve fibres stimulate the lacrimal glands of the orbit, causing the outpouring of tears.

Question 15

Blind reflex

Answer 15

The nasociliary branch of the ophthalmic branch (V1) of the trigeminal nerve (CN V) senses the stimulus on the cornea on (afferent fiber).

The temporal and zygomatic branches of the facial nerve (CN VII) initiate the motor response (efferent fiber).

The center (nucleus) is located in the pons of the brainstem.

Question 16

Fibrous layer of the eyeball consists of

Answer 16

Sclera (majority of the fibrous layer) and the cornea (refracts light entering the eye)

Question 17

Cornea histology

Answer 17

External stratified epithelial layer,

Thin anterior limiting lamina (Bowman’s membrane), which is free of fibroblasts.

Then there is a thick layer of parallel running collagen fibrils, interspersed with fibroblasts, which forms the stroma of the cornea.

The inner surface of the cornea is lined by another thin membrane, the posterior limiting lamina (Descemet’s membrane)

Layer of endothelial cells.

Question 18

The vascular layer consists of

Answer 18

The choroid, ciliary body and iris

Question 19

Choroid

Answer 19

layer of connective tissue and blood vessels. It provides nourishment to the outer layers of the retina.

Question 20

Ciliary body

Answer 20

Comprised of two parts, the ciliary muscle and ciliary processes.

Ciliary muscle - smooth muscles fibres. These are attached to the lens of the eye by the ciliary processes.

The ciliary body controls the shape of the lens, and contributes to the formation of aqueous humor

Question 21

Iris

Answer 21

Circular structure, with an aperture in the centre (the pupil).

Diameter of pupil controlled by smooth muscle fibres within the iris, which are innervated by the autonomic nervous system. It is situated between the lens and the cornea.

Question 22

Inner Layer

Answer 22

The inner layer of the eye is formed by the retina; its light detecting component.

Question 23

Retina two components

Answer 23

Pigmented outer layer

Neural inner layer

Question 24

Pigmented outer retina

Answer 24

Single layer of cells

Attached to the choroid, and supports the choroid in absorbing light (preventing scattering of light within the eyeball).

Continues around the whole inner surface of the eye.

Question 25

Neural (inner) retina

Answer 25

Consists of photoreceptors, the light detecting cells of the retina.

Question 26

Ophthalmoscopy shows

Answer 26

The centre of the retina is marked by an area known as the macula. It is yellowish in colour, and highly pigmented.

The macula contains a depression called the fovea centralis, which has a high concentration of light detecting cells.

The area that the optic nerve enters the retina is known as the optic disc – it contains no light detecting cells.

Question 27

Layers of retina, cell order

Answer 27

(inner to outer)

SCLERA

CHOROID

PIGMENTED EPITHELIUM

RECEPTOR LAYER (RODS AND CONES)

OUTER NUCLEAR LAYER

OUTER PLEXIFORM LAYER

INNER NUCLEAR LAYER

INNER PLEXIFORM LAYER

GANGLION CELL LAYER

NERVE FIBRE LAYER

Question 28

Lens

Answer 28

The lens of the eye is located anteriorly, between the vitreous humor and the pupil.

Question 29

Anterior and Posterior Chambers:

Answer 29

There are two fluid filled areas in the eye – known as the anterior and posterior chambers.

The anterior chamber is located between the cornea and the iris. and the posterior chamber between the iris and ciliary processes.

The chambers are filled with aqueous humor – a clear plasma-like fluid that nourishes and protects the eye.

Question 30

Aqueous humour drainage

Answer 30

The aqueous humor is produced constantly, and drains via the trabecular meshwork, an area of tissue at the base of the cornea, near the anterior chamber.

Schlemm’s canal is a circular lymphatic-like vessel in the eye that collects aqueous humor from the anterior chamber and delivers it into blood vessels via aqueous veins - it is covered by the trabecular meshwork.

Question 31

What happens if aqueous humour drainage is obstructed?

Answer 31

Glaucoma can result.

Question 32

Lamina cribrosa

Answer 32

Nerve fibers forming the optic nerve exit the eye posteriorly through a hole in the sclera that is occupied by a mesh-like structure called the lamina cribrosa.

Multilayered network of collagen fibers that insert into the scleral canal wall.

Question 33

Lens accommodation

Answer 33

When the ciliary muscle contracts, it pulls itself forward. This releases the tension on the lens caused by the zonular fibers.

This release of tension of the zonular fibers causes the lens to become more spherical, adapting to short range focus.

Conversely, relaxation of the ciliary muscle causes the zonular fibers to become taut, flattening the lens, increasing the focal distance, increasing long range focus.

Question 34

What do the ciliary muscles do for short range focus?

Answer 34

Contract

Question 35

What do the ciliary muscles do for long range focus

Answer 35

Relax

Question 36

Sphincter pupili role and innervation

Answer 36

Functions to constrict the pupil in bright light (pupillary light reflex) or during accommodation.

It is controlled by parasympathetic fibers of the muscarinic acetylcholine receptor (M3) that originate from the Edinger–Westphal nucleus, travel along the oculomotor nerve (CN III), synapse in the ciliary ganglion, and then enter the eye via the short ciliary nerves.

Question 37

Dilator pupili role and innervation

Answer 37

The iris dilator muscle acts to dilate the pupil.

Innervated by the sympathetic system, which acts by releasing noradrenaline, which acts on α1-receptors.

Alpha muscarinic are used to dilate the pupil

Question 38

Sphincter pupili shape

Answer 38

Circular muscles (contract and make pupil smaller)

Question 39

Dilator pupili shape

Answer 39

Radial muscles ( contract and make pupil larger)

Question 40

How does ANS affect pupil size?

Answer 40

Parasympathetic (constriction) Sympathetic (dilation)

Question 41

Arterial eyeball supply

Answer 41

The eyeball receives arterial blood primarily via the ophthalmic artery.

This is a branch of the internal carotid artery, arising immediately distal to the cavernous sinus.

Question 42

Venous drainage of eyeball

Answer 42

Venous drainage of the eyeball is carried out by the superior and inferior ophthalmic veins.

These drain into the cavernous sinus, a dural venous sinus in close proximity to the eye.

Question 43

Main fluid surrounding retina

Answer 43

Virtuous humour

Question 44

What makes optic nerve head damage and headache a common side effect of brain stem lesions

Answer 44

Papilledema