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Examining the Eyes

The eye is a hollow ball, or globe, which consists of various tissues that perform specific functions. The globe, or eyeball, is composed of three layers.

Outer Layer - The outer layer of the eye is called the sclera. It is the tough, fibrous, protective portion of the globe, commonly called the white of the eye. Anteriorly, the outer layer is transparent and is called the cornea, or the window of the eye. It permits light to enter the globe. The exposed sclera is covered with a mucous membrane, the conjunctiva, which is a continuation of the inner lining of the eyelids. The lacrimal gland produces tears that constantly wash the front part of the eye and the conjunctiva. The tear gland secretions that do not evaporate flow toward the inner angle of the eye where they drain down ducts into the nose.

 

Middle Layer - The middle layer of the eye is called the choroid. It is a highly vascular, pigmented tissue that provides nourishment to the inner structures. Continuous with the choroid is the ciliary body, whose muscular structure attaches to the lens by means of suspensory ligaments and produces changes in the thickness of the lens. This permits the eye to focus to longrange or close-up vision.

The iris is continuous with the ciliary body. It is a circular, pigmented muscular structure that gives color to the eye. The opening in the iris is called the pupil. The amount of light entering the pupil is regulated through the constriction of radial/circular muscles in the iris. When strong light is flashed into the eye, the circular muscle fibers of the iris contract, reducing the size of the pupil. If the light is dim, the pupil dilates to allow as much of the light in as possible. The size and reaction of the pupils of the eyes are an important diagnostic tool.

The lens is a transparent, biconvex structure suspended directly behind the iris. It separates the interior eye into anterior and posterior cavities. The anterior cavity contains a watery solution alled aqueous humor, which helps to give the cornea its curved shape. The optic globe posterior to the lens is filled with a jellylike substance called vitreous humor, which helps to maintain the shape of the eyeball and prevents misshaping by maintaining intraocular pressure.

Inner Layer - The inner layer of the eye is called the retina. It contains different layers of nerve cells, rods, and cones that are the receptors of the sense of vision. The retina is continuous with the optic nerve, which enters the back of the globe and carries visual impulses received by the rods and cones to the brain. The area where the optic nerve enters the eyeball contains no rods and cones and is called the blind spot.

The rods respond to low intensities of light and are responsible for night vision. They are located in all areas of the retina, except in the small depression called the fovea centralis, where light entering the eye is focused, and which has the clearest vision.

The cones require higher light intensities for stimulation and are most densely concentrated in the fovea centralis. The cones are responsible for daytime vision.

Vision Process
Deflection or bending of light rays results when light passes through substances of varying densities in the eye (cornea, aqueous humor, crystalline lens, and vitreous humor). The deflection is referred to as refraction. Accommodation is the process performed by the lens that increases or decreases its curvature to refract light rays into focus on the fovea.

The constriction of the pupil by the iris regulates the amount of light entering the eye. This process protects the retina from excessive stimulation and prevents a scattering of light rays that would produce blurred vision.

A movement of the globes toward the midline, which causes a viewed object to come into focus on corresponding points of the two retinas, is called convergence. This gives clear, three dimensional vision.

The end receptors or nerve endings in the rods and cones that have been stimulated by light conduct impulses to the occipital lobes of the cerebrum, where they are interpreted into vision.


Look Up


Look Down


Look left and right


Unequal Pupils

Physical exam
Test visual acuity —Snellen chart at 20 feet is the best screening method.  

  • "Cover one eye and read the smallest line possible". 
  • Visual acuity is expressed as two number 20/30. 
  • The first number is the distance in feet from chart, the second the distance at which a normal eye can read the line of letters. 
  • Vision of 20/200 means that the patient can read print at 20 feet that a person with normal vision could read at 200 feet. 
  • You can test visual acuity with any available print.

Inspection of eyelids, conjunctiva and sclera:

  • Observe eyelids for redness, swelling, and lesion’s. 
  • Inflammation of an eyelash follicle with a lump, called a sty or hordeolum, is usually caused by staph. 
  • Check the position of the upper lid — it should cover the top part of the iris only but not the pupil. 
  • Ptosis is present when the upper eyelid droops over the pupil.
  • Check the conjunctiva and sclera for redness color or discharge. A yellow sclera indicates jaundice. 
  • Ask the patient to look up as you depress both lower lids with your thumb exposing the sclera and conjunctiva. 
  • A special exam is done if you suspect a foreign body — eversion of the upper eyelid. Ask the patient to look down, pull downward and forward on the eyelashes. Place a "Q" tip 1 cm above the lid margin and push down on the upper lid everting it. Alternatively, a bent paperclip can be used.

Pupils
Inspect the size and equality of pupils.

Test the pupillary response to light — shine light obliquely into each eye. Look for:

  1. Direct reaction (constriction of the same eye)
  2. The consensual reaction (pupillary contraction in the opposite eye).

Extra ocular Eye Muscles:
Ask patient to watch your finger as you move it in six directions (think of a capital H) Watch for Nystagmus — the involuntary rhythmic rapid movement of the eye.

Examine the interior of the eye with an ophthalmoscope.

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Normal fundoscopic view

 


This information is provided by The Brookside Associates.  The Brookside Associates, LLC. is a private organization, not affiliated with any governmental agency. The opinions presented here are those of the author and do not necessarily represent the opinions of the Brookside Associates or the Department of Defense. The presence of any advertising on these pages does not constitute an endorsement of that product or service by either the US Department of Defense or the Brookside Associates. All material presented here is unclassified.

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