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Eye Anatomy

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Eye Anatomy

Human Eye revealing the Cornea and Blue Iris

Image by TheVisualMD

Eye Anatomy

Eye Anatomy

Image by Openstax

Anatomy of the Eye

The photoreceptive cells of the eye, where transduction of light to nervous impulses occurs, are located in the retina (shown in Figure) on the inner surface of the back of the eye. But light does not impinge on the retina unaltered. It passes through other layers that process it so that it can be interpreted by the retina (Figure b). The cornea, the front transparent layer of the eye, and the crystalline lens, a transparent convex structure behind the cornea, both refract (bend) light to focus the image on the retina. The iris, which is conspicuous as the colored part of the eye, is a circular muscular ring lying between the lens and cornea that regulates the amount of light entering the eye. In conditions of high ambient light, the iris contracts, reducing the size of the pupil at its center. In conditions of low light, the iris relaxes and the pupil enlarges.

(a) The human eye is shown in cross section. (b) A blowup shows the layers of the retina.

The main function of the lens is to focus light on the retina and fovea centralis. The lens is dynamic, focusing and re-focusing light as the eye rests on near and far objects in the visual field. The lens is operated by muscles that stretch it flat or allow it to thicken, changing the focal length of light coming through it to focus it sharply on the retina. With age comes the loss of the flexibility of the lens, and a form of farsightedness called presbyopia results. Presbyopia occurs because the image focuses behind the retina. Presbyopia is a deficit similar to a different type of farsightedness called hyperopia caused by an eyeball that is too short. For both defects, images in the distance are clear but images nearby are blurry. Myopia (nearsightedness) occurs when an eyeball is elongated and the image focus falls in front of the retina. In this case, images in the distance are blurry but images nearby are clear.

There are two types of photoreceptors in the retina: rods and cones, named for their general appearance as illustrated in Figure. Rods are strongly photosensitive and are located in the outer edges of the retina. They detect dim light and are used primarily for peripheral and nighttime vision. Cones are weakly photosensitive and are located near the center of the retina. They respond to bright light, and their primary role is in daytime, color vision.

Rods and cones are photoreceptors in the retina. Rods respond in low light and can detect only shades of gray. Cones respond in intense light and are responsible for color vision. (credit: modification of work by Piotr Sliwa)

The fovea is the region in the center back of the eye that is responsible for acute vision. The fovea has a high density of cones. When you bring your gaze to an object to examine it intently in bright light, the eyes orient so that the object's image falls on the fovea. However, when looking at a star in the night sky or other object in dim light, the object can be better viewed by the peripheral vision because it is the rods at the edges of the retina, rather than the cones at the center, that operate better in low light. In humans, cones far outnumber rods in the fovea.

Source: CNX OpenStax

Additional Materials (17)

Human Eye revealing the Cornea and Blue Iris

Human Eye revealing the Cornea and Blue Iris

Image by TheVisualMD

Eye Anatomy and Function - Made Easy

Video by Medinaz/YouTube

Low Vision Animation

Video by Blausen Medical Corporate/YouTube

Aqueous Humor

Video by glaucomaeyeinfo/YouTube

Eyeball | Blood Supply

Video by AnatomyZone/YouTube

Cornea transplant

Video by SydwestEyes/YouTube

Introduction to the Eye and Aqueous Humor

Video by Augmented Reality in Education/YouTube

The Visual System: How Your Eyes Work

Video by National Eye Institute, NIH/YouTube

Eyeball Anatomy

Video by AnatomyZone/YouTube

Eye Anatomy Chapter 3 : The Conjunctiva 2

Video by Evidence Based Medical Educator Inc./YouTube

Eye Anatomy Chapter 2 : The Conjunctiva 1

Video by Evidence Based Medical Educator Inc./YouTube

Extraocular Muscles | Eye Anatomy

Video by AnatomyZone/YouTube

Eye Anatomy And Physiology - Pupil, Iris, Retina, Cornea, Sclera, & Lens

Video by Animated Anatomy/YouTube

Special Senses | Eye Anatomy

Video by Ninja Nerd/YouTube

Eye Anatomy Chapter 8 : The Lacrimal Gland

Video by Evidence Based Medical Educator Inc./YouTube

Anatomy - Eye Overview

Video by Armando Hasudungan/YouTube

Anatomy of the Orbit and Extraocular Muscles (including movement of the eyes) | Eye Anatomy

Video by Geeky Medics/YouTube

Human Eye revealing the Cornea and Blue Iris

TheVisualMD

7:20

Eye Anatomy and Function - Made Easy

Medinaz/YouTube

0:32

Low Vision Animation

Blausen Medical Corporate/YouTube

0:22

Aqueous Humor

glaucomaeyeinfo/YouTube

3:24

Eyeball | Blood Supply

AnatomyZone/YouTube

2:01

Cornea transplant

SydwestEyes/YouTube

9:32

Introduction to the Eye and Aqueous Humor

Augmented Reality in Education/YouTube

2:20

The Visual System: How Your Eyes Work

National Eye Institute, NIH/YouTube

9:55

Eyeball Anatomy

AnatomyZone/YouTube

0:53

Eye Anatomy Chapter 3 : The Conjunctiva 2

Evidence Based Medical Educator Inc./YouTube

1:06

Eye Anatomy Chapter 2 : The Conjunctiva 1

Evidence Based Medical Educator Inc./YouTube

10:14

Extraocular Muscles | Eye Anatomy

AnatomyZone/YouTube

6:30

Eye Anatomy And Physiology - Pupil, Iris, Retina, Cornea, Sclera, & Lens

Animated Anatomy/YouTube

45:46

Special Senses | Eye Anatomy

Ninja Nerd/YouTube

1:01

Eye Anatomy Chapter 8 : The Lacrimal Gland

Evidence Based Medical Educator Inc./YouTube

11:25

Anatomy - Eye Overview

Armando Hasudungan/YouTube

13:27

Anatomy of the Orbit and Extraocular Muscles (including movement of the eyes) | Eye Anatomy

Geeky Medics/YouTube

Parts of the Eye

Eye Anatomy - Anatomy of the eye, showing the outside and inside of the eye including the eyelid, pupil, sclera, iris, cornea, lens, ciliary body, retina, choroid, vitreous humor, and optic nerve.

Image by © 2007 Terese Winslow, U.S. Govt. has certain rights

Parts of the Eye

Why should I learn about the eye? If you know the parts of the eye, you will better understand how the eye works and how diseases and conditions can affect your vision.

Additional Materials (5)

Parts of the Eye

National Eye Institute / NIH

6:30

Eye Anatomy And Physiology - Pupil, Iris, Retina, Cornea, Sclera, & Lens

Animated Anatomy/YouTube

11:25

Anatomy - Eye Overview

Armando Hasudungan/YouTube

1:01

Eye Anatomy Chapter 8 : The Lacrimal Gland

Evidence Based Medical Educator Inc./YouTube

9:55

Eyeball Anatomy

AnatomyZone/YouTube

Optic Nerve

Left Hemisphere of the brain and Optic Nerve/tract

Image by TheVisualMD

Optic Nerve

Optic nerve: The optic nerve is the largest sensory nerve of the eye. It carries impulses for sight from the retina to the brain.

Source: National Eye Institute (NEI)

Additional Materials (6)

Macula of Retina

Eric Wiessner

Optic Nerve

Esteve.olm

Sensitive content

This media may include sensitive content

Muscle and Nerve of Human Eye

TheVisualMD

Cerebrovascular System, Base of the Brain and Cranial Nerve

TheVisualMD

3D Visualization of Brain Eyes and Optic Nerve

TheVisualMD

Optic Nerve Versus Optic Tract

CNX Openstax

Visual System Anatomy

Depiction of how visual information has sidedness in the brain.

Image by Cenveo

Anatomy of the Visual System

The eye is the major sensory organ involved in vision (Figure 1). Light waves are transmitted across the cornea and enter the eye through the pupil. The cornea is the transparent covering over the eye. It serves as a barrier between the inner eye and the outside world, and it is involved in focusing light waves that enter the eye. The pupil is the small opening in the eye through which light passes, and the size of the pupil can change as a function of light levels as well as emotional arousal. When light levels are low, the pupil will become dilated, or expanded, to allow more light to enter the eye. When light levels are high, the pupil will constrict, or become smaller, to reduce the amount of light that enters the eye. The pupil’s size is controlled by muscles that are connected to the iris, which is the colored portion of the eye.

Figure 1. The anatomy of the eye is illustrated in this diagram.

After passing through the pupil, light crosses the lens, a curved, transparent structure that serves to provide additional focus. The lens is attached to muscles that can change its shape to aid in focusing light that is reflected from near or far objects. In a normal-sighted individual, the lens will focus images perfectly on a small indentation in the back of the eye known as the fovea, which is part of the retina, the light-sensitive lining of the eye. The fovea contains densely packed specialized photoreceptor cells (Figure 2). These photoreceptor cells, known as cones, are light-detecting cells. The cones are specialized types of photoreceptors that work best in bright light conditions. Cones are very sensitive to acute detail and provide tremendous spatial resolution. They also are directly involved in our ability to perceive color.

While cones are concentrated in the fovea, where images tend to be focused, rods, another type of photoreceptor, are located throughout the remainder of the retina. Rods are specialized photoreceptors that work well in low light conditions, and while they lack the spatial resolution and color function of the cones, they are involved in our vision in dimly lit environments as well as in our perception of movement on the periphery of our visual field.

Figure 2. The two types of photoreceptors are shown in this image. Cones are colored green and rods are blue.

We have all experienced the different sensitivities of rods and cones when making the transition from a brightly lit environment to a dimly lit environment. Imagine going to see a blockbuster movie on a clear summer day. As you walk from the brightly lit lobby into the dark theater, you notice that you immediately have difficulty seeing much of anything. After a few minutes, you begin to adjust to the darkness and can see the interior of the theater. In the bright environment, your vision was dominated primarily by cone activity. As you move to the dark environment, rod activity dominates, but there is a delay in transitioning between the phases. If your rods do not transform light into nerve impulses as easily and efficiently as they should, you will have difficulty seeing in dim light, a condition known as night blindness.

Rods and cones are connected (via several interneurons) to retinal ganglion cells. Axons from the retinal ganglion cells converge and exit through the back of the eye to form the optic nerve. The optic nerve carries visual information from the retina to the brain. There is a point in the visual field called the blind spot: Even when light from a small object is focused on the blind spot, we do not see it. We are not consciously aware of our blind spots for two reasons: First, each eye gets a slightly different view of the visual field; therefore, the blind spots do not overlap. Second, our visual system fills in the blind spot so that although we cannot respond to visual information that occurs in that portion of the visual field, we are also not aware that information is missing.

Source: CNX OpenStax

Additional Materials (6)

Partially Sectioned Human Eye Exposing front and back of the eye including the Retina

Three-dimensional visualization reconstructed from human data. Anteriolateral view of a partially sectioned eye, as well as associated eye muscles. As well as being protected by the bony orbital cavity of the skull, the eyeball is anchored in place by several thin strap muscles that attach to virtually every one of its sides except the front. These muscles tug in concert, allowing the eye to move in any direction to track objects. The clear cornea covers and protects the front exterior of the eye while the colored iris dilates and constricts to insure the proper amount of light is striking the back of the eye. The lens contorts to focus the incoming light back to the retina, which covers roughly the entire back half of the eye. Special cells embedded within the retina are responsible for the sensation of light: the cones, for color perception, and rods, for black and white perception. Electrical nerve impulses are channeled into the optic nerve at the back of the eye to the visual cortex in the brain.

Image by TheVisualMD

Human Eye with Visible Retina, cilia, lens, Uvea, optic nerve, sclera, cornea

3D visualization of the of anteriolateral view of a sectioned eye. The retina, the layer of tissue on the inner wall of the eye, contains specialized cells called rods and cones that are responsible for the sensation of light. The dilation and constriction of the iris and the focusing of the lens guide light into the eye and on to the rods and cones which respond by sending electrical nerve impulses through the optic nerves to the brain.

Image by TheVisualMD

Anatomy - Eye Overview

Video by Armando Hasudungan/YouTube

The Visual System: How Your Eyes Work

Video by National Eye Institute, NIH/YouTube

Sensitive content

This media may include sensitive content

Muscle and Nerve of Human Eye

3D visualization of the nerves associated with the human eye. Several different nerve types serve the special functions of the structures associated with sight. The optic nerves are paired bundles of fibers that send visual signals from the retina to the brain. The oculomotor, trochlear and abducent nerves control voluntary movements of the eye muscles and eyelids in addition to controlling pupil dilation and lens focusing.

Image by TheVisualMD

Muscle of Human Eye

This 3D image of the eye musculature is based on reconstructed segmented human data. The levator palpebrae superioris, superior rectus, lateral rectus, inferior rectus, and inferior oblique muscles are all depicted. These muscles allow the eyes to turn in direction in a variety of directions.

Image by TheVisualMD

Partially Sectioned Human Eye Exposing front and back of the eye including the Retina

TheVisualMD

Human Eye with Visible Retina, cilia, lens, Uvea, optic nerve, sclera, cornea

TheVisualMD

11:25

Anatomy - Eye Overview

Armando Hasudungan/YouTube

2:20

The Visual System: How Your Eyes Work

National Eye Institute, NIH/YouTube

Sensitive content

This media may include sensitive content

Muscle and Nerve of Human Eye

TheVisualMD

Muscle of Human Eye

TheVisualMD

Microbiota of the Eye

Sclera (White of the Eye)

Image by agnesliinnea

Anatomy and Microbiota of the Eye

Although the eye and skin have distinct anatomy, they are both in direct contact with the external environment. An important component of the eye is the nasolacrimal drainage system, which serves as a conduit for the fluid of the eye, called tears. Tears flow from the external eye to the nasal cavity by the lacrimal apparatus, which is composed of the structures involved in tear production. The lacrimal gland, above the eye, secretes tears to keep the eye moist. There are two small openings, one on the inside edge of the upper eyelid and one on the inside edge of the lower eyelid, near the nose. Each of these openings is called a lacrimal punctum. Together, these lacrimal puncta collect tears from the eye that are then conveyed through lacrimal ducts to a reservoir for tears called the lacrimal sac, also known as the dacrocyst or tear sac.

From the sac, tear fluid flows via a nasolacrimal duct to the inner nose. Each nasolacrimal duct is located underneath the skin and passes through the bones of the face into the nose. Chemicals in tears, such as defensins, lactoferrin, and lysozyme, help to prevent colonization by pathogens. In addition, mucins facilitate removal of microbes from the surface of the eye.

The lacrimal apparatus includes the structures of the eye associated with tear production and drainage. (credit: modification of work by “Evidence Based Medical Educator Inc.”/YouTube)

The surfaces of the eyeball and inner eyelid are mucous membranes called conjunctiva. The normal conjunctival microbiota has not been well characterized, but does exist. One small study (part of the Ocular Microbiome project) found twelve genera that were consistently present in the conjunctiva. These microbes are thought to help defend the membranes against pathogens. However, it is still unclear which microbes may be transient and which may form a stable microbiota.

Use of contact lenses can cause changes in the normal microbiota of the conjunctiva by introducing another surface into the natural anatomy of the eye. Research is currently underway to better understand how contact lenses may impact the normal microbiota and contribute to eye disease.

The watery material inside of the eyeball is called the vitreous humor. Unlike the conjunctiva, it is protected from contact with the environment and is almost always sterile, with no normal microbiota.

Some microbes live on the conjunctiva of the human eye, but the vitreous humor is sterile.

Source: CNX OpenStax

Additional Materials (7)

Illustration of a person cleaning their eyelid with a washcloth

NIH News in Health

Anatomical features of the tissues surrounding the eye (a) and lacrimal system (b)

Cenveo

46:04

RHR: The Ocular Microbiome, with Dr. Harvey Fishman

Chris Kresser, L.Ac/YouTube

1:06

Eye Anatomy Chapter 2 : The Conjunctiva 1

Evidence Based Medical Educator Inc./YouTube

0:53

Eye Anatomy Chapter 3 : The Conjunctiva 2

Evidence Based Medical Educator Inc./YouTube

6:20

The Human Eye

7activestudio/YouTube

2:54

Pterygium, carnosidad, conjunctival autograft, conjunctiva - A State of Sight #10

eyePorter/YouTube

How the Eyes Work

Diagram showing the different parts of the eye

Image by National Eye Institute (NEI)

How the Eyes Work

All the different parts of your eyes work together to help you see.

First, light passes through the cornea (the clear front layer of the eye). The cornea is shaped like a dome and bends light to help the eye focus.

Some of this light enters the eye through an opening called the pupil (PYOO-pul). The iris (the colored part of the eye) controls how much light the pupil lets in.

Next, light passes through the lens (a clear inner part of the eye). The lens works together with the cornea to focus light correctly on the retina.

When light hits the retina (a light-sensitive layer of tissue at the back of the eye), special cells called photoreceptors turn the light into electrical signals.

These electrical signals travel from the retina through the optic nerve to the brain. Then the brain turns the signals into the images you see.

Your eyes also need tears to work correctly.

Source: National Eye Institute (NEI)

Additional Materials (15)

Eye Anatomy

The cornea and lens of the eye act together to form a real image on the light-sensing retina, which has its densest concentration of receptors in the fovea and a blind spot over the optic nerve. The radius of curvature of the lens of an eye is adjustable to form an image on the retina for different object distances. Layers of tissues with varying indices of refraction in the lens are shown here. However, they have been omitted from other pictures for clarity.

Image by Openstax

Human Eye

Detailed Illustration of the Anatomy of the Human Eye

Image by A Hoofring ncbi/nlm/nih

Close-Up of an Eye

Image by Pexels/Pixabay

Eye Anatomy and Function - Made Easy

Video by Medinaz/YouTube

Anatomy of the Orbit and Extraocular Muscles (including movement of the eyes) | Eye Anatomy

Video by Geeky Medics/YouTube

Eye Anatomy Chapter 8 : The Lacrimal Gland

Video by Evidence Based Medical Educator Inc./YouTube

Eye Anatomy And Physiology - Pupil, Iris, Retina, Cornea, Sclera, & Lens

Video by Animated Anatomy/YouTube

Anatomy - Eye Overview

Video by Armando Hasudungan/YouTube

Eye Anatomy Chapter 2 : The Conjunctiva 1

Video by Evidence Based Medical Educator Inc./YouTube

Eye Anatomy Chapter 3 : The Conjunctiva 2

Video by Evidence Based Medical Educator Inc./YouTube

Special Senses | Eye Anatomy

Video by Ninja Nerd/YouTube

Introduction to the Eye and Aqueous Humor

Video by Augmented Reality in Education/YouTube

The Visual System: How Your Eyes Work

Video by National Eye Institute, NIH/YouTube

Eyeball Anatomy

Video by AnatomyZone/YouTube

Eye Anatomy Handout

To understand eye problems, it is helpful to know the different parts of the eye.

Document by National Eye Institute

Eye Anatomy

Openstax

Human Eye

A Hoofring ncbi/nlm/nih

Close-Up of an Eye

Pexels/Pixabay

7:20

Eye Anatomy and Function - Made Easy

Medinaz/YouTube

13:27

Anatomy of the Orbit and Extraocular Muscles (including movement of the eyes) | Eye Anatomy

Geeky Medics/YouTube

1:01

Eye Anatomy Chapter 8 : The Lacrimal Gland

Evidence Based Medical Educator Inc./YouTube

6:30

Eye Anatomy And Physiology - Pupil, Iris, Retina, Cornea, Sclera, & Lens

Animated Anatomy/YouTube

11:25

Anatomy - Eye Overview

Armando Hasudungan/YouTube

1:06

Eye Anatomy Chapter 2 : The Conjunctiva 1

Evidence Based Medical Educator Inc./YouTube

0:53

Eye Anatomy Chapter 3 : The Conjunctiva 2

Evidence Based Medical Educator Inc./YouTube

45:46

Special Senses | Eye Anatomy

Ninja Nerd/YouTube

9:32

Introduction to the Eye and Aqueous Humor

Augmented Reality in Education/YouTube

2:20

The Visual System: How Your Eyes Work

National Eye Institute, NIH/YouTube

9:55

Eyeball Anatomy

AnatomyZone/YouTube

Eye Anatomy Handout

National Eye Institute

Vison Health

Visual Test

Image by Paul Diaconu

Keep an Eye on Your Vision Health

Going to the doctor, going to the dentist—all part of taking care of your health. But going to the eye doctor? Also important! Eye exams at every age and life stage can help keep your vision strong.

Many people think their eyesight is just fine, but then they get that first pair of glasses or contact lenses and the world comes into clearer view—everything from fine print to street signs.

Improving your eyesight is important—about 11 million Americans over age 12 need vision correction—but it’s just one of the reasons to get your eyes examined. Regular eye exams are also an important part of finding eye diseases early and preserving your vision.

Only Your Eye Doctor Knows for Sure

Eye diseases are common and can go unnoticed for a long time—some have no symptoms at first. A comprehensive dilated eye exam by an optometrist or ophthalmologist (eye doctor) is necessary to find eye diseases in the early stages when treatment to prevent vision loss is most effective.

During the exam, visual acuity (sharpness), depth perception, eye alignment, and eye movement are tested. Eye drops are used to make your pupils larger so your eye doctor can see inside your eyes and check for signs of health problems. Your eye doctor may even spot other conditions such as high blood pressure or diabetes, sometimes before your primary care doctor does.

Vision Care Can Change Lives

Early treatment is critically important to prevent some common eye diseases from causing permanent vision loss or blindness:

Cataracts (clouding of the lens), the leading cause of vision loss in the United States
Diabetic retinopathy (causes damage to blood vessels in the back of the eye), the leading cause of blindness in American adults
Glaucoma (a group of diseases that damages the optic nerve)
Age-related macular degeneration (gradual breakdown of light-sensitive tissue in the eye)

Of the estimated 93 million US adults at high risk for vision loss, only half visited an eye doctor in the past 12 months. Regular eye care can have a life-changing impact on preserving the vision of millions of people.

Start Early

Though people tend to have more vision problems as they get older, children need eye exams to ensure healthy vision, too. But only 39% of preschool children have had their vision tested, which is needed to diagnose eye diseases.

Amblyopia (reduced vision because the eye and brain aren’t working together properly) is the most common cause of vision loss in children—2 to 3 out of 100 children. Amblyopia needs to be treated promptly to help avoid vision loss.

Eye Exams: How Often?

Children’s eyes should be checked regularly by an eye doctor or pediatrician. The US Preventive Services Task Force recommends vision screening for all children at least once between age 3 and 5 years to detect amblyopia or risk factors for the disease.
People with diabetes should have a dilated eye exam every year.
Some people are at higher risk for glaucoma and should have a dilated eye exam every 2 years:
- African Americans 40 years and older
- All adults older than 60, especially Mexican Americans
- People with a family history of glaucoma

Other Reasons to See Your Eye Doctor

If you have any of the following eye problems, don’t wait for your next appointment—visit your eye doctor as soon as possible:

Decreased vision
Draining or redness of the eye
Eye pain
Double vision
Floaters (tiny specks that appear to float before your eyes)
Circles (halos) around lights
Flashes of light

Diabetes and Your Eyes

Diabetic retinopathy is a common complication of diabetes. High blood sugar damages the blood vessels in the retina (a light-sensitive part of the eye), where scarring can cause permanent vision loss.

Diabetic retinopathy is also one of the most preventable causes of vision loss and blindness. Early detection and treatment can prevent or delay blindness due to diabetic retinopathy in 90% of people with diabetes, but 50% or more of them don’t get their eyes examined or are diagnosed too late for effective treatment.

People with diabetes are also at higher risk for other eye diseases, including glaucoma and cataracts. If you have diabetes, an eye exam every year is necessary to protect and preserve your eyesight and eye health.

Looking Ahead

Due to our aging population, the number of blind and visually impaired people in the United States is estimated to double by 2030 and triple by 2050. Encouraging people to take care of their vision health as part of their overall health and wellness could significantly reduce that number and improve quality of life for millions of Americans.

Source: Centers for Disease Control and Prevention (CDC)

Additional Materials (11)

Eye Care

newarta/Pixabay

Get a dilated eye exam

National Eye Institute (NEI)

Doctors use a slit-lamp exam to look for eye defects.

National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)

Eye Injury Prevention Month - Sunglasses

NIH Image Gallery from Bethesda, Maryland, USA/Wikimedia

0:43

Healthy Vision Tip: Get a Dilated Eye Exam

National Eye Institute, NIH/YouTube

1:57

Eye Care & Vision Problems : What Causes Eye Twitching?

ehowhealth/YouTube

15:09

How Women’s Eye Health is Different From Men | Eye Doctor Explains

Eye School with Dr. D/YouTube

1:40

Children's Eye Care | Retinoblastoma, Micro and Anophthalmia Burlington NC

Carolina Eye Prosthetics/YouTube

4:28

Eye Care Tips

SingHealth/YouTube

2:19

Comprehensive Dilated Eye Exam

National Eye Institute, NIH/YouTube

3:24

Animation: Dilated Eye Exam

National Eye Institute, NIH/YouTube

Dilated Eye Exam

Dilated Eye Exam

Also called: Comprehensive Dilated Eye Exam, Dilated Fundus Exam

A dilated eye exam is the best thing you can do for your eye health. It’s the only way to check for eye diseases early on, when they’re easier to treat — and before they cause vision loss. Learn what happens during and after a dilated eye exam and how often you need one.

Dilated Eye Exam

Also called: Comprehensive Dilated Eye Exam, Dilated Fundus Exam

A dilated eye exam is the best thing you can do for your eye health. It’s the only way to check for eye diseases early on, when they’re easier to treat — and before they cause vision loss. Learn what happens during and after a dilated eye exam and how often you need one.

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Use the slider below to see how your results affect your health.
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US: 20/25 to 20/12 (Metric: 6/7.5 to 6/4)
Visual acuity is expressed as a decimal or a fraction. 1 = US 20/20 or metric 6/6 is considered optimal vision.
The top number refers to the distance you stand from the chart. This is often 20 feet (6 meters).
The bottom number indicates the distance at which a person with normal eyesight could read the same line you correctly read.
Related conditions
{"label":"Visual field reference range","scale":"lin","step":0.25,"hideunits":true,"items":[{"flag":"normal","label":{"short":"Normal","long":"Normal","orientation":"horizontal"},"values":{"min":0,"max":1},"text":"The peripheral vision is normal.","conditions":[]},{"flag":"abnormal","label":{"short":"Abnormal","long":"Abnormal","orientation":"horizontal"},"values":{"min":1,"max":2},"text":"Abnormal results may be due to diseases or central nervous system (CNS) disorders, such as tumors that damage or press on (compress) the parts of the brain that deal with vision.","conditions":["Diabetes","Glaucoma","High blood pressure","Macular degeneration","Multiple sclerosis","Optic glioma","Overactive thyroid","Pituitary gland disorders","Retinal detachment","Stroke","Temporal arteritis"]}],"value":0.5,"disclaimer":"Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are \"within normal limits.\""}[{"normal":0},{"abnormal":0}]
Use the slider below to see how your results affect your health.
Your result is Normal.
The peripheral vision is normal.
Related conditions
{"label":"Eye muscle function reference range","scale":"lin","step":0.25,"hideunits":true,"items":[{"flag":"normal","label":{"short":"Normal","long":"Normal","orientation":"horizontal"},"values":{"min":0,"max":1},"text":"A normal result indicates normal movement of the eyes in all directions.","conditions":[]},{"flag":"abnormal","label":{"short":"Abnormal","long":"Abnormal","orientation":"horizontal"},"values":{"min":1,"max":2},"text":"An abnormal result reveals restricted or abnormal eye movement, such as shaking of the eyes, misalignment, saccadic dysfunction (overshooting or undershooting of the eye movements), mechanical restrictions, or double vision.","conditions":["Amblyopia","Diplopia","Duane retraction syndrome","Eye injury","Nystagmus","Strabismus","Myasthenia gravis","Thyroid eye disease"]}],"value":0.5,"disclaimer":"Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are \"within normal limits.\""}[{"normal":0},{"abnormal":0}]
Use the slider below to see how your results affect your health.
Your result is Normal.
A normal result indicates normal movement of the eyes in all directions.
Related conditions
{"label":"Pupil dilation reference range","scale":"lin","step":0.25,"hideunits":true,"items":[{"flag":"normal","label":{"short":"Normal","long":"Normal","orientation":"horizontal"},"values":{"min":0,"max":1},"text":"A normal result means the status of your optic nerve and retina is in good shape.","conditions":[]},{"flag":"abnormal","label":{"short":"Abnormal","long":"Abnormal","orientation":"horizontal"},"values":{"min":1,"max":2},"text":"An abnormal result may reveal various problems with your optic nerve and retina, including inflammation or injury, a retinal tear or detachment, clouding of the lens or an ocular tumor.","conditions":["Diabetic retinopathy","Macular degeneration","Cataract","Glaucoma","Eye cancer"]}],"value":0.5,"disclaimer":"Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are \"within normal limits.\""}[{"normal":0},{"abnormal":0}]
Use the slider below to see how your results affect your health.
Your result is Normal.
A normal result means the status of your optic nerve and retina is in good shape.
Related conditions
{"label":"Pupil response reference range","scale":"lin","step":0.25,"hideunits":true,"items":[{"flag":"normal","label":{"short":"Pass","long":"Pass","orientation":"horizontal"},"values":{"min":0,"max":1},"text":"A pass or normal result means that the pupils dilate (get larger) when room light is dimmed; the pupils are round and equal in size, in both bright and dim light; and the pupils quickly and symmetrically constrict to a bright light directed into either of the eyes and when the bright light swings between the two eyes.","conditions":[]},{"flag":"abnormal","label":{"short":"Refer","long":"Refer","orientation":"horizontal"},"values":{"min":1,"max":2},"text":"A refer or non-pass result means that the test revealed unequal or sluggish response to light or that the pupils are unequal in size or not round. Further testing may be needed.","conditions":["Anisocoria (unequal pupil size)","Relative afferent pupillary defect","Adie syndrome","Argyll Robertson pupil","Horner syndrome"]}],"value":0.5,"disclaimer":"Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are \"within normal limits.\""}[{"normal":0},{"abnormal":0}]
Use the slider below to see how your results affect your health.
Your result is Pass.
A pass or normal result means that the pupils dilate (get larger) when room light is dimmed; the pupils are round and equal in size, in both bright and dim light; and the pupils quickly and symmetrically constrict to a bright light directed into either of the eyes and when the bright light swings between the two eyes.
Related conditions
{"label":"Eye pressure reference range","scale":"lin","step":0.1,"hideunits":false,"items":[{"flag":"abnormal","label":{"short":"Low","long":"Low","orientation":"horizontal"},"values":{"min":0,"max":10},"text":"In general, the eye can see fine at a low pressure, though the risk of blurred vision increases significantly with eye pressure under 6 mm Hg.","conditions":[]},{"flag":"normal","label":{"short":"Normal","long":"Normal","orientation":"horizontal"},"values":{"min":10,"max":21},"text":"A normal result means your eye pressure is within the normal range. However, the thickness of your cornea can affect measurements. A corneal thickness measurement (pachymetry) is needed to get a correct pressure measurement.","conditions":[]},{"flag":"abnormal","label":{"short":"High","long":"High","orientation":"horizontal"},"values":{"min":21,"max":50},"text":"Elevated eye pressure with no other symptoms is ocular hypertension. Left untreated, high eye pressure may cause glaucoma and permanent vision loss in some individuals.","conditions":["Glaucoma","Hyphema (blood in the front chamber of the eye)","Inflammation in the eye","Injury to the eye or head"]}],"units":[{"printSymbol":"mm\u00a0Hg","code":"mm[Hg]","name":"millimeter of mercury"}],"value":15.5,"disclaimer":"Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are \"within normal limits.\""}[{"abnormal":0},{"normal":0},{"abnormal":0}]
Use the slider below to see how your results affect your health.
mm Hg
10
21
Your result is Normal.
A normal result means your eye pressure is within the normal range. However, the thickness of your cornea can affect measurements. A corneal thickness measurement (pachymetry) is needed to get a correct pressure measurement.
Related conditions
How often you need a dilated eye exam depends on your risk for eye disease. Talk to your doctor about what’s right for you.
Get a dilated eye exam every 1 to 2 years if you:
- Are over age 60
- Are African American and over age 40
- Have a family history of glaucoma
If you have diabetes or high blood pressure, ask your doctor how often you need an exam. Most people with diabetes or high blood pressure need to get a dilated eye exam at least once a year.
The exam includes:
- A visual acuity test to check how clearly you see. Your doctor will ask you to read letters that are up close and far away.
- A visual field test to check your peripheral (side) vision. Your doctor will test how well you can see objects off to the sides of your vision without moving your eyes.
- An eye muscle function test to check for problems with the muscles around your eyeballs. Your doctor will move an object around and ask you to follow it with your eyes.
- A pupil response test to check how light enters your eyes. Your doctor will shine a small flashlight into your eyes and check how your pupils react to the light.
- A tonometry test to measure the pressure in your eyes. Your doctor will use a machine to blow a quick puff of air onto your eye, or gently touch your eye with a special tool. Don’t worry — it doesn’t hurt!
- Dilation to check for problems with the inner parts of your eye. Your doctor will give you some eye drops to dilate (widen) your pupil. This helps the doctor see inside your eye.
Depending on your needs, your doctor may include other tests too. Ask your doctor if you have questions.
For a few hours after a dilated eye exam, your vision may be blurry and you may be sensitive to light. Ask a friend or family member to drive you home from your appointment.
If your eye doctor finds refractive errors in your vision, you may get a prescription for eyeglasses or contact lenses to help you see more clearly.
Bring your sunglasses!
Your eyes may be sensitive to light for a few hours after your exam. Sunglasses can help, so bring them if you have them! Your eye doctor may also have disposable sunglasses they can give you.
If your eye doctor finds signs of an eye disease, you can talk about treatment options and decide what’s right for you. Learn more about these common eye diseases:
- Diabetic eye disease
- Age-related macular degeneration
- Cataract
- Glaucoma
If you’re seeing clearly and there are no signs of eye disease, you’re all set until your next exam. Make an appointment for your next dilated eye exam before you leave the office — that way, you won’t forget!

Additional Materials (50)

Comprehensive Dilated Eye Exam

Video by National Eye Institute, NIH/YouTube

Animation: Detecting age-related macular degeneration through a dilated eye exam.

Video by National Eye Institute, NIH/YouTube

Animation: Detecting diabetic retinopathy through a dilated eye exam

Video by National Eye Institute, NIH/YouTube

What are dilating eye drops?

Video by EyeSmart — American Academy of Ophthalmology/YouTube

Dilated fundus examination

Diagram of the Eye Before and After Dilated Eye Exam

Image by National Eye Institute (NEI), National Institutes of Health (NIH)

Pupillary response

Pupillary response : Animation that illustrates the pupillary light reflex. When the light is turned on, the pupil reacts by constricting.

Image by Greyson Orlando

Right Eyeball

3D visualization based on scanned human data of the right eyeball.

Image by TheVisualMD

Tangier disease

Diffuse hazy opacity of the right cornea in the patient with Tangier disease

Image by National Eye Institute

Pupil

The pupil is the central transparent area (showing as black). The grey/blue area surrounding it is the iris. The white outer area is the sclera, the central transparent part of which is the cornea.

Image by ROTFLOLEB

Mydriasis

Mydriasis, pupillary response

Image by OpenStax College

Intraocular lens

Cataract surgery performed, IOL inserted. Note incision right of dilated pupil.

Image by Janke

Drawing of a woman having her eyes examined by a doctor using a machine

See your eye doctor for a dilated eye exam every year. Early treatment of eye problems can help save your sight.

Image by NIDDK Image Library

Two-sided Adie's pupils of unknown etiology identified by an ophthalmologist

Two-sided Adie's pupils of unknown etiology identified by an ophthalmologist

Image by Casper

Ehlers-Danlos Syndrome

The patient was a four-year-old female who was first seen three months before with a two day history of swelling of the upper lid of the left eye and lower lid of the right eye. This was apparently due to some skin eruption. The patient was also thought to have congenital glaucoma and the sclerae were noted to be blue. The corneas also protruded anteriorly and it was thought the patient might possibly have keratoconus. The patient was thought to have the syndrome of blue sclerotics with a high myopic astigmatism. Incidentally, the parents were first cousins. Generally, the patient had a brachycephaly, there was no nystagmus and the heart was normal. The patient was thought to possibly have osteogenesis imperfecta. She was also thought to have the typical physique of Marfan's, but the lenses were not dislocated. She had blue sclerae ([1], [2]) and keratoconus and she was -6.00 to -8.00 diopters myopic. It appeared that the patient had type VI Ehler's Danlos syndrome on the basis of the blue sclera, high myopia and keratoconus.

Image by National Eye Institute

Sensitive content

This media may include sensitive content

Slit Lamp Exam

Maj. Ivy Madson, 99th Air Base Squadron optometry flight commander, uses a Slit Lamp to examine the interior of the eye during an exam for Airman 1st Class Hunter, 18th Reconnaissance Squadron Airman, Jan. 13, 2015, at Creech Air Force Base, Nevada. The Creech Medical Aid Station now offers optometry services to all personnel assigned to Creech AFB Tuesdays from 7:30 a.m. to 3 p.m. (Last names have been withheld for security purposes). (U.S. Air Force photo by Staff Sgt. Adawn Kelsey/Released)

Image by U.S. Air Force photo by Staff Sgt. Adawn Kelsey/Released

Mydriasis

Mydriasis, pupillary response. Dilated pupils after an optometrist appointment.

Image by Nutschig at en.wikipedia

Drawing of an eye with a dilated pupil

None

Image by NIDDK Image Library

Child's Eye Exam

Lenses placed in a trial frame help determine eyeglass prescription.

Image by National Eye Institute, National Institutes of Health

Sensitive content

This media may include sensitive content

Eye exam

Capt. Luanne Danes uses a light to check the anterior segment of Master Sgt. Timothy Vanderhoff's eye during his visit to the Optometry Clinic Nov. 19, 2009, Eielson Air Force Base, Alaska. Captain Danes is looking for healthy structure of the eye and ensuring no corneal disease is present. Captain Danes, officer in charge of Optometry, is assigned to the 354th Medical Operation Squadron. Sergeant Vanderhoff, crew chief, is assigned to the 168th Aircraft Maintenance Squadron. (U.S. Air Force photo/Staff Sgt. Christopher Boitz)

Image by U.S. Air Force photo/Staff Sgt. Christopher Boitz

Eye exam

U.S. Navy Lt. Patricia Salazar examines a patient's eyes at a Continuing Promise medical clinic set up by staff assigned to the hospital ship USNS Comfort in Paita, Peru

Image by Petty Officer 1st Class Brian A. Goyak, U.S. Navy

Dilated fundus examination - Before

The same eye as File:Result of Dilated fundus examination.JPG, but before examination

Image by Nicko va

Pupil

Dilated and Undilated Pupil - Portions of the retina that can be seen through an undilated versus a dilated pupil.

Image by National Eye Institute, National Institutes of Health

Dilated fundus examination - After

Result of Dilated fundus examination

Image by Nicko va

Dilated fundus examination

This is my dilated pupil, an hour or two after getting drops put in them so the optometrist could examine my retinas. Pupil dilated using the anticholinergic drug tropicamide.

Image by grendel|khan and Lady Byron

Sensitive content

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Baby Eye Exam

Maj. Renee Vincent shows Taylor, 1, an ophthalmoscope during an exam. The 341st Medical Group has a total of 21 technicians and 24 nurses serving approximately 10,000 beneficiaries at Malmstrom. Major Vincent is the 341st Missile Wing’s pediatric advisor, commander of the 341st Medical Operations Squadron’s Maternal Child Flight, and a certified pediatric nurse practitioner for the 341st MDG. (U.S. Air Force photo/Staff Sgt. Marcus McDonald)

Image by U.S. Air Force photo/Staff Sgt. Marcus McDonald

Optical Coherence Tomography

A detailed cross-sectional image of the back of the eye is obtained using an optical coherence tomography (OCT).

Image by National Eye Institute, National Institutes of Health

Iris (anatomy)

Image by Shanon

Fundus Photography

An eye care professional takes fundus autofluorescence photographs to study the retina.

Image by National Eye Institute, National Institutes of Health

Drawing of an eye with a dilated pupil

Dilated eye

Image by NIDDK Image Library

An undilated pupil and dilated pupil

Dilating your pupil lets more light into your eye — just like opening a door lets light into a dark room. Dilation helps your eye doctor check for many common eye problems, including diabetic retinopathy, glaucoma, and age-related macular degeneration (AMD).

Image by National Eye Institute (NEI)

Get a dilated eye exam

A dilated eye exam is the best thing you can do for your eye health. It’s the only way to check for eye diseases early on, when they’re easier to treat — and before they cause vision loss.

Image by National Eye Institute (NEI)

Get a dilated eye exam

A dilated eye exam is the best thing you can do for your eye health. It’s the only way to check for eye diseases early on, when they’re easier to treat — and before they cause vision loss.

Image by National Eye Institute (NEI)

Get a dilated eye exam

A dilated eye exam is the best thing you can do for your eye health. It’s the only way to check for eye diseases early on, when they’re easier to treat — and before they cause vision loss.

Image by National Eye Institute (NEI)

Get a dilated eye exam

A dilated eye exam is the best thing you can do for your eye health. It’s the only way to check for eye diseases early on, when they’re easier to treat — and before they cause vision loss.

Image by National Eye Institute (NEI)

Get a dilated eye exam

A dilated eye exam is the best thing you can do for your eye health. It’s the only way to check for eye diseases early on, when they’re easier to treat — and before they cause vision loss.

Image by National Eye Institute (NEI)

Get a dilated eye exam

A dilated eye exam is the best thing you can do for your eye health. It’s the only way to check for eye diseases early on, when they’re easier to treat — and before they cause vision loss.

Image by National Eye Institute (NEI)

Get a dilated eye exam

A dilated eye exam is the best thing you can do for your eye health. It’s the only way to check for eye diseases early on, when they’re easier to treat — and before they cause vision loss.

Image by National Eye Institute (NEI)

Get a dilated eye exam

A dilated eye exam is the best thing you can do for your eye health. It’s the only way to check for eye diseases early on, when they’re easier to treat — and before they cause vision loss.

Image by National Eye Institute (NEI)

Get a dilated eye exam

A dilated eye exam is the best thing you can do for your eye health. It’s the only way to check for eye diseases early on, when they’re easier to treat — and before they cause vision loss.

Image by National Eye Institute (NEI)

Woman checking her glasses

Image by National Eye Institute (NEI)

Vision with age-related macular degeneration

Image by National Eye Institute (NEI)

Vision with cataract

Image by National Eye Institute (NEI)

Vision with diabetic rethinopathy

Image by National Eye Institute (NEI)

Vision with glaucoma

Vision with glaucoma

Image by National Eye Institute (NEI)

Healthy Eyes

Image by National Eye Institute (NEI)

Healthy Eyes

Image by National Eye Institute (NEI)

Healthy Eyes

Image by National Eye Institute (NEI)

Healthy Eyes

Image by National Eye Institute (NEI)

Healthy Eyes

Image by National Eye Institute (NEI)

Get a dilated eye exam

A dilated eye exam is the best thing you can do for your eye health. It’s the only way to check for eye diseases early on, when they’re easier to treat — and before they cause vision loss.

Image by National Eye Institute (NEI)

2:19

Comprehensive Dilated Eye Exam

National Eye Institute, NIH/YouTube

1:56

Animation: Detecting age-related macular degeneration through a dilated eye exam.

National Eye Institute, NIH/YouTube

1:53

Animation: Detecting diabetic retinopathy through a dilated eye exam

National Eye Institute, NIH/YouTube

1:12

What are dilating eye drops?

EyeSmart — American Academy of Ophthalmology/YouTube

Dilated fundus examination

National Eye Institute (NEI), National Institutes of Health (NIH)

Pupillary response

Greyson Orlando

Right Eyeball

TheVisualMD

Tangier disease

National Eye Institute

Pupil

ROTFLOLEB

Mydriasis

OpenStax College

Intraocular lens

Janke

Drawing of a woman having her eyes examined by a doctor using a machine

NIDDK Image Library

Two-sided Adie's pupils of unknown etiology identified by an ophthalmologist

Casper

Ehlers-Danlos Syndrome

National Eye Institute

Sensitive content

This media may include sensitive content

Slit Lamp Exam

U.S. Air Force photo by Staff Sgt. Adawn Kelsey/Released

Mydriasis

Nutschig at en.wikipedia

Drawing of an eye with a dilated pupil

NIDDK Image Library

Child's Eye Exam

National Eye Institute, National Institutes of Health

Sensitive content

This media may include sensitive content

Eye exam

U.S. Air Force photo/Staff Sgt. Christopher Boitz

Eye exam

Petty Officer 1st Class Brian A. Goyak, U.S. Navy

Dilated fundus examination - Before

Nicko va

Pupil

National Eye Institute, National Institutes of Health

Dilated fundus examination - After

Nicko va

Dilated fundus examination

grendel|khan and Lady Byron

Sensitive content

This media may include sensitive content

Baby Eye Exam

U.S. Air Force photo/Staff Sgt. Marcus McDonald

Optical Coherence Tomography

National Eye Institute, National Institutes of Health

Iris (anatomy)

Shanon

Fundus Photography

National Eye Institute, National Institutes of Health

Drawing of an eye with a dilated pupil

NIDDK Image Library

An undilated pupil and dilated pupil

National Eye Institute (NEI)

Get a dilated eye exam

National Eye Institute (NEI)

Get a dilated eye exam

National Eye Institute (NEI)

Get a dilated eye exam

National Eye Institute (NEI)

Get a dilated eye exam

National Eye Institute (NEI)

Get a dilated eye exam

National Eye Institute (NEI)

Get a dilated eye exam

National Eye Institute (NEI)

Get a dilated eye exam

National Eye Institute (NEI)

Get a dilated eye exam

National Eye Institute (NEI)

Get a dilated eye exam

National Eye Institute (NEI)

Woman checking her glasses

National Eye Institute (NEI)

Vision with age-related macular degeneration

National Eye Institute (NEI)

Vision with cataract

National Eye Institute (NEI)

Vision with diabetic rethinopathy

National Eye Institute (NEI)

Vision with glaucoma

National Eye Institute (NEI)

Healthy Eyes

National Eye Institute (NEI)

Healthy Eyes

National Eye Institute (NEI)

Healthy Eyes

National Eye Institute (NEI)

Healthy Eyes

National Eye Institute (NEI)

Healthy Eyes

National Eye Institute (NEI)

Get a dilated eye exam

National Eye Institute (NEI)

Slit-Lamp Exam

Slit-Lamp Exam

Also called: Biomicroscopy, Slit Lamp Exam, Slit Lamp Test

A slit lamp exam is an eye examination using an instrument that combines a low-power microscope with a light source that makes a narrow beam of light. The instrument may be used to examine the retina, optic nerve, and other parts of the eye.

Slit-Lamp Exam

Also called: Biomicroscopy, Slit Lamp Exam, Slit Lamp Test

A slit lamp exam is an eye examination using an instrument that combines a low-power microscope with a light source that makes a narrow beam of light. The instrument may be used to examine the retina, optic nerve, and other parts of the eye.

{"label":"Slit-Lamp Exam Reference Range","scale":"lin","step":0.25,"hideunits":true,"items":[{"flag":"normal","label":{"short":"Normal","long":"Normal","orientation":"horizontal"},"values":{"min":0,"max":1},"text":"A normal result indicates that the eyelashes, eyelids, and lining of the eyelids (conjunctiva) look normal. All of the structures inside the eye are found to be normal.","conditions":[]},{"flag":"abnormal","label":{"short":"Abnormal","long":"Abnormal","orientation":"horizontal"},"values":{"min":1,"max":2},"text":"Abnormal findings may include infections, diabetic complications, remnants of previous inflammatory problems, extreme allergies and cataracts.","conditions":["Cataract","Injury to the cornea","Dry eye syndrome","Retinal detachment","Retinal vessel occlusion","Retinitis pigmentosa","Uveitis"]}],"value":0.5}[{"normal":0},{"abnormal":0}]
Use the slider below to see how your results affect your health.
Your result is Normal.
A normal result indicates that the eyelashes, eyelids, and lining of the eyelids (conjunctiva) look normal. All of the structures inside the eye are found to be normal.
Related conditions
1. https://medlineplus.gov/ency/article/003880.htm [accessed on Feb 15, 2019]
2. https://www.cancer.gov/publications/dictionaries/cancer-terms/def/slit-lamp-eye-exam [accessed on Feb 15, 2019]
3. https://www.verywellhealth.com/eye-exam-tests-and-procedures-3421854 [accessed on Feb 15, 2019]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (20)

Fleck dystrophy

Fleck corneal dystrophy. Appearance of the cornea by slit-lamp biomicroscopy (left image) and by confocal microscopy (right image) (Courtesy Dr. Charles N. McGhee). Klintworth Orphanet Journal of Rare Diseases

Image by Klintworth GK

Sensitive content

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Slit Lamp Exam

Maj. Ivy Madson, 99th Air Base Squadron optometry flight commander, uses a Slit Lamp to examine the interior of the eye during an exam for Airman 1st Class Hunter, 18th Reconnaissance Squadron Airman, Jan. 13, 2015, at Creech Air Force Base, Nevada. The Creech Medical Aid Station now offers optometry services to all personnel assigned to Creech AFB Tuesdays from 7:30 a.m. to 3 p.m. (Last names have been withheld for security purposes). (U.S. Air Force photo by Staff Sgt. Adawn Kelsey/Released)

Image by U.S. Air Force photo by Staff Sgt. Adawn Kelsey/Released

Cystinosis

Slit-lamp photographs of three-year-old patient with nephropathic cystenosis before (left) and after (right) cysteamine eyedrop therapy. Treatment targeting metabolic defect dramatically dissolves painful crystals in the eye's cornea.

Image by NIH Clinical Center Location: National Institutes of Health, Bethesda, MD

Slit Lamp Photo of Eye

Slit Lamp Photo of Eye

Image by U.S. Air Force photo by Senior Airman Zachary Hada/Released

How is a cataract detected?

Slit lamp image of the cornea, iris and lens (showing mild cataract)

Image by Baristoprak~commonswiki

Lisch nodules

Lisch nodules on surface of iris. The patient was a 14-year-old male with pulsating exophthalmos of the left eye and poor vision of this highly myopic left eye. There was also some ptosis of the left eye with mild puffiness. Upward gaze of the left eye was limited. Slit lamp examination showed multiple, slightly raised nodules of the right iris.

Image by National Eye Institute

Von Hippel-Lindau Disease

Von Hippel-Lindau Disease : Slit lamp photograph showing retinal detachment in Von Hippel-Lindau disease

Image by National Eye Institute of the NIH

Stress female student studying

Young female in a green shirt, viewed from the back at left, concentrating on work materials at a desk with a lamp lamp. Computer monitor, phone and bulletin board are visible, as are stacks of books and papers. Image supports content about identifying harmful patterns in your life, including work-related stress, so you can plan to replace them with more beneficial patterns

Image by TheVisualMD

What are the symptoms of a cataract?

Slit lamp camera view of Cataract in Human Eye

Image by Rakesh Ahuja, MD

Congenital stromal corneal dystrophy

The cornea is particularly opaque in the anterior stroma by slit-lamp biomicroscopy.

Image by Klintworth GK

Ocular tonometry

Goldmann mires : Semicircles seen during Goldmann tonometry through slit lamp

Image by Manimury

Cystinosis

The patient was a 4 1/2-year-old male who looked about 2 1/2 years old at his first visit. He was admitted to the hospital because of poor growth and polydipsia. The patient was admitted to the hospital in uremia and coma. An examination of the cornea showed the surface and the immediate subepithelial region to be studded with golden-brown, fine scintillating particles, uniformly distributed throughout the entire cornea, but possibly sparing the most peripheral zone ([1]). The stroma appeared to be clear, but the posterior surface of the cornea showed the same type of particles in the lower nasal quadrant, although sparser than was the case on the surface. There were apparently also some crystals in the conjunctiva. The tentative diagnosis was cystinosis or Fanconi's syndrome, but unlike the other cases reported, the crystals appeared to be at the anterior and posterior surfaces and not in the stroma. The patient was seen again at age 8 years old, when he was back in the hospital. The cornea still contained crystals ([2]). The only noteworthy event in the recent history was a nosebleed of 20 hours duration. His non-protein nitrogen was 140 and he appeared very pale, but he was lively and alert. He had a persistent anemia and potassium depletion. Presumably both the anemia and the hemorrhagic diathesis were attributed to uremia. The patient died in the hospital. Noteworthy was the fact that his three siblings all showed clear corneas without crystals. However, the youngest was age three months and when she was examined again at age two years, she had abundant crystals and nephropathic cystinosis.

Image by National Eye Institute

What are the risks of cataract surgery?

Royal Australian Navy Lt. Elizabeth Livingstone and Singapore army Maj. Paul Zhao, both doctors embarked aboard the Military Sealift Command hospital ship USNS Mercy (T-AH 19), perform cataract surgery on a Vietnamese patient aboard Mercy during a Pacific Partnership 2010 visit to Quy Nhon, Vietnam. Pacific Partnership is the fifth in a series of annual U.S. Pacific Fleet humanitarian and civic assistance endeavors to strengthen regional partnerships.

Image by U.S. Navy photo by Mass Communication Specialist 2nd Class Eddie Harrison

Sensitive content

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Fundoscopic (Ophthalmoscopic) Exam

Dr. (Maj.) Michael Bogaard, 509th Medical Operations Squadron optometrist, uses a binocular indirect ophthalmoscope to perform an eye assessment on Senior Airman Jeffrey Afemon, 509th MDOS public health technician, in the optometry clinic at Whiteman Air Force Base, Mo., Sept. 4, 2013. The ophthalmoscope helps focus the light inside the patient’s eye and provides an image that the doctor uses to judge the health of the retina.

Image by U.S. Air Force photo by Staff Sgt. Nick Wilson/Released

Slit lamp photograph showing c in Von Hippel-Lindau disease

Slit lamp photograph showing retinal detachment in Von Hippel-Lindau disease.

Image by National Eye Institute/National Institutes of Health

Neurofibromatosis type 1(>90% of cases) together with scattered café au lait pigmented skin lesions and multiple neurifibromas (superficial or deep) in skin or other organs.

Lisch nodules are numerous nodules of dendritic melanocytes in aggregates within the iris. They are brown-yellow, round shape, raised papules as seen with slit lamp examination in the iris of patients with Neurofibromatosis type 1(>90% of cases) together with scattered café au lait pigmented skin lesions and multiple neurifibromas (superficial or deep) in skin or other organs. Similar nodules are also found in Watson syndrome which is in addition characterized by macrocephaly, pulmonary stenosis, short status and low intelligence. No treatment is required but a close follow-up of main diseases is mandatory for avoiding any serious complications.

Image by Dimitrios Malamos

Ocular tonometry

The PASCAL Dynamic Contour Tonometer

Image by Tonywirthlin at English Wikipedia

Slit Lamp Exam and Techniques

Video by iSEE/YouTube

Slit Lamp Examination (Biomicroscopy) in English

Video by TheIACLE/YouTube

Slit Lamp Exam

Video by Brian Nelson/YouTube

Fleck dystrophy

Klintworth GK

Sensitive content

This media may include sensitive content

Slit Lamp Exam

U.S. Air Force photo by Staff Sgt. Adawn Kelsey/Released

Cystinosis

NIH Clinical Center Location: National Institutes of Health, Bethesda, MD

Slit Lamp Photo of Eye

U.S. Air Force photo by Senior Airman Zachary Hada/Released

How is a cataract detected?

Baristoprak~commonswiki

Lisch nodules

National Eye Institute

Von Hippel-Lindau Disease

National Eye Institute of the NIH

Stress female student studying

TheVisualMD

What are the symptoms of a cataract?

Rakesh Ahuja, MD

Congenital stromal corneal dystrophy

Klintworth GK

Ocular tonometry

Manimury

Cystinosis

National Eye Institute

What are the risks of cataract surgery?

U.S. Navy photo by Mass Communication Specialist 2nd Class Eddie Harrison

Sensitive content

This media may include sensitive content

Fundoscopic (Ophthalmoscopic) Exam

U.S. Air Force photo by Staff Sgt. Nick Wilson/Released

Slit lamp photograph showing c in Von Hippel-Lindau disease

National Eye Institute/National Institutes of Health

Neurofibromatosis type 1(>90% of cases) together with scattered café au lait pigmented skin lesions and multiple neurifibromas (superficial or deep) in skin or other organs.

Dimitrios Malamos

Ocular tonometry

Tonywirthlin at English Wikipedia

4:58

Slit Lamp Exam and Techniques

iSEE/YouTube

13:20

Slit Lamp Examination (Biomicroscopy) in English

TheIACLE/YouTube

7:10

Slit Lamp Exam

Brian Nelson/YouTube

Eye Examinations

Eye Examinations

Also called: Eye Exams, Routine Eye Examination, Standard Ophthalmic Exam, Vision Tests

A standard eye exam is a series of tests done to check your vision and the health of your eyes. Key elements of an eye examination include dilation, tonometry, visual field test and a visual acuity test.

Eye Examinations

Also called: Eye Exams, Routine Eye Examination, Standard Ophthalmic Exam, Vision Tests

A standard eye exam is a series of tests done to check your vision and the health of your eyes. Key elements of an eye examination include dilation, tonometry, visual field test and a visual acuity test.

Eye examinations tend to follow a certain pattern: After talking with your doctor about the type and severity of your symptoms, both eyes will usually be tested to measure the visual acuity (sharpness of sight). Then the doctor will look at your eyes from the outside, take a closer look at them using a slit lamp, and measure the intraocular pressure (the pressure inside the eyeball). Eye drops are given before some tests to dilate (enlarge) the pupil of the eye for a certain amount of time. This makes it easier for the doctor to see the back of the eye. Depending on the symptoms and any other medical conditions you may have, the eye examination might be carried out differently and additional tests might be done.
Structure of the eye
1. Standard eye exam: MedlinePlus Medical Encyclopedia [accessed on Sep 03, 2018]

Additional Materials (41)

Sclera (White of the Eye)

Human eye revealing sclera

Image by agnesliinnea

Slit Lamp Photo of Eye

Slit Lamp Photo of Eye

Image by U.S. Air Force photo by Senior Airman Zachary Hada/Released

Tuberous Sclerosis - What is the prognosis?

The prognosis for individuals with TSC is highly variable and depends on the severity of symptoms. Those individuals with mild symptoms usually do well and have a normal life expectancy, while paying attention to TSC-specific issues. Individuals who are severely affected can suffer from severe mental retardation and persistent epilepsy.

Image by National Eye Institute of the NIH

Eye diagram — side view

Image by National Eye Institute (NEI)

Pupil Response

Dilated and Undilated Pupil - Portions of the retina that can be seen through an undilated versus a dilated pupil.

Image by National Eye Institute, National Institutes of Health

Low Vision

What is Low Vision Infographic. Information on low vision: causes, numbers, what we can do, and vision rehabilitation.

Image by National Eye Institute

Human Eye

Anatomy of the human eye with corneal cross-section

Image by National Eye Institute

Dilated Pupil

My friend had a scratch down her eye and had to have it dilated at hospital for three days with drops.

Image by Sophie Riches

Eye Drops

Eye drops ophthalmology service Hospital Douala Cameroun

Image by Happi Raphael/Wikimedia

Retinography

Self made ophtalmogram of the retina of the right eye. It shows the optic disc as a bright area on the right (nasal side) where blood vessels converge. The spot to the left (temporal side) of the centre is the macula. The grey, more diffuse spot in the centre is a shadow artifact.

Image by Ske.

Age-Related Macular Degeneration Overview

Macular Degeneration Projected Statistics

Image by National Eye Institute

Sensitive content

This media may include sensitive content

Eye exam

Capt. Luanne Danes uses a light to check the anterior segment of Master Sgt. Timothy Vanderhoff's eye during his visit to the Optometry Clinic Nov. 19, 2009, Eielson Air Force Base, Alaska. Captain Danes is looking for healthy structure of the eye and ensuring no corneal disease is present. Captain Danes, officer in charge of Optometry, is assigned to the 354th Medical Operation Squadron. Sergeant Vanderhoff, crew chief, is assigned to the 168th Aircraft Maintenance Squadron. (U.S. Air Force photo/Staff Sgt. Christopher Boitz)

Image by U.S. Air Force photo/Staff Sgt. Christopher Boitz

Eye exam

U.S. Navy Lt. Patricia Salazar examines a patient's eyes at a Continuing Promise medical clinic set up by staff assigned to the hospital ship USNS Comfort in Paita, Peru

Image by Petty Officer 1st Class Brian A. Goyak, U.S. Navy

Eye Examination

Eye Examination

Image by 12019

Infant Eye cross section

Cross-section of the healthy eye of an infant, showing a retina that is in perfect condition, having never been exposed to smoke-borne toxins that would compromise circulation and result in retinal damage. Image supports content showing the health benefits of smoke cessation.

Image by TheVisualMD

Cornea

Cornea - transparent covering over the eye

Image by www.keratomania.com Eye diagram by Chabacano via Wikimedia Commons

anatomy of the human eye, iris, cornea, pupil

Image by skeeze

Animation: Dilated Eye Exam

Video by National Eye Institute, NIH/YouTube

Iris (anatomy)

Image by Shanon

Pupil

Dilated and Undilated Pupil - Portions of the retina that can be seen through an undilated versus a dilated pupil.

Image by National Eye Institute, National Institutes of Health

How is glaucoma detected?

The PASCAL Dynamic Contour Tonometer

Image by Tonywirthlin at English Wikipedia

Optical Coherence Tomography

A detailed cross-sectional image of the back of the eye is obtained using an optical coherence tomography (OCT).

Image by National Eye Institute, National Institutes of Health

Help protect yourself from getting and spreading Pink Eye (conjunctivitis)

Help protect yourself from getting and spreading Pink Eye (conjunctivitis)

Image by CDC

Dry Eye

Diffuse lissamine green staining in a person with severe dry eye.

Image by Jesse Vislisel, MD and Brice Critser, CRA

Tear Production

Cornea - Structures involved in tear production.

Image by National Eye Institute

Eyeglasses on display

Eyeglasses are displayed at the optometry clinic March 11, 2016, at Malmstrom Air Force Base, Mont. The clinic hosts an internship program open to students including primary care, ocular disease and two specialty clinics, lasting two months each. (U.S. Air Force photo/Senior Airman Jaeda Tookes)

Image by U.S. Air Force photo/Senior Airman Jaeda Tookes

Extrinsic Eye Muscles

Extrinsic Eye Muscles

Image by OpenStax

Eye movements elevators

Eye movements elevators

Image by Patrick J. Lynch, medical illustrator; C. Carl Jaffe, MD, cardiologist

Treating Amblyopia

In addition to patching the eye, one hour of “near” work, or close-up work, such as coloring, is part of the treatment for amblyopia.

Image by National Eye Institute, National Institutes of Health

Sensitive content

This media may include sensitive content

Routine eye exam, rare diagnosis

This image shows deposits of cholesterol on the back of an eye affected by Coats’ Disease. The rare, congenital disease, only found in about one in 100,000 people, is caused by abnormal blood vessel development behind the retina. The affected blood vessels leak blood content into the eye leading to partial or complete retinal detachment if not treated. (Courtesy photo)

Image by Courtesy photo

Checking an elderly patient's eyes

U.S. Air Force Capt. Eric Noll, an optometrist with the 354th Medical Group, Eielson Air Force Base, Alaska, checks a patient’s eyesight at Tata Primary and Secondary School during Pacific Angel 18-3 in Luganville, Espiritu Santo Island, Vanuatu, July 16, 2018. The optometry team handed out 228 pairs of eye glasses and 534 pairs of sunglasses during the first two days of the clinic. Now entering its eleventh year Operation PAC ANGEL ensures that the region’s militaries are prepared to work together to address humanitarian crises. (U.S. Air Force photo by Senior Airman Kelsey Tucker)

Image by U.S. Air Force photo by Senior Airman Kelsey Tucker

Eye Exam

U.S. Air Force Maj. Brett Ringger, an optometrist from the Texas Air National Guard’s 136th Airlift Wing, tests a patient’s vision at a health-care clinic being operated by the Air National Guard and U.S. Navy Reserve at Lee County High School in Beattyville, Ky., June 23, 2018. The clinic is one of four that comprised Operation Bobcat, a 10-day mission to provide military medical troops with crucial training in field operations and logistics while offering no-cost health care to the residents of Eastern Kentucky. The clinics, which operated from June 15-24, offered non-emergent medical care; sports physicals; dental cleanings, fillings and extractions; eye exams and no-cost prescription eye glasses. (U.S. Air National Guard photo by Lt. Col. Dale Greer)

Image by Photo by: Lt. Col. Dale Greer | VIRIN: 180623-Z-VT419-0083.JPG; www.airforcemedicine.af.mil

Vision Test

U.S. Air Force Maj. Brett Ringger, an optometrist from the Texas Air National Guard’s 136th Airlift Wing, tests a patient’s vision at a health-care clinic being operated by the Air National Guard and U.S. Navy Reserve at Lee County High School in Beattyville, Ky., June 23, 2018. The clinic is one of four that comprised Operation Bobcat, a 10-day mission to provide military medical troops with crucial training in field operations and logistics while offering no-cost health care to the residents of Eastern Kentucky. The clinics, which operated from June 15-24, offered non-emergent medical care; sports physicals; dental cleanings, fillings and extractions; eye exams and no-cost prescription eye glasses. (U.S. Air National Guard photo by Lt. Col. Dale Greer)

Image by U.S. Air National Guard photo by Lt. Col. Dale Greer

Vision Exam

U.S. Air Force Maj. Robert Groves, an optometrist from the New Hampshire Air National Guard’s 157th Air Refueling Wing, conducts a vision exam at a health-care clinic being operated by the Air Guard and U.S. Navy Reserve at Estill County High School in Irvine, Ky., June 21, 2018. The clinic is one of four that comprised Operation Bobcat, a 10-day mission to provide military medical troops with crucial training in field operations and logistics while offering no-cost health care to the residents of Eastern Kentucky. The clinics, which operated from June 15-24, offered non-emergent medical care; sports physicals; dental cleanings, fillings and extractions; eye exams and no-cost prescription eye glasses. (U.S. Air National Guard photo by Lt. Col. Dale Greer)

Image by U.S. Air National Guard photo by Lt. Col. Dale Greer

Eyeglasses selection

U.S. Air Force Master Sgt. Julie Brown (left), a medic from the Texas Air National Guard’s 136th Airlift Wing, helps Lindsey Howard of Richmond, Ky., select frames for a new pair of eyeglasses at a health-care clinic being operated by the Air Guard and U.S. Navy Reserve at Estill County High School in Irvine, Ky., June 21, 2018. The clinic is one of four that comprised Operation Bobcat, a 10-day mission to provide military medical troops with crucial training in field operations and logistics while offering no-cost health care to the residents of Eastern Kentucky. The clinics, which operated from June 15-24, offered non-emergent medical care; sports physicals; dental cleanings, fillings and extractions; eye exams and no-cost prescription eye glasses. (U.S. Air National Guard photo by Lt. Col. Dale Greer)

Image by U.S. Air National Guard photo by Lt. Col. Dale Greer

Eye Exam

U.S. Air Force Maj. Robert Groves, an optometrist from the New Hampshire Air National Guard’s 157th Air Refueling Wing, examines a patient’s eyes at a health-care clinic being operated by the Air Guard and U.S. Navy Reserve at Estill County High School in Irvine, Ky., June 21, 2018. The clinic is one of four that comprised Operation Bobcat, a 10-day mission to provide military medical troops with crucial training in field operations and logistics while offering no-cost health care to the residents of Eastern Kentucky. The clinics, which operated from June 15-24, offered non-emergent medical care; sports physicals; dental cleanings, fillings and extractions; eye exams and no-cost prescription eye glasses. (U.S. Air National Guard photo by Lt. Col. Dale Greer)

Image by U.S. Air National Guard photo by Lt. Col. Dale Greer

Optometry

U.S. Air Force Senior Airman Dane Mendelsohn, a medic from the Kentucky Air National Guard’s 123rd Airlift Wing, screens an optometry patient at a health-care clinic being operated by the Air Guard and U.S. Navy Reserve at Breathitt County High School in Jackson, Ky., June 20, 2018. The Jackson clinic is one of four that comprised Operation Bobcat, a 10-day mission to provide military medical troops with crucial training in field operations and logistics while offering no-cost health care to the residents of Eastern Kentucky. The clinics, which operated from June 15-24, offered non-emergent medical care; sports physicals; dental cleanings, fillings and extractions; eye exams and no-cost prescription eye glasses. (U.S. Air National Guard photo by Lt. Col. Dale Greer)

Image by U.S. Air National Guard photo by Lt. Col. Dale Greer

Visual Test

Visual Test - Comprehensive Eye exam

Image by Paul Diaconu

Slit Lamp test

Slit Lamp test - Comprehensive Eye exam

Image by Paul Diaconu

Presbyopia

Presbyopia - Visual Test

Image by Tumisu

Eye Exam

Eye Exam

Image by David Mark

Sclera (White of the Eye)

agnesliinnea

Slit Lamp Photo of Eye

U.S. Air Force photo by Senior Airman Zachary Hada/Released

Tuberous Sclerosis - What is the prognosis?

National Eye Institute of the NIH

Eye diagram — side view

National Eye Institute (NEI)

Pupil Response

National Eye Institute, National Institutes of Health

Low Vision

National Eye Institute

Human Eye

National Eye Institute

Dilated Pupil

Sophie Riches

Eye Drops

Happi Raphael/Wikimedia

Retinography

Ske.

Age-Related Macular Degeneration Overview

National Eye Institute

Sensitive content

This media may include sensitive content

Eye exam

U.S. Air Force photo/Staff Sgt. Christopher Boitz

Eye exam

Petty Officer 1st Class Brian A. Goyak, U.S. Navy

Eye Examination

12019

Infant Eye cross section

TheVisualMD

Cornea

www.keratomania.com Eye diagram by Chabacano via Wikimedia Commons

anatomy of the human eye, iris, cornea, pupil

skeeze

3:24

Animation: Dilated Eye Exam

National Eye Institute, NIH/YouTube

Iris (anatomy)

Shanon

Pupil

National Eye Institute, National Institutes of Health

How is glaucoma detected?

Tonywirthlin at English Wikipedia

Optical Coherence Tomography

National Eye Institute, National Institutes of Health

Help protect yourself from getting and spreading Pink Eye (conjunctivitis)

CDC

Dry Eye

Jesse Vislisel, MD and Brice Critser, CRA

Tear Production

National Eye Institute

Eyeglasses on display

U.S. Air Force photo/Senior Airman Jaeda Tookes

Extrinsic Eye Muscles

OpenStax

Eye movements elevators

Patrick J. Lynch, medical illustrator; C. Carl Jaffe, MD, cardiologist

Treating Amblyopia

National Eye Institute, National Institutes of Health

Sensitive content

This media may include sensitive content

Routine eye exam, rare diagnosis

Courtesy photo

Checking an elderly patient's eyes

U.S. Air Force photo by Senior Airman Kelsey Tucker

Eye Exam

Photo by: Lt. Col. Dale Greer | VIRIN: 180623-Z-VT419-0083.JPG; www.airforcemedicine.af.mil

Vision Test

U.S. Air National Guard photo by Lt. Col. Dale Greer

Vision Exam

U.S. Air National Guard photo by Lt. Col. Dale Greer

Eyeglasses selection

U.S. Air National Guard photo by Lt. Col. Dale Greer

Eye Exam

U.S. Air National Guard photo by Lt. Col. Dale Greer

Optometry

U.S. Air National Guard photo by Lt. Col. Dale Greer

Visual Test

Paul Diaconu

Slit Lamp test

Paul Diaconu

Presbyopia

Tumisu

Eye Exam

David Mark

Visual Acuity Test

Visual Acuity Test

Also called: Snellen Test

A visual acuity test is an eye exam that checks the smallest letters you can read on a standardized chart (Snellen chart) or a card held 20 feet (6 meters) away. Visual acuity refers to your ability to recognize the shapes and details of the things you see.

Visual Acuity Test

Also called: Snellen Test

A visual acuity test is an eye exam that checks the smallest letters you can read on a standardized chart (Snellen chart) or a card held 20 feet (6 meters) away. Visual acuity refers to your ability to recognize the shapes and details of the things you see.

{"label":"Visual Acuity Reference Range","scale":"lin","step":0.01,"hideunits":false,"items":[{"flag":"abnormal","label":{"short":"BNB","long":"Blindness\/Near Blindness","orientation":"vertical"},"values":{"min":0,"max":0.02},"text":"<strong>US: 20\/1000 or less (Metric: 1\/60 or less)<\/strong><br \/>\nIn this range, the person must rely on substitution skills, while the original skills, if any, are unreliable and may at most serve as an adjunct.","conditions":[]},{"flag":"abnormal","label":{"short":"PVI","long":"Profound Vision Impairment","orientation":"vertical"},"values":{"min":0.02,"max":0.04},"text":"<strong>US: 20\/1000 to 20\/500 (Metric: 2\/60)<\/strong><br \/>\nIn this range, the options for vision enhancement become limited. Reliance gradually shifts from enhancement aids to substitution aids and skills.","conditions":[]},{"flag":"abnormal","label":{"short":"SVI","long":"Severe Vision Impairment","orientation":"vertical"},"values":{"min":0.04,"max":0.125},"text":"<strong>US: 20\/400 to 20\/200 (Metric: 3\/60 to 6\/60)<\/strong><br \/>\nIn this range performance is below normal and endurance is limited. You may need vision enhancing assistive devices.","conditions":[]},{"flag":"borderline","label":{"short":"MVI","long":"Moderate Vision Impairment","orientation":"vertical"},"values":{"min":0.125,"max":0.32},"text":"<strong>US: 20\/160 to 20\/80 (Metric: 6\/48 to 6\/24)<\/strong><br \/>\nYou may need corrective lenses (i.e. glasses or contacts) in order to have normal vision. You may also have an eye condition, which requires further testing.","conditions":[]},{"flag":"borderline","label":{"short":"MVI","long":"Mild Vision Impairment","orientation":"vertical"},"values":{"min":0.32,"max":0.8},"text":"<strong>US: 20\/63 to 20\/32 (Metric: 6\/18 to 6\/10)<\/strong><br \/>\nYou may need corrective lenses (i.e. glasses or contacts) in order to have normal vision. You may also have an eye condition, which requires further testing.","conditions":[]},{"flag":"normal","label":{"short":"NV","long":"Normal Vision","orientation":"vertical"},"values":{"min":0.8,"max":1.6},"text":"<strong>US: 20\/25 to 20\/12 (Metric: 6\/7.5 to 6\/4)<\/strong><br \/>\nVisual acuity is expressed as a decimal or a fraction. 1 = US 20\/20 or metric 6\/6 is considered optimal vision. <ul><li>The top number refers to the distance you stand from the chart. This is often 20 feet (6 meters).<\/li><li>The bottom number indicates the distance at which a person with normal eyesight could read the same line you correctly read.<\/li><\/ul>","conditions":[]}],"value":1.2}[{"abnormal":2},{"abnormal":1},{"abnormal":0},{"borderline":1},{"borderline":0},{"normal":0}]
Use the slider below to see how your results affect your health.
0.02
0.04
0.125
0.32
0.8
Your result is Normal Vision.
US: 20/25 to 20/12 (Metric: 6/7.5 to 6/4)
Visual acuity is expressed as a decimal or a fraction. 1 = US 20/20 or metric 6/6 is considered optimal vision.
The top number refers to the distance you stand from the chart. This is often 20 feet (6 meters).
The bottom number indicates the distance at which a person with normal eyesight could read the same line you correctly read.
Related conditions
1. https://www.ncbi.nlm.nih.gov/pubmedhealth/PMHT0027947/ [accessed on Sep 04, 2018]
2. Visual acuity test: MedlinePlus Medical Encyclopedia [accessed on Sep 04, 2018]
3. http://www.icoph.org/downloads/visualstandardsreport.pdf [accessed on Sep 04, 2018]
4. Visual acuity - Wikipedia [accessed on Sep 04, 2018]
5. Visual Acuity: What is 20/20 Vision? [accessed on Sep 04, 2018]
6. https://www.nist.gov/sites/default/files/documents/el/isd/ks/Visual_Acuity_Standards_1.pdf [accessed on Sep 04, 2018]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (24)

Snellen Eye Chart vs Prescription Glasses

Getting things in focus.

Image by David Travis/Unsplash

The Snellen Chart

The Snellen chart for visual acuity presents a limited number of Roman letters in lines of decreasing size. The line with letters that subtend 5 minutes of an arc from 20 feet represents the smallest letters that a person with normal acuity should be able to read at that distance. The different sizes of letters in the other lines represent rough approximations of what a person of normal acuity can read at different distances. For example, the line that represents 20/200 vision would have larger letters so that they are legible to the person with normal acuity at 200 feet.

Image by CNX Openstax

Saccadic Eye Movements

Saccades are rapid, conjugate movements of the eyes to survey a complicated visual stimulus, or to follow a moving visual stimulus. This image represents the shifts in gaze typical of a person studying a face. Notice the concentration of gaze on the major features of the face and the large number of paths traced between the eyes or around the mouth.

Image by CNX Openstax

Pituitary Tumor

The pituitary gland is located in the sella turcica of the sphenoid bone within the cranial floor, placing it immediately inferior to the optic chiasm. If the pituitary gland develops a tumor, it can press against the fibers crossing in the chiasm. Those fibers are conveying peripheral visual information to the opposite side of the brain, so the patient will experience “tunnel vision”—meaning that only the central visual field will be perceived.

Image by CNX Openstax

Vestibulo-ocular Reflex

If the head is turned in one direction, the coordination of that movement with the fixation of the eyes on a visual stimulus involves a circuit that ties the vestibular sense with the eye movement nuclei through the MLF.

Image by CNX Openstax

Muscles Controlled by the Accessory Nerve

The accessory nerve innervates the sternocleidomastoid and trapezius muscles, both of which attach to the head and to the trunk and shoulders. They can act as antagonists in head flexion and extension, and as synergists in lateral flexion toward the shoulder.

Image by CNX Openstax

Human Eye

Detailed Illustration of the cross section of the Human Eye - 1:posterior segment of eyeball 2:ora serrata 3:ciliary muscle 4:ciliary zonules 5:canal of Schlemm 6:pupil 7:anterior chamber 8:cornea 9:iris 10:lens cortex 11:lens nucleus 12:ciliary process 13:conjunctiva 14:inferior oblique muscle 15:inferior rectus muscle 16:medial rectus muscle 17:retinal arteries and veins 18:optic disc19:dura mater 20:central retinal artery 21:central retinal vein 22:optic nerve 23:vorticose vein 24:bulbar sheath 25:macula 26:fovea 27:sclera 28:choroid 29:superior rectus muscle 30:retina

Image by Chabacano

Dilated fundus examination

Diagram of the Eye Before and After Dilated Eye Exam

Image by National Eye Institute (NEI), National Institutes of Health (NIH)

Macular

Cross-sectional view in grayscale of right human eye

Image by National Eye Institute, National Institutes of Health

What is Presbyopia?

Image by National Eye Institute, NIH

Age Related Macular degeneration - What are some low vision devices?

A scene as it might be viewed by a person with age-related macular degeneration.

Image by National Eye Institute, National Institutes of Health

The Visual System: How Your Eyes Work

Video by National Eye Institute, NIH/YouTube

Your Baby - Visual Development - Birth to One Month

Video by movementlesson/YouTube

Bionic Eye Cures Blindness

Video by Seeker/YouTube

Vision Simulation

Video by Light12434/YouTube

What is Vision Impairment? - Vision Awareness Training Part One

Video by ouhnhs/YouTube

Low Vision

Video by EyeSmart — American Academy of Ophthalmology/YouTube

Structure and working of Human Eye

Video by Enliveeducation/YouTube

Visual Acuity Test with Snellen Eye Chart Exam | Cranial Nerve 2 Assessment Nursing

Video by RegisteredNurseRN/YouTube

How to Check Your Patient's Visual Acuity

Video by dkcalgary/YouTube

Visual Acuity in 5 min

Video by Nick Smith/YouTube

Testing Your Visual Acuity

Video by University of Rochester/YouTube

Part 2: Visual Acuity Exam

Video by ALiEM Educational Videos/YouTube

Visual Acuity - OPHTHALMOLOGY - Ep 4

Video by UBC Medicine - Educational Media/YouTube

Snellen Eye Chart vs Prescription Glasses

David Travis/Unsplash

The Snellen Chart

CNX Openstax

Saccadic Eye Movements

CNX Openstax

Pituitary Tumor

CNX Openstax

Vestibulo-ocular Reflex

CNX Openstax

Muscles Controlled by the Accessory Nerve

CNX Openstax

Human Eye

Chabacano

Dilated fundus examination

National Eye Institute (NEI), National Institutes of Health (NIH)

Macular

National Eye Institute, National Institutes of Health

What is Presbyopia?

National Eye Institute, NIH

Age Related Macular degeneration - What are some low vision devices?

National Eye Institute, National Institutes of Health

2:20

The Visual System: How Your Eyes Work

National Eye Institute, NIH/YouTube

5:40

Your Baby - Visual Development - Birth to One Month

movementlesson/YouTube

3:13

Bionic Eye Cures Blindness

Seeker/YouTube

2:04

Vision Simulation

Light12434/YouTube

11:26

What is Vision Impairment? - Vision Awareness Training Part One

ouhnhs/YouTube

4:11

Low Vision

EyeSmart — American Academy of Ophthalmology/YouTube

5:16

Structure and working of Human Eye

Enliveeducation/YouTube

2:09

Visual Acuity Test with Snellen Eye Chart Exam | Cranial Nerve 2 Assessment Nursing

RegisteredNurseRN/YouTube

12:25

How to Check Your Patient's Visual Acuity

dkcalgary/YouTube

4:58

Visual Acuity in 5 min

Nick Smith/YouTube

2:17

Testing Your Visual Acuity

University of Rochester/YouTube

2:53

Part 2: Visual Acuity Exam

ALiEM Educational Videos/YouTube

2:14

Visual Acuity - OPHTHALMOLOGY - Ep 4

UBC Medicine - Educational Media/YouTube

Visual Field Test

Visual Field Test

Also called: Perimetry, Tangent screen exam, Automated perimetry exam, Goldmann visual field exam, Humphrey visual field exam

A visual field test is an eye examination that can detect dysfunction in central and peripheral vision which may be caused by various medical conditions such as glaucoma, stroke, pituitary disease, brain tumors or other neurological deficits.

Visual Field Test

Also called: Perimetry, Tangent screen exam, Automated perimetry exam, Goldmann visual field exam, Humphrey visual field exam

A visual field test is an eye examination that can detect dysfunction in central and peripheral vision which may be caused by various medical conditions such as glaucoma, stroke, pituitary disease, brain tumors or other neurological deficits.

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Use the slider below to see how your results affect your health.
Your result is Normal.
The peripheral vision is normal.
Related conditions
1. Visual field: MedlinePlus Medical Encyclopedia [accessed on Oct 03, 2018]
2. Visual field test - Wikipedia [accessed on Oct 03, 2018]
3. Visual Field Testing for Glaucoma and Other Eye Problems [accessed on Oct 03, 2018]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (28)

Macular degeneration - Charles Bonnet syndrome (Visual Hallucinations)

This image shows an eye fundus viewed through a retinal camera, with signs of macular degeneration

Image by Tmhlee

Advanced age-related macular degeneration with fibrosis

Advanced age-related macular degeneration with fibrosis.

Image by National Eye Institute, National Institutes of Health

Retinal Disparity

Because of the interocular distance, which results in objects of different distances falling on different spots of the two retinae, the brain can extract depth perception from the two-dimensional information of the visual field.

Image by CNX Openstax

Advanced age-related macular degeneration

A fundus photo showing advanced age-related macular degeneration.

Image by National Eye Institute, National Institutes of Health

Age-Related Macular Degeneration Overview

A fundus photo showing.

Image by National Eye Institute, National Institutes of Health

Perimetry, a visual field test

Image by Institute for Quality and Efficiency in Health Care (IQWiG)

Age-Related Macular Degeneration Overview

A medical illustration depicting macular degeneration.

Image by BruceBlaus

Age-Related Macular Degeneration Overview

Macular Degeneration Projected Statistics

Image by National Eye Institute

Age-Related Macular Degeneration Overview

Age-Related Macular Degeneration information at-a-glance.

Image by NEHEP

Age-Related Macular Degeneration Overview

Macular Degeneration

Image by Ralf Roletschek

Human Head Showing Visual Pathway

3D visualization of the visual pathway based on scanned human data. Electrical nerve impulses travel from the eyes to the occipital lobe in the back of the brain via millions of nerves that make up the \"visual pathway.\" The white matter of the brain is made up of millions of nerve extensions (axons) which connect nerve fibers to other nerve fibers, target tissues or organs. In this illustration, bundles of axons in the white matter (colored blue and red) are seen radiating from the eyes to the visual centers of the brain.

Image by TheVisualMD

Topographic Mapping of the Retina onto the Visual Cortex

The visual field projects onto the retina through the lenses and falls on the retinae as an inverted, reversed image. The topography of this image is maintained as the visual information travels through the visual pathway to the cortex.

Image by CNX Openstax

Ventral and Dorsal Visual Streams

From the primary visual cortex in the occipital lobe, visual processing continues in two streams—one into the temporal lobe and one into the parietal lobe.

Image by CNX Openstax

Brain Revealing Visual Pathway

3D visualization reconstructed from scanned human data of a superior view of the brain revealing the visual pathway and superior sagittal sinus. Electrical nerve impulses travel from the eyes to the occipital lobe in the back of the brain via millions of nerves fibers that make up the \"visual pathway\".

Image by TheVisualMD

The optic disc, optic cup, and macula of a healthy 24 year old female (healthy rim tissue with a deep cup).

The optic disc, optic cup, and macula of a healthy 24 year old female (healthy rim tissue with a deep cup).

Image by Eric Wiessner

Sensitive content

This media may include sensitive content

Muscle and Nerve of Human Eye

3D visualization of the nerves associated with the human eye. Several different nerve types serve the special functions of the structures associated with sight. The optic nerves are paired bundles of fibers that send visual signals from the retina to the brain. The oculomotor, trochlear and abducent nerves control voluntary movements of the eye muscles and eyelids in addition to controlling pupil dilation and lens focusing.

Image by TheVisualMD

Macula of Retina

Instead of getting those crazy eye drops to dilate your eyes so the doctor can look at your retina, they just take a high-resolution digital picture. Much faster and easier. And they keep them on record so they can compare photos from year to year and better diagnose potential problems. The bright spot in the middle is the optic nerve (the blind spot); the darker spot next to the optic nerve is the macula, a small crater in the retina with a higher density of rods and cones, making it the best seeing portion of the eye.

Image by derivative work: Chmee2 (talk) Left_Retina.jpg: Hey Paul

Retina

This image schematically represents optic pathways from each of the 4 quadrants of view for both eyes simultaneously.

Image by Original uploader was Ratznium at en.wikipedia

Vestibulo-ocular Reflex

Connections between the vestibular system and the cranial nerves controlling eye movement keep the eyes centered on a visual stimulus, even though the head is moving. During head movement, the eye muscles move the eyes in the opposite direction as the head movement, keeping the visual stimulus centered in the field of view.

Image by CNX Openstax

Optic Nerve - A bundle of more than 1 million nerve fibers that carries visual messages from the retina to the brain.

Optic Nerve - A bundle of more than 1 million nerve fibers that carries visual messages from the retina to the brain.

Image by TheVisualMD

Partially Sectioned Human Eye Exposing front and back of the eye including the Retina

Three-dimensional visualization reconstructed from human data. Anteriolateral view of a partially sectioned eye, as well as associated eye muscles. As well as being protected by the bony orbital cavity of the skull, the eyeball is anchored in place by several thin strap muscles that attach to virtually every one of its sides except the front. These muscles tug in concert, allowing the eye to move in any direction to track objects. The clear cornea covers and protects the front exterior of the eye while the colored iris dilates and constricts to insure the proper amount of light is striking the back of the eye. The lens contorts to focus the incoming light back to the retina, which covers roughly the entire back half of the eye. Special cells embedded within the retina are responsible for the sensation of light: the cones, for color perception, and rods, for black and white perception. Electrical nerve impulses are channeled into the optic nerve at the back of the eye to the visual cortex in the brain.

Image by TheVisualMD

Human Eye

Detailed Illustration of the Anatomy of the Human Eye

Image by A Hoofring ncbi/nlm/nih

Vestibulo-ocular Reflex

If the head is turned in one direction, the coordination of that movement with the fixation of the eyes on a visual stimulus involves a circuit that ties the vestibular sense with the eye movement nuclei through the MLF.

Image by CNX Openstax

Visual Neural Pathways and Visual Field Defects

Video by PhysioPathoPharmaco/YouTube

Visual field processing | Processing the Environment | MCAT | Khan Academy

Video by khanacademymedicine/YouTube

How to Take a Visual Field Examination? - Sheryl S. Wizov, COA

Video by WillsEye GlaucomaApp/YouTube

Visual Pathway and Lesions

Video by Armando Hasudungan/YouTube

What is Glaucoma? Explained using Animation.

Video by Devin Prabhakar/YouTube

Macular degeneration - Charles Bonnet syndrome (Visual Hallucinations)

Tmhlee

Advanced age-related macular degeneration with fibrosis

National Eye Institute, National Institutes of Health

Retinal Disparity

CNX Openstax

Advanced age-related macular degeneration

National Eye Institute, National Institutes of Health

Age-Related Macular Degeneration Overview

National Eye Institute, National Institutes of Health

Perimetry, a visual field test

Institute for Quality and Efficiency in Health Care (IQWiG)

Age-Related Macular Degeneration Overview

BruceBlaus

Age-Related Macular Degeneration Overview

National Eye Institute

Age-Related Macular Degeneration Overview

NEHEP

Age-Related Macular Degeneration Overview

Ralf Roletschek

Human Head Showing Visual Pathway

TheVisualMD

Topographic Mapping of the Retina onto the Visual Cortex

CNX Openstax

Ventral and Dorsal Visual Streams

CNX Openstax

Brain Revealing Visual Pathway

TheVisualMD

The optic disc, optic cup, and macula of a healthy 24 year old female (healthy rim tissue with a deep cup).

Eric Wiessner

Sensitive content

This media may include sensitive content

Muscle and Nerve of Human Eye

TheVisualMD

Macula of Retina

derivative work: Chmee2 (talk) Left_Retina.jpg: Hey Paul

Retina

Original uploader was Ratznium at en.wikipedia

Vestibulo-ocular Reflex

CNX Openstax

Optic Nerve - A bundle of more than 1 million nerve fibers that carries visual messages from the retina to the brain.

TheVisualMD

Partially Sectioned Human Eye Exposing front and back of the eye including the Retina

TheVisualMD

Human Eye

A Hoofring ncbi/nlm/nih

Vestibulo-ocular Reflex

CNX Openstax

5:29

Visual Neural Pathways and Visual Field Defects

PhysioPathoPharmaco/YouTube

4:10

Visual field processing | Processing the Environment | MCAT | Khan Academy

khanacademymedicine/YouTube

4:00

How to Take a Visual Field Examination? - Sheryl S. Wizov, COA

WillsEye GlaucomaApp/YouTube

6:12

Visual Pathway and Lesions

Armando Hasudungan/YouTube

1:10

What is Glaucoma? Explained using Animation.

Devin Prabhakar/YouTube

Color Vision Testing

Color Vision Testing

Also called: Color Blindness Test, Color Perception Test, Ishihara Color Test

Eye care professionals use a variety of tests to diagnose color blindness. These tests can quickly diagnose specific types of color blindness. People with color blindness aren’t aware of differences among colors that are obvious to the rest of us.

Color Vision Testing

Also called: Color Blindness Test, Color Perception Test, Ishihara Color Test

Eye care professionals use a variety of tests to diagnose color blindness. These tests can quickly diagnose specific types of color blindness. People with color blindness aren’t aware of differences among colors that are obvious to the rest of us.

{"label":"Color Vision Testing Reference Range","scale":"lin","step":0.25,"hideunits":true,"items":[{"flag":"normal","label":{"short":"N","long":"Normal","orientation":"horizontal"},"values":{"min":0,"max":1},"text":"You should be able to distinguish between all colors.","conditions":[]},{"flag":"borderline","label":{"short":"RGCB","long":"Red-Green Color\u00a0Blindness","orientation":"horizontal"},"values":{"min":1,"max":2},"text":"<p>The most common types of hereditary color blindness are due to the loss or limited function of red cone (known as protan) or green cone (deutran) photopigments. This kind of color blindness is commonly referred to as red-green color blindness.<\/p>","conditions":["Protanomaly","Protanopia","Deuteranomaly","Deuteranopia"]},{"flag":"borderline","label":{"short":"BYCB","long":"Blue-Yellow Color\u00a0Blindness","orientation":"horizontal"},"values":{"min":2,"max":3},"text":"<p>Blue-yellow color blindness is rarer than red-green color blindness. Blue-cone (tritan) photopigments are either missing or have limited function. <\/p>","conditions":["Tritanomaly","Tritanopia"]},{"flag":"borderline","label":{"short":"CCB","long":"Complete color\u00a0blindness","orientation":"horizontal"},"values":{"min":3,"max":4},"text":"<p>People with complete color blindness (monochromacy) don\u2019t experience color at all and the clearness of their vision (visual acuity) may also be affected. <\/p>","conditions":["Cone monochromacy","Rod monochromacy or achromatopsia"]}],"value":0.5}[{"normal":0},{"borderline":0},{"borderline":1},{"borderline":2}]
Use the slider below to see how your results affect your health.
Your result is Normal.
You should be able to distinguish between all colors.
Related conditions
The most common types of color blindness are inherited. They are the result of defects in the genes that contain the instructions for making the photopigments found in cones. Some defects alter the photopigment’s sensitivity to color, for example, it might be slightly more sensitive to deeper red and less sensitive to green. Other defects can result in the total loss of a photopigment. Depending on the type of defect and the cone that is affected problems can arise with red, green, or blue color vision.
Red-green color blindness
The most common types of hereditary color blindness are due to the loss or limited function of red cone (known as protan) or green cone (deutran) photopigments. This kind of color blindness is commonly referred to as red-green color blindness.
- Protanomaly: In males with protanomaly, the red cone photopigment is abnormal. Red, orange, and yellow appear greener and colors are not as bright. This condition is mild and doesn’t usually interfere with daily living. Protanomaly is an X-linked disorder estimated to affect 1 percent of males.
- Protanopia: In males with protanopia, there are no working red cone cells. Red appears as black. Certain shades of orange, yellow, and green all appear as yellow. Protanopia is an X-linked disorder that is estimated to affect 1 percent of males.
- Deuteranomaly: In males with deuteranomaly, the green cone photopigment is abnormal. Yellow and green appear redder and it is difficult to tell violet from blue. This condition is mild and doesn’t interfere with daily living. Deuteranomaly is the most common form of color blindness and is an X-linked disorder affecting 5 percent of males.
- Deuteranopia: In males with deuteranopia, there are no working green cone cells. They tend to see reds as brownish-yellow and greens as beige. Deuteranopia is an X-linked disorder that affects about 1 percent of males.
Blue-yellow color blindness
Blue-yellow color blindness is rarer than red-green color blindness. Blue-cone (tritan) photopigments are either missing or have limited function.
- Tritanomaly: People with tritanomaly have functionally limited blue cone cells. Blue appears greener and it can be difficult to tell yellow and red from pink. Tritanomaly is extremely rare. It is an autosomal dominant disorder affecting males and females equally.
- Tritanopia: People with tritanopia, also known as blue-yellow color blindness, lack blue cone cells. Blue appears green and yellow appears violet or light grey. Tritanopia is an extremely rare autosomal recessive disorder affecting males and females equally.
Complete color blindness
People with complete color blindness (monochromacy) don’t experience color at all and the clearness of their vision (visual acuity) may also be affected.
There are two types of monochromacy:
- Cone monochromacy: This rare form of color blindness results from a failure of two of the three cone cell photopigments to work. There is red cone monochromacy, green cone monochromacy, and blue cone monochromacy. People with cone monochromacy have trouble distinguishing colors because the brain needs to compare the signals from different types of cones in order to see color. When only one type of cone works, this comparison isn’t possible. People with blue cone monochromacy, may also have reduced visual acuity, near-sightedness, and uncontrollable eye movements, a condition known as nystagmus. Cone monochromacy is an autosomal recessive disorder.
- Rod monochromacy or achromatopsia: This type of monochromacy is rare and is the most severe form of color blindness. It is present at birth. None of the cone cells have functional photopigments. Lacking all cone vision, people with rod monochromacy see the world in black, white, and gray. And since rods respond to dim light, people with rod monochromacy tend to be photophobic – very uncomfortable in bright environments. They also experience nystagmus. Rod monochromacy is an autosomal recessive disorder.

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (19)

What It's Like To Be Color Blind

Video by BuzzFeed Multiplayer/YouTube

Colorblind - A Colorful Guide to Colorblindness (infographic) V1

Video by gleiberkid/YouTube

How Many Colors Can We See?

Video by SciShow/YouTube

This Is What Color Blind People See With These Viral Glasses

Video by Tech Insider/YouTube

Chromosome X&Y (23) - Colour Blindness

Video by The Royal Institution/YouTube

How Vision Tests Work | Living Healthy Chicago

Video by LivingHealthyChicago/YouTube

Colorblindness

An Ishihara test image as seen by subjects with normal color vision and by those with a variety of color deficiencies.

Image by Eddau processed File:Ishihara 2.svg by User:Sakurambo,

Ishihara Plate 9

Ishihara Plate 9

Image by Unknown

Tritanopia color-blind

How tritanopia color-blind people see the world.

Image by Tohaomg

Cone Cells

Illustration of Cone cell structure in the retina

Image by Ivo Kruusamagi

Rod Cells

Illustration of Rod cell structure in the retina

Image by Madhero88

Rod Cells

Cross section of the retina. Rods are visible at far right.

Image by Cajal , Anka Friedrich (talk) , vectorisation by chris

Cone Cells

Seeing red. A. Light from the sun hits the apple. Some wavelengths are blocked by the chemicals in the apple's skin. B. Reflected wavelengths pass through the pupil and excite the cone cells at the back of the eye. C. The cones send a coded message to the brain about the wavelengths entering the eye. In this example, the L-cones are very excited, the M-cones are a little bit excited and the S cones are hardly excited at all. The brain translates this code into a sensation of "red".

Image by Wade A and Benjamin A

Ishihara Plate for testing on Deuteranopia

Ishihara Plate for testing on Deuteranopia. Test for color blindness.

Image by Dan-yell / https://commons.wikimedia.org/wiki/File:Ishihara-Test.svg

Ishihara 3

Ishihara colourblindness test No 3

Image by en:Shinobu Ishihara (died January 3, 1963)/Wikimedia

Ishihara 1

Ishihara Plate No. 1 (Number 12). Used to for the en:Ishihata test of color blindness.

Image by Nicoguaro/Wikimedia

Rough gray and white representation of a test chart so that people with complete color blindness can also get an impression of the test.

Image by Barbarossa at Dutch Wikipedia/Wikimedia

Ishihara 19

Image by /Wikimedia

Red-green colour blindness, do you have it?

Video by Demystifying Medicine/YouTube

2:38

What It's Like To Be Color Blind

BuzzFeed Multiplayer/YouTube

2:47

Colorblind - A Colorful Guide to Colorblindness (infographic) V1

gleiberkid/YouTube

2:35

How Many Colors Can We See?

SciShow/YouTube

3:43

This Is What Color Blind People See With These Viral Glasses

Tech Insider/YouTube

2:23

Chromosome X&Y (23) - Colour Blindness

The Royal Institution/YouTube

3:32

How Vision Tests Work | Living Healthy Chicago

LivingHealthyChicago/YouTube

Colorblindness

Eddau processed File:Ishihara 2.svg by User:Sakurambo,

Ishihara Plate 9

Unknown

Tritanopia color-blind

Tohaomg

Cone Cells

Ivo Kruusamagi

Rod Cells

Madhero88

Rod Cells

Cajal , Anka Friedrich (talk) , vectorisation by chris

Cone Cells

Wade A and Benjamin A

Ishihara Plate for testing on Deuteranopia

Dan-yell / https://commons.wikimedia.org/wiki/File:Ishihara-Test.svg

Ishihara 3

en:Shinobu Ishihara (died January 3, 1963)/Wikimedia

Ishihara 1

Nicoguaro/Wikimedia

Rough gray and white representation of a test chart so that people with complete color blindness can also get an impression of the test.

Barbarossa at Dutch Wikipedia/Wikimedia

Ishihara 19

/Wikimedia

6:29

Red-green colour blindness, do you have it?

Demystifying Medicine/YouTube

Eye Pressure Test

Eye Pressure Test

Also called: Intraocular Pressure (IOP) Measurement, Tonometry

Eye pressure, also called intraocular pressure (IOP), is a measurement of the fluid pressure inside the eye. Measuring it is like measuring blood pressure using a method called tonometry. Having eye pressure that’s too low or too high can damage your vision.

Eye Pressure Test

Also called: Intraocular Pressure (IOP) Measurement, Tonometry

Eye pressure, also called intraocular pressure (IOP), is a measurement of the fluid pressure inside the eye. Measuring it is like measuring blood pressure using a method called tonometry. Having eye pressure that’s too low or too high can damage your vision.

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Use the slider below to see how your results affect your health.
mm Hg
10
21
Your result is Normal.
A normal result means your eye pressure is within the normal range. However, the thickness of your cornea can affect measurements. A corneal thickness measurement (pachymetry) is needed to get a correct pressure measurement.
Related conditions
1. Tonometry: MedlinePlus Medical Encyclopedia [accessed on Oct 03, 2018]
2. Eye Pressure Testing - American Academy of Ophthalmology [accessed on Oct 03, 2018]
3. What is low eye pressure and does it cause any damage to your eyes? - American Academy of Ophthalmology [accessed on Oct 03, 2018]
4. Five Common Glaucoma Tests | Glaucoma Research Foundation [accessed on Oct 03, 2018]
5. High Eye Pressure and Glaucoma | Glaucoma Research Foundation [accessed on Oct 03, 2018]
6. Tonometry: Purpose, Procedure, and Results [accessed on Oct 03, 2018]
7. IOP and Tonometry - EyeWiki [accessed on Oct 03, 2018]
8. Tonometry [accessed on Oct 03, 2018]
9. Intraocular pressure - Wikipedia [accessed on Oct 03, 2018]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (6)

Ocular tonometry

Manimury

Ocular tonometry

Tonywirthlin at English Wikipedia

Vestibulo-ocular Reflex

CNX Openstax

Neuro-ocular syphilis

CDC/ Susan Lindsley

6:01

SVC Insight - Tonometry

Linda Young/YouTube

Tonometer

U.S. Air Force photo by Airman 1st Class Ceaira Tinsley/Released

Schirmer Test

Schirmer Test

Also called: Basal Secretion Test, Dry Eye Test, Tearing Test

A Schirmer test tells your eye doctor how quickly your eyes make tears. Your eye doctor will put a small piece of paper on the edge of your eyelid and see how long it takes for your body to make tears.

Schirmer Test

Also called: Basal Secretion Test, Dry Eye Test, Tearing Test

A Schirmer test tells your eye doctor how quickly your eyes make tears. Your eye doctor will put a small piece of paper on the edge of your eyelid and see how long it takes for your body to make tears.

{"label":"Schirmer test reference range","scale":"lin","step":0.1,"hideunits":false,"items":[{"flag":"abnormal","label":{"short":"S","long":"Severe","orientation":"horizontal"},"values":{"min":0,"max":5},"text":"Wetting of less than 5 mm is indicative of deficient tear production, but is not necessarily diagnostic of Sj\u00f6gren\u2019s syndrome.","conditions":["Dry eye","Aging","Blepharitis","Climate change","Corneal ulcer","Corneal infection","Eye infection","Laser vision correction (LASIK)","Leukemia","Lymphoma","Rheumatoid arthritis","Sj\u00f6gren syndrome","Vitamin A deficiency"]},{"flag":"abnormal","label":{"short":"M","long":"Moderate","orientation":"horizontal"},"values":{"min":5,"max":10},"text":"Less than 10 mm of moisture indicates you probable have dry eye syndrome.","conditions":["Dry eye","Aging","Blepharitis","Climate change","Corneal ulcer","Corneal infection","Eye infection","Laser vision correction (LASIK)","Leukemia","Lymphoma","Rheumatoid arthritis","Sj\u00f6gren syndrome","Vitamin A deficiency"]},{"flag":"normal","label":{"short":"N","long":"Normal","orientation":"horizontal"},"values":{"min":10,"max":15},"text":"More than 10 mm of moisture on the filter paper after 5 minutes is a sign of normal tear production. Both eyes normally release the same amount of tears.","conditions":[]},{"flag":"abnormal","label":{"short":"H","long":"High","orientation":"horizontal"},"values":{"min":15,"max":30},"text":"If your eyes produce more than 10 to 15 mm of moisture, further tests may also be required to determine the cause of your watery eyes.","conditions":["Watery eyes"]}],"units":[{"printSymbol":"mm","code":"mm","name":"millimeter"}],"value":12.5,"disclaimer":"Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are \"within normal limits.\""}[{"abnormal":1},{"abnormal":0},{"normal":0},{"abnormal":0}]
Use the slider below to see how your results affect your health.
mm
5
10
15
Your result is Normal.
More than 10 mm of moisture on the filter paper after 5 minutes is a sign of normal tear production. Both eyes normally release the same amount of tears.
Related conditions
1. https://nei.nih.gov/learn-about-eye-health/eye-conditions-and-diseases/dry-eye/testing-dry-eye [accessed on Sep 15, 2019]
2. https://medlineplus.gov/ency/article/003501.htm [accessed on Sep 15, 2019]
3. https://www.medicalnewstoday.com/articles/315974.php [accessed on Sep 15, 2019]
4. https://www.hopkinssjogrens.org/disease-information/diagnosis-sjogrens-syndrome/schirmers-test/ [accessed on Sep 15, 2019]
5. https://www.healthline.com/health/schirmers-test#results [accessed on Sep 15, 2019]
6. https://en.wikipedia.org/wiki/Schirmer%27s_test [accessed on Sep 15, 2019]

Tear Break-Up Time Test

Tear Break-Up Time Test

Also called: TBUT

A tear break-up time (TBUT) test checks how long your tear film (layer of tears on your eyes) lasts after you blink. If your tear film does not last long, you may have dry eye.

Tear Break-Up Time Test

Also called: TBUT

A tear break-up time (TBUT) test checks how long your tear film (layer of tears on your eyes) lasts after you blink. If your tear film does not last long, you may have dry eye.

{"label":"Tear Break-Up Time Reference Range","scale":"lin","step":0.1,"hideunits":false,"units":[{"printSymbol":"s","code":"s","name":"second - time"}],"items":[{"flag":"abnormal","label":{"short":"Low","long":"Low","orientation":"horizontal"},"values":{"min":0,"max":5},"text":"A short tear break-up time is a sign of a poor tear film and the longer it takes the more stable the tear film.","conditions":["Dry eye"]},{"flag":"abnormal","label":{"short":"Marginal","long":"Marginal","orientation":"horizontal"},"values":{"min":5,"max":10},"text":"A short tear break-up time is a sign of a poor tear film and the longer it takes the more stable the tear film.","conditions":["Dry eye"]},{"flag":"normal","label":{"short":"Normal","long":"Normal","orientation":"horizontal"},"values":{"min":10,"max":15},"text":"Tear film break-up time (TBUT) is a method for determining the stability of the tear film and checking evaporative dry eye. Generally, >10 seconds is thought to be normal. ","conditions":[]}],"value":12.5}[{"abnormal":1},{"abnormal":0},{"normal":0}]
Use the slider below to see how your results affect your health.
s
5
10
Your result is Normal.
Tear film break-up time (TBUT) is a method for determining the stability of the tear film and checking evaporative dry eye. Generally, >10 seconds is thought to be normal.
Related conditions
1. https://nei.nih.gov/learn-about-eye-health/eye-conditions-and-diseases/dry-eye/testing-dry-eye [accessed on Sep 15, 2019]
2. https://medlineplus.gov/ency/article/000426.htm [accessed on Sep 15, 2019]
3. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3570579/ [accessed on Sep 15, 2019]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Ophthalmoscopy

Ophthalmoscopy

Also called: Funduscopy, Retinal Examination

Ophthalmoscopy is an exam that uses a magnifying lens and a light to check the fundus of the eye (back of the inside of the eye, including the retina and optic nerve). Ophthalmoscopy may be used to check for eye problems, such as glaucoma, macular degeneration, eye cancer, optic nerve problems, or eye injury.

Ophthalmoscopy

Also called: Funduscopy, Retinal Examination

Ophthalmoscopy is an exam that uses a magnifying lens and a light to check the fundus of the eye (back of the inside of the eye, including the retina and optic nerve). Ophthalmoscopy may be used to check for eye problems, such as glaucoma, macular degeneration, eye cancer, optic nerve problems, or eye injury.

{"label":"Ophthalmoscopy Reference Range","scale":"lin","step":0.25,"hideunits":true,"items":[{"flag":"normal","label":{"short":"Normal","long":"Normal","orientation":"horizontal"},"values":{"min":0,"max":1},"text":"The retina, blood vessels, and the optic disc appear normal.","conditions":[]},{"flag":"abnormal","label":{"short":"Abnormal","long":"Abnormal","orientation":"horizontal"},"values":{"min":1,"max":2},"text":"Abnormal results may be seen on ophthalmoscopy with a variety of conditions.","conditions":["CMV retinitis","Diabetes","Glaucoma","High blood pressure","Loss of sharp vision due to macular degeneration","Melanoma of the eye","Optic nerve problems","Retinal tear or retinal detachment"]}],"value":0.5}[{"normal":0},{"abnormal":0}]
Use the slider below to see how your results affect your health.
Your result is Normal.
The retina, blood vessels, and the optic disc appear normal.
Related conditions
1. https://medlineplus.gov/ency/article/003881.htm [accessed on Feb 15, 2019]
2. https://www.verywellhealth.com/eye-exam-tests-and-procedures-3421854 [accessed on Feb 15, 2019]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (50)

ophthalmoscopy video

Video by CHECT UK/YouTube

Approach to Fundoscopy / Ophthalmoscopy

Video by Stanford Medicine 25/YouTube

Veterinary Medicine

"GUANTANAMO BAY, Cuba %u2013 Army Sgt. Ardicio Galvao, an animal care non-commissioned officer at the Guantanamo Bay Veterinary Treatment Facility, performs an eye examination on a kitten up for adoption.

Image by The National Guard

Retinoblastoma - Treatment Option Overview

Retinoblastoma (Rb) is a rapidly developing cancer that develops from the immature cells of aretina, the light-detecting tissue of the eye and is the most common malignant tumor of the eye in children.

Image by Tero Kivela

ophtalmogram of the retina, optic nerve, fovea and macula. The spot to the left (temporal side) of the centre is the macula.

Self made ophtalmogram of the retina of the right eye. It shows the optic disc as a bright area on the right (nasal side) where blood vessels converge. The spot to the left (temporal side) of the centre is the macula. The grey, more diffuse spot in the centre is a shadow artifact.

Image by Ske.

Diabetic retinopathy - Diabetic Eye Disease NIDDK

Proliferative retinopathy Description: Proliferative retinopathy, an advanced form of diabetic retinopathy, occurs when abnormal new blood vessels and scar tissue form on the surface of the retina.

Image by National Eye Institute, National Institutes of Health

Retinitis

Fundus, photograph-CMV retinitis

Image by National Eye Institute, National Institutes of Health

Age Related Macular degeneration - How is AMD detected?

Description: A fundus photo showing intermediate age-related macular degeneration.

Image by National Eye Institute, National Institutes of Health

Fluorescein angiography

Fluorescein retinography of a 33 years old patient (right eye), showing the optical disc at the inferior right quadrant and the macula lutea at the inferior left quadrant (darker spot). No anomalies detected.

Image by Mekhahertz

Age-Related Macular Degeneration Overview

Macular Degeneration

Image by Ralf Roletschek

Retinoblastoma - Treatment Option Overview

Ocular fundus aspect of retinoblastoma

Image by Aerts, I, Lumbroso-Le Rouic, L, Marion Gauthier-Villars, M, Brisse, H, Doz, F, Desjardins, L. Retinoblastoma.

Cytomegalovirus retinitis

Fundus photograph of CMV retinitis

Image by National Eye Institute, National Institutes of Health

Macular degeneration - Charles Bonnet syndrome (Visual Hallucinations)

This image shows an eye fundus viewed through a retinal camera, with signs of macular degeneration

Image by Tmhlee

Scanning laser ophthalmoscopy

Retinal image of a left eye via Optos Optomap.

Image by Modified by Overand - Original by Judgesurreal777

In background retinopathy, a slight deterioration in the small blood vessels of the retina, portions of the vessels may swell and leak fluid into the surrounding retinal tissue.

Retinopathy in fundus of eye

Image by National Eye Institute, National Institutes of Health

Optic Nerve

Healthy optic nerve

Image by Esteve.olm

Leber Congenital Amaurosis

Retina Photo of LCA : Retina photo of a patient with Leber congenital amaurosis (LCA), an inherited retinal disease that causes severe visual impairment early in childhood. Special gene testing is necessary to determine if the patient has the RPE65-associated type of the disease.

Image by National Eye Institute, National Institutes of Health.

Retinopathy of Prematurity (Small Animation)

Retinopathy of Prematurity (ROP)

Image by National Eye Institute/NIH

central retinal artery

Image by self

Drusen

Drusen in Optical Coherence Tomography

Image by Ipoliker

Chloroquine retinopathy

Chloroquine retinopathy in the left eye of a 55-year-old woman who had taken chloroquine for rheumatoid arthritis for more than 4 years, with an estimated total dose of 365 gr (250 mg daily). She first presented with a history of gradually decreasing visual acuity without any other symptoms approximately two years earlier. The latest examination revealed that her visual acuity was 30/200 right eye and 60/200 left eye. Left image shows typical bull's eye sign and right image is the fluorescien angiogram of the same eye showing increased fluorescence in the macular area and round-shaped blocked fluorescence in the central fovea.

Image by Doctors:Xiaoyun Ma, Liang Yan, Linping He Dongyi He, Hao Lu from Shanghai, China

Cone dystrophy

Fundus of cone rod dystrophy : Fundus of a 34 year-old patient with cone rod dystrophy due to Spinocerebellar Ataxia Type 7 (SCA7). Note that the macular area, and also the mid periphery, are atrophic.

Image by Christian P Hamel

Bardet-Biedl syndrome

Bardet-Biedl syndrome : Fundus of a 31 year-old patient with Bardet Biedl syndrome. The peripheral retina does not show any large lesion but the macula is atrophic.

Image by Beales PL, Elcioglu N, Woolf AS, Parker D, Flinter FA

Diabetic Retinopathy

Fundus photo showing scatter laser surgery for diabetic retinopathy.

Image by National Eye Institute, National Institutes of Health

Central retinal vein occlusion

Branch retinal vein occlusion (BRVO) Color fundus photograph of the left eye shows occlusion of the superotemporal branch of retinal vein resulting in intraretinal hemorrhages and retinal exudates in the corresponding sector of retina.

Image by Kim Baxter, Cambridge University Hospitals NHS Foundation Trust, Wellcome Images

Infant Eye cross section

Cross-section of the healthy eye of an infant, showing a retina that is in perfect condition, having never been exposed to smoke-borne toxins that would compromise circulation and result in retinal damage. Image supports content showing the health benefits of smoke cessation.

Image by TheVisualMD

Chorioretinitis

Chorioretinitis AIDS : Photograph taken of the back of the eye of an AIDS patient with chorioretinitis, which is an inflammation of the retina and choroid (thin pigmented vascular coat of the eye).

Image by NCI

Drusen

Macular Soft Drusen : Fundus image of macular soft Drusen in the right eye of a 70 year old male

Image by Ipoliker

Ocular larva migrans granuloma via toxocara canis infection from newborn puppies

Ocular larva migrans granuloma via toxocara canis infection from newborn puppies

Image by enableuser

Smoking and the eye

The effects of cigarette smoke have been associated with many ailments, including two sight-threatening eye conditions. Left, an eye that shows signs of macular degeneration. The yellow or off-white deposits, called drusen, that form beneath the retinal layer are a common sign that macular degeneration is in progress. Right, an eye with a cataract. The lens of the eye is usually crystal clear to allow unobstructed vision. Cataract also means \"waterfall.\" Doctors have likened the difficulty of seeing through a lens with a cataract to trying to see clearly through a rushing waterfall.

Image by TheVisualMD

Tuberous Sclerosis - What is the prognosis?

The prognosis for individuals with TSC is highly variable and depends on the severity of symptoms. Those individuals with mild symptoms usually do well and have a normal life expectancy, while paying attention to TSC-specific issues. Individuals who are severely affected can suffer from severe mental retardation and persistent epilepsy.

Image by National Eye Institute of the NIH

Retinitis pigmentosa

Fundus of patient with retinitis pigmentosa, end stage: Fundus of patient with retinitis pigmentosa, end stage (Pigment deposits are present all over the retina. Retinal vessels are very thin and optic disc is pale.

Image by Christian Hamel

Retinopathy - Cerebroretinal microangiopathy with calcifications and cysts. Exudative retinopathy and vitreos hemorrhage: A fundus photograph of a child with cerebroretinal microangiopathy with calcifications and cysts, in which red vitreous bleeding and yellowish lipid under a detached retina are seen.

Cerebroretinal microangiopathy with calcifications and cysts. Exudative retinopathy and vitreos hemorrhage: A fundus photograph of a child with cerebroretinal microangiopathy with calcifications and cysts from a mutation in the CTC1 gene, in which red vitreous bleeding and yellowish lipid under a detached retina are seen.

Image by Tero Kivela, MD, FEBO

Left, an eye that shows signs of macular degeneration. Right, an eye with a cataract.

This image features two sight-threatening eye conditions. Left, an eye that shows signs of macular degeneration. The yellow or off-white deposits, called drusen, that form beneath the retinal layer are a common sign that macular degeneration is in progress. Right, an eye with a cataract. The lens of the eye is usually crystal clear to allow unobstructed vision. Cataract also means \"waterfall.\" Doctors have likened the difficulty of seeing through a lens with a cataract to trying to see clearly through a rushing waterfall.

Image by TheVisualMD

Presumed Ocular Histoplasmosis Syndrome

Retinal photograph of ocular histoplasmosis

Image by Wickedthought

Neuro-ocular syphilis

This funduscopic image reveals the effects of late neuro-ocular syphilis on the optic disk and retina. Note the typical features of neuro-ocular syphilis, which includes severe optic nerve atrophy, and chorioretinitis, or inflammation of the choroidal and neural layers of the retina.

Image by CDC/ Susan Lindsley

Fundus Photography

An eye care professional takes fundus autofluorescence photographs to study the retina.

Image by National Eye Institute, National Institutes of Health

Complications of diabetes mellitus

Diabetes and Small Vessel Disease : High levels of blood glucose damage the smallest vessels in your body, the capillaries, just as they do the larger vessels. One cause of this damage may be the high levels of advanced glycation end products (AGEs) that glucose creates inside capillary cells.

Image by TheVisualMD

Cross-section of retina, close-up of the photoreceptors

DHA and vision

Image by TheVisualMD

Eye with Diabetic Retinopathy

Eye with cross section revealing diabetic retinopathy; the damaged retina due to diabetes. The visible damaged includes yellow patches of fatty deposits and tiny dark dots, or microaneurysms.

Image by TheVisualMD

DiabeticRetinopathy

Diabetic Retinopathy

Image by Blausen.com staff (2014). "Medical gallery of Blausen Medical 2014

Macula of Retina

photograph of the retina of the human eye, with overlay diagrams showing the positions and sizes of the macula, fovea, and optic disc

Image by National Eye Institute of the NIH

Partially Sectioned Human Eye Exposing front and back of the eye including the Retina

Three-dimensional visualization reconstructed from human data. Anteriolateral view of a partially sectioned eye, as well as associated eye muscles. As well as being protected by the bony orbital cavity of the skull, the eyeball is anchored in place by several thin strap muscles that attach to virtually every one of its sides except the front. These muscles tug in concert, allowing the eye to move in any direction to track objects. The clear cornea covers and protects the front exterior of the eye while the colored iris dilates and constricts to insure the proper amount of light is striking the back of the eye. The lens contorts to focus the incoming light back to the retina, which covers roughly the entire back half of the eye. Special cells embedded within the retina are responsible for the sensation of light: the cones, for color perception, and rods, for black and white perception. Electrical nerve impulses are channeled into the optic nerve at the back of the eye to the visual cortex in the brain.

Image by TheVisualMD

Month 1

A newborn sleeps 12-20 hours per day, but don't let that fool you: your baby will go through enormous transformations in his first month. Your womb was safe, warm, dark, and quiet. Now your baby has to adapt to the outside world, full of bright lights, noises, and unfamiliar sensations.

Image by TheVisualMD

Retina close-up

A picture of a patient’s retina is displayed at the optometry clinic March 11, 2016, at Malmstrom Air Force Base, Mont. The clinic is the only one in Montana that has a retinal imagining device called an Optos, used to look at the retina without diluting it. (U.S. Air Force photo/Senior Airman Jaeda Tookes)

Image by U.S. Air Force photo/Senior Airman Jaeda Tookes

Macula of Retina

Animation of Optic cup and macula - 3D motion parallax -The optic cup and macula of a healthy 24 year old female. Image is released to wikimedia commons with patient consent. GIF displays a three dimensional view of the cup via motion parallax. Imaged with a non-mydriatic fundus camera at Pacific University College of Optometry.

Image by Eric Wiessner

Fundus photo showing focal laser surgery for diabetic retinopathy

Fundus photo showing focal laser surgery for diabetic retinopathy.

Image by National Eye Institute, National Institutes of Health

Eye with Diabetic Retinopathy

Image showing diabetic retinopathy , a condition caused by diabetes and affects the capillaries of the retina causing eventual blindness unless treated.

Image by TheVisualMD

Retina showing reticular pseudodrusen - early age-related macular degeneration (AMD)

A new clinical study led by the National Eye Institute (NEI), part of the National Institutes of Health, will follow 500 people over five years to learn more about the natural history of early age-related macular degeneration (AMD). By using the latest technologies to visualize structures within the eye and measure their function, researchers hope to identify biomarkers of disease progression, well before it advances to late-stage disease and causes vision loss. AMD is the leading cause of vision impairment and blindness among people age 50 and older in the United States.

Image by NIH Image Gallery

Hypotrichosis with juvenile macula dystrophy

ophthalmoscopy left eye of a 5-year-old boy with HJMD

Image by BazokaSmurf

9:33

ophthalmoscopy video

CHECT UK/YouTube

8:56

Approach to Fundoscopy / Ophthalmoscopy

Stanford Medicine 25/YouTube

Veterinary Medicine

The National Guard

Retinoblastoma - Treatment Option Overview

Tero Kivela

ophtalmogram of the retina, optic nerve, fovea and macula. The spot to the left (temporal side) of the centre is the macula.

Ske.

Diabetic retinopathy - Diabetic Eye Disease NIDDK

National Eye Institute, National Institutes of Health

Retinitis

National Eye Institute, National Institutes of Health

Age Related Macular degeneration - How is AMD detected?

National Eye Institute, National Institutes of Health

Fluorescein angiography

Mekhahertz

Age-Related Macular Degeneration Overview

Ralf Roletschek

Retinoblastoma - Treatment Option Overview

Aerts, I, Lumbroso-Le Rouic, L, Marion Gauthier-Villars, M, Brisse, H, Doz, F, Desjardins, L. Retinoblastoma.

Cytomegalovirus retinitis

National Eye Institute, National Institutes of Health

Macular degeneration - Charles Bonnet syndrome (Visual Hallucinations)

Tmhlee

Scanning laser ophthalmoscopy

Modified by Overand - Original by Judgesurreal777

In background retinopathy, a slight deterioration in the small blood vessels of the retina, portions of the vessels may swell and leak fluid into the surrounding retinal tissue.

National Eye Institute, National Institutes of Health

Optic Nerve

Esteve.olm

Leber Congenital Amaurosis

National Eye Institute, National Institutes of Health.

Retinopathy of Prematurity (Small Animation)

National Eye Institute/NIH

central retinal artery

self

Drusen

Ipoliker

Chloroquine retinopathy

Doctors:Xiaoyun Ma, Liang Yan, Linping He Dongyi He, Hao Lu from Shanghai, China

Cone dystrophy

Christian P Hamel

Bardet-Biedl syndrome

Beales PL, Elcioglu N, Woolf AS, Parker D, Flinter FA

Diabetic Retinopathy

National Eye Institute, National Institutes of Health

Central retinal vein occlusion

Kim Baxter, Cambridge University Hospitals NHS Foundation Trust, Wellcome Images

Infant Eye cross section

TheVisualMD

Chorioretinitis

NCI

Drusen

Ipoliker

Ocular larva migrans granuloma via toxocara canis infection from newborn puppies

enableuser

Smoking and the eye

TheVisualMD

Tuberous Sclerosis - What is the prognosis?

National Eye Institute of the NIH

Retinitis pigmentosa

Christian Hamel

Retinopathy - Cerebroretinal microangiopathy with calcifications and cysts. Exudative retinopathy and vitreos hemorrhage: A fundus photograph of a child with cerebroretinal microangiopathy with calcifications and cysts, in which red vitreous bleeding and yellowish lipid under a detached retina are seen.

Tero Kivela, MD, FEBO

Left, an eye that shows signs of macular degeneration. Right, an eye with a cataract.

TheVisualMD

Presumed Ocular Histoplasmosis Syndrome

Wickedthought

Neuro-ocular syphilis

CDC/ Susan Lindsley

Fundus Photography

National Eye Institute, National Institutes of Health

Complications of diabetes mellitus

TheVisualMD

Cross-section of retina, close-up of the photoreceptors

TheVisualMD

Eye with Diabetic Retinopathy

TheVisualMD

DiabeticRetinopathy

Blausen.com staff (2014). "Medical gallery of Blausen Medical 2014

Macula of Retina

National Eye Institute of the NIH

Partially Sectioned Human Eye Exposing front and back of the eye including the Retina

TheVisualMD

Month 1

TheVisualMD

Retina close-up

U.S. Air Force photo/Senior Airman Jaeda Tookes

Macula of Retina

Eric Wiessner

Fundus photo showing focal laser surgery for diabetic retinopathy

National Eye Institute, National Institutes of Health

Eye with Diabetic Retinopathy

TheVisualMD

Retina showing reticular pseudodrusen - early age-related macular degeneration (AMD)

NIH Image Gallery

Hypotrichosis with juvenile macula dystrophy

BazokaSmurf

Retinoscopy

Retinoscopy

Also called: Ret, Shadow Test, Skiametry, Skiascopy

Retinoscopy is an objective determination of the refractive state of the eye (nearsightedness, farsightedness, astigmatism). By using a retinoscope, the amount of correction and the power of lens needed can be determined.

Retinoscopy

Also called: Ret, Shadow Test, Skiametry, Skiascopy

Retinoscopy is an objective determination of the refractive state of the eye (nearsightedness, farsightedness, astigmatism). By using a retinoscope, the amount of correction and the power of lens needed can be determined.

Retinoscopy is an accurate objective measurement of the refractive state of the eye, such as the degree of nearsightedness, farsightedness or astigmatism. It uses light reflected off the back of the eye and hand-held lenses to measure refractive error.
A retinoscopy can be especially useful in determining refractive error in very young children and infants or people with special needs, as it requires minimal cooperation.
1. https://www.aapos.org/terms/conditions/95 [accessed on Feb 14, 2019]
2. https://nei.nih.gov/health/errors [accessed on Feb 14, 2019]
3. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5646585/ [accessed on Feb 14, 2019]
4. https://www.aao.org/young-ophthalmologists/yo-info/article/retinoscopy-101 [accessed on Feb 14, 2019]
5. https://www.allaboutvision.com/eye-exam/expect.htm [accessed on Feb 14, 2019]
6. https://www.lybrate.com/lab-test/retinoscopy [accessed on Feb 14, 2019]
7. https://www.northrangeeyecare.com/your-eye-health/eye-exams/common-tests/retinoscope/ [accessed on Feb 14, 2019]
8. https://www.slideshare.net/laxmieyeinstitute/retinoscopy-and-its-principles [accessed on Feb 14, 2019]

Additional Materials (17)

B&L Retinoscope

Bausch & Lomb Copeland Streak Retinoscope

Image by Janee

Retinoscopy of the eye (Ophthalmology)

Video by Tim Root/YouTube

Performing a Retinoscopy

An eye care professional performs retinoscopy to determine the child’s refractive error (eyeglass prescription).

Image by National Eye Institute

Determining Eyeglass Prescription

An eye care professional performs retinoscopy to determine the child’s refractive error (eyeglass prescription).

Image by National Eye Institute

Refractive Error Fact Sheet

Refractive errors occur when the shape of the eye prevents light from focusing directly on the retina. The length of the eyeball (longer or shorter), changes in the shape of the cornea, or aging of the lens can all cause refractive errors.

Document by National Eye Institute

Nearsightedness Fact Sheet

Nearsightedness, also known as myopia, is a common type of refractive error where close objects appear clearly, but distant objects appear blurry.

Document by National Eye Institute

Pediatric Eye Exam

An eye care professional conducts a pediatric eye exam on a child.

Image by National Eye Institute

Pediatric Eye Exam

An eye care professional performs retinoscopy to determine the child’s refractive error (eyeglass prescription).

Image by National Eye Institute

Retinoscopy

This woman was pictured in her doctor’s office, while undergoing an eye exam. Using an ophthalmoscope, the doctor was looking inside the interior of the patient’s right eyeball, in order to see if any intraocular damage had occurred, as a result of this patient's diabetic condition. Note the eye chart in the background, which is known as an E chart, or a tumbling E chart.

Image by CDC/ Amanda Mills

Retinoscopy

This woman was pictured in her doctor’s office, while undergoing an eye exam. Using an ophthalmoscope, the doctor was looking inside the interior of the patient’s left eyeball, in order to see if any intraocular damage had occurred, as a result of this patient's diabetic condition.

Image by CDC/ Amanda Mills

Retinoscopy

This woman was pictured in her doctor’s office, while undergoing an eye exam. Using an ophthalmoscope, the doctor was looking inside the interior of the patient’s left eyeball, in order to see if any intraocular damage had occurred, as a result of this patient's diabetic condition. Note the eye chart in the background, which is known as an E chart, or a tumbling E chart.

Image by CDC/ Amanda Mills

Eye exam

The woman pictured here, was undergoing an eye exam, whereupon, she was testing her visual acuity, by covering her left eye, and reading from a door-mounted eye chart, which used numbers as its symbols. Note that this eye chart was intended to be used with the patient standing at a distance of 10 feet from the chart.

Image by CDC/ Amanda Mills

Retinoscopy

The woman pictured here, was undergoing an eye exam, whereupon, she was testing her visual acuity, by covering her left eye, and reading from a door-mounted eye chart, which used numbers as its symbols. The clinician was pointing to each of the various numbers, and the patient was reciting the highlighted number. Note that this eye chart was intended to be used with the patient standing at a distance of 10 feet from the chart.

Image by CDC/ Amanda Mills

Retinoscopy

This seated female patient was in the process of receiving an eye examination, being conducted by a female physician, who was using a handheld ophthalmoscope, enabling her to see into the patient’s left eye.

Image by CDC/ Amanda Mills

Retinoscopy

This seated female patient was in the process of receiving an eye examination from a female physician, who was using a hand-held ophthalmoscope to see into her right eye.

Image by CDC/ Amanda Mills

Retinoscopy

This seated young female patient was in the process of receiving an eye examination from a male clinician, who was using a hand-held ophthalmoscope to see into her right eye.

Image by CDC/ Amanda Mills

Middle schoolers receive health screenings

A 52nd Aerospace Medicine Squadron optometrist, uses lenses to perform a retinoscopy on a Spangdahlem Middle School student during a school health screening on Spangdahlem Air Base, Germany, Nov. 7, 2014. The screenings are held once a year to assess the weight, height, eyesight and hearing of students. (U.S. Air Force photo by Staff Sgt. Christopher Ruano/Released)

Image by U.S. Air Force photo by Staff Sgt. Christopher Ruano/Released

B&L Retinoscope

Janee

4:43

Retinoscopy of the eye (Ophthalmology)

Tim Root/YouTube

Performing a Retinoscopy

National Eye Institute

Determining Eyeglass Prescription

National Eye Institute

Refractive Error Fact Sheet

National Eye Institute

Nearsightedness Fact Sheet

National Eye Institute

Pediatric Eye Exam

National Eye Institute

Pediatric Eye Exam

National Eye Institute

Retinoscopy

CDC/ Amanda Mills

Retinoscopy

CDC/ Amanda Mills

Retinoscopy

CDC/ Amanda Mills

Eye exam

CDC/ Amanda Mills

Retinoscopy

CDC/ Amanda Mills

Retinoscopy

CDC/ Amanda Mills

Retinoscopy

CDC/ Amanda Mills

Retinoscopy

CDC/ Amanda Mills

Middle schoolers receive health screenings

U.S. Air Force photo by Staff Sgt. Christopher Ruano/Released

Everyday Eye Care

Eye glasses

Image by Leo Karstens

Everyday Eye Care

Make sure to:

Get regular eye exams to assure the continued health of your eyes.
Always have a back-up pair of glasses with a current prescription in the event that you have problems with your contact lenses.
Always ask your eye care professional before using any medicine or using topical eye products, even those you buy without a prescription. Some medicines may affect your vision or irritate your eyes.
Ask your eye care professional about wearing glasses or contact lenses during sports activities to minimize your chance of injury.
Apply cosmetics after inserting lenses and remove your lenses before removing makeup.
Apply any aerosol products (hairspray, cologne, and deodorant) before inserting lenses.
Always inform your employer if you wear contact lenses. Some jobs may require the use of eye protection equipment or may require that you not wear lenses.
Follow and save the directions that come with your lenses. If you didn’t get a patient information booklet, request one from your eye care professional or look for one on the manufacturer’s website.
Replace contacts as recommended by your eye care professional. Throw away disposable lenses after recommended wearing period.

Do Not:

Sleep in daily wear lenses because it may increase your chance of infection or irritation.
Purchase contact lenses from gas stations, video stores, record shops, or any other vendor not authorized by law to dispense contact lenses. Contact lenses are medical devices that require a prescription.
Swap contact lens with another person. Swapping provides a way to transfer germs between people. Contact lenses are individually fitted. Incorrectly fitted lenses may cause permanent eye injury, infection and may potentially lead to blindness.
Smoke. Studies show that smokers who wear contact lenses have a higher rate of problems (adverse reactions) than nonsmokers.
Swim while wearing contact lenses. There is a risk of eye infection from bacteria in swimming pool water, hot tubs, lakes and the ocean

Source: FDA Consumer Health Information

Additional Materials (7)

4:16

Relieve Eye Strain with these Expert Tips

UC San Diego Health/YouTube

Glasses, Spectacles, Eye Wear

MabelAmber/Pixabay

Occupational Health

Compliance and Safety LLC

2:22

7 Tips for Using Contact Lenses Safely

U.S. Food and Drug Administration/YouTube

You Only Have One Pair of Eyes

Centers for Disease Control and Prevention (CDC)

Eye Wise – Contact Lenses 101: No H2O – Keep Water Away From Contacts

Centers for Disease Control and Prevention (CDC)

You Only Have One Pair of Eyes – Your Habits

Centers for Disease Control and Prevention (CDC)

Macula of Retina

Macula of Retina

Image by Eric Wiessner

Macula of Retina

The macula is made up of millions of light-sensing cells that provide sharp, central vision. It is the most sensitive part of the retina, which is located at the back of the eye. The retina turns light into electrical signals and then sends these electrical signals through the optic nerve to the brain, where they are translated into the images we see. When the macula is damaged, the center of your field of view may appear blurry, distorted, or dark.

Source: National Eye Institute (NEI)

Additional Materials (3)

Retinal Epithelial Cells (RPE) Grown on Scaffold

NIH Image Gallery from Bethesda, Maryland, USA/Wikimedia

6:20

The Human Eye

7activestudio/YouTube

1:04

What is the Macula and Macular Degeneration

Contact Lens King/YouTube

Fovea Centralis

Fovea of the retina

Image by Dr. Robert Fariss, National Eye Institute, NIH

Fovea Centralis

Fovea - a region in the center of the retina with a high density of photoreceptors and which is responsible for acute vision.

The fovea is the region in the center back of the eye that is responsible for acute vision. The fovea has a high density of cones. When you bring your gaze to an object to examine it intently in bright light, the eyes orient so that the object’s image falls on the fovea. However, when looking at a star in the night sky or other object in dim light, the object can be better viewed by the peripheral vision because it is the rods at the edges of the retina, rather than the cones at the center, that operate better in low light. In humans, cones far outnumber rods in the fovea.

Source: CNX OpenStax

Additional Materials (6)

5:43

Photoreceptor distribution in the fovea | Processing the Environment | MCAT | Khan Academy

khanacademymedicine/YouTube

1:39

The Retina | What is the Retina and What is its Function?

Contact Lens King/YouTube

5:16

Structure and working of Human Eye

Enliveeducation/YouTube

16:05

Visual Processing and the Visual Cortex

Professor Dave Explains/YouTube

1:04

What is the Macula and Macular Degeneration

Contact Lens King/YouTube

Anatomy of the fovea

Cenveo

Optic Nerve

Human Eye with Visible Retina, cilia, lens, Uvea, optic nerve, sclera, cornea

Image by TheVisualMD

Optic Nerve

Rods and cones are connected (via several interneurons) to retinal ganglion cells. Axons from the retinal ganglion cells converge and exit through the back of the eye to form the optic nerve. The optic nerve carries visual information from the retina to the brain. There is a point in the visual field called the blind spot: Even when light from a small object is focused on the blind spot, we do not see it. We are not consciously aware of our blind spots for two reasons: First, each eye gets a slightly different view of the visual field; therefore, the blind spots do not overlap. Second, our visual system fills in the blind spot so that although we cannot respond to visual information that occurs in that portion of the visual field, we are also not aware that information is missing.

The optic nerve from each eye merges just below the brain at a point called the optic chiasm. As Figure 5.13 shows, the optic chiasm is an X-shaped structure that sits just below the cerebral cortex at the front of the brain. At the point of the optic chiasm, information from the right visual field (which comes from both eyes) is sent to the left side of the brain, and information from the left visual field is sent to the right side of the brain.

This illustration shows the optic chiasm at the front of the brain and the pathways to the occipital lobe at the back of the brain, where visual sensations are processed into meaningful perceptions.

Once inside the brain, visual information is sent via a number of structures to the occipital lobe at the back of the brain for processing. Visual information might be processed in parallel pathways which can generally be described as the “what pathway” and the “where/how” pathway. The “what pathway” is involved in object recognition and identification, while the “where/how pathway” is involved with location in space and how one might interact with a particular visual stimulus (Milner & Goodale, 2008; Ungerleider & Haxby, 1994). For example, when you see a ball rolling down the street, the “what pathway” identifies what the object is, and the “where/how pathway” identifies its location or movement in space.

Source: CNX OpenStax

Additional Materials (15)

Macula of Retina

photograph of the retina of the human eye, with overlay diagrams showing the positions and sizes of the macula, fovea, and optic disc

Image by National Eye Institute of the NIH

Optic Nerve

Healthy optic nerve

Image by Esteve.olm

Macula of Retina

Animation of Optic cup and macula - 3D motion parallax -The optic cup and macula of a healthy 24 year old female. Image is released to wikimedia commons with patient consent. GIF displays a three dimensional view of the cup via motion parallax. Imaged with a non-mydriatic fundus camera at Pacific University College of Optometry.

Image by Eric Wiessner

Optic Nerve - A bundle of more than 1 million nerve fibers that carries visual messages from the retina to the brain.

Optic Nerve - A bundle of more than 1 million nerve fibers that carries visual messages from the retina to the brain.

Image by TheVisualMD

3D Visualization of Brain Eyes and Optic Nerve

3D Visualization of Brain Eyes and Optic Nerve

Image by TheVisualMD

Left Hemisphere of the brain and Optic Nerve/tract

Brain Cross Section Optic Nerve

Image by TheVisualMD

2-Minute Neuroscience: Optic Nerve (Cranial Nerve II)

Video by Neuroscientifically Challenged/YouTube

Neurology | Optic Nerve | Cranial Nerve II: Visual Pathway and Lesions

Video by Ninja Nerd/YouTube

Optic Nerve Fibers

Video by EyeSmart — American Academy of Ophthalmology/YouTube

Eye Works 2: Image: Retina, Optic Nerve and Brain

Video by Craig Blackwell/YouTube

Cranial nerves I and II

Video by The Noted Anatomist/YouTube

The Human Eye

Video by 7activestudio/YouTube

Human Brain Revealing Optic Pathway

Three-dimensional visualization reconstructed from scanned human data. Superiolateral view of the right side of the optic pathway (colored) in a coronal section of the head; the left lobe of the brain is visible above the coronal section. Light enters the eye through the iris and is translated by specialized cells (rods and cones) that reside in the back of the retina into nerve impulses. These impulses travel from the optic nerve to the occipital lobe in the back of the brain via millions of bundled nerves in the white matter that make up the visual pathway. The white matter of the brain is made up of millions of nerve extensions (axons) which connect nerve fibers to other nerve fibers, target tissues, or organs. In addition to the nerves of the optic pathway, there are several different nerves that serve special functions of the structures associated with sight. The oculomotor, trochlear, and abducent nerves control voluntary movements of the eye muscles and eyelids, as well as controlling pupil dilation and lens focusing.

Image by TheVisualMD

Retina close up cross section

The retina is the innermost layer of the eye and is composed of several layers of neurons interconnected by synapses. The only neurons that are directly sensitive to light are the photoreceptor cells, mainly of two types: rods and cones. Light energy creates an image of the visual world on the retina, triggering nerve impulses that are sent to the visual centers of the brain through the optic nerve.The retina and the optic nerve are really parts of the brain and grow out from it during embryonic development. Two fatty acids found in breast milk are particularly critical for development of the infant eye: docosahexaenoic acid (DHA) and arachidonic acid (ARA). Unlike fats that are burned for energy, DHA and ARA play key roles as structural and signaling components in cell membranes in the brain and eye.

Image by TheVisualMD

Retina

Right Eye Retina

Image by Hey Paul from Sacramento, CA, USA

Macula of Retina

National Eye Institute of the NIH

Optic Nerve

Esteve.olm

Macula of Retina

Eric Wiessner

Optic Nerve - A bundle of more than 1 million nerve fibers that carries visual messages from the retina to the brain.

TheVisualMD

3D Visualization of Brain Eyes and Optic Nerve

TheVisualMD

Left Hemisphere of the brain and Optic Nerve/tract

TheVisualMD

1:53

2-Minute Neuroscience: Optic Nerve (Cranial Nerve II)

Neuroscientifically Challenged/YouTube

36:33

Neurology | Optic Nerve | Cranial Nerve II: Visual Pathway and Lesions

Ninja Nerd/YouTube

0:35

Optic Nerve Fibers

EyeSmart — American Academy of Ophthalmology/YouTube

15:00

Eye Works 2: Image: Retina, Optic Nerve and Brain

Craig Blackwell/YouTube

3:46

Cranial nerves I and II

The Noted Anatomist/YouTube

6:20

The Human Eye

7activestudio/YouTube

Human Brain Revealing Optic Pathway

TheVisualMD

Retina close up cross section

TheVisualMD

Retina

Hey Paul from Sacramento, CA, USA

Aqueous Humor - Physics of the Eye

Aqueous Humor

Image by TheVisualMD

Aqueous Humor - Physics of the Eye

The cornea and lens of the eye act together to form a real image on the light-sensing retina, which has its densest concentration of receptors in the fovea and a blind spot over the optic nerve. The radius of curvature of the lens of an eye is adjustable to form an image on the retina for different object distances. Layers of tissues with varying indices of refraction in the lens are shown here. However, they have been omitted from other pictures for clarity.

The indices of refraction in the eye are crucial to its ability to form images. Table 2.1 lists the indices of refraction relevant to the eye. The biggest change in the index of refraction, which is where the light rays are most bent, occurs at the air-cornea interface rather than at the aqueous humor-lens interface. The ray diagram in Figure 2.30 shows image formation by the cornea and lens of the eye. The cornea, which is itself a converging lens with a focal length of approximately 2.3 cm, provides most of the focusing power of the eye. The lens, which is a converging lens with a focal length of about 6.4 cm, provides the finer focus needed to produce a clear image on the retina. The cornea and lens can be treated as a single thin lens, even though the light rays pass through several layers of material (such as cornea, aqueous humor, several layers in the lens, and vitreous humor), changing direction at each interface. The image formed is much like the one produced by a single convex lens (i.e., a real, inverted image). Although images formed in the eye are inverted, the brain inverts them once more to make them seem upright.

Material	Index of Refraction
Water	1.33
Air	1.0
Cornea	1.38
Aqueous humor	1.34
Lens	1.41^*
Vitreous humor	1.34

Table2.1 Refractive Indices Relevant to the Eye *This is an average value. The actual index of refraction varies throughout the lens and is greatest in center of the lens.

Source: CNX OpenStax

Additional Materials (5)

Human Eye

Rhcastilhos

0:57

How the Eye Works and Glaucoma

EyeSmart — American Academy of Ophthalmology/YouTube

Structure of the Eye

CNX Openstax

Glaucoma Eye after treated with Trabectome – Occular Humor Flow.

Tun Soe

Eye Anatomy

Openstax

Vitreous Humor

(a) The human eye is shown in cross section. (b) A blowup shows the layers of the retina.

Image by OpenStax College

Vitreous Humor

The watery material inside of the eyeball is called the vitreous humor. Unlike the conjunctiva, it is protected from contact with the environment and is almost always sterile, with no normal microbiota.

Some microbes live on the conjunctiva of the human eye, but the vitreous humor is sterile.

Source: CNX OpenStax

Additional Materials (5)

Three Main Layers of the Eye

Artwork by Holly Fischer/Wikimedia

Flow of aqueous humour eye

National Eye Institute, National Institutes of Health

Vitreous Humor - This image focuses on the three internal layers of the eye.

Artwork by Holly Fischer

Aqueous Humor

TheVisualMD

Glaucoma Eye after treated with Trabectome – Occular Humor Flow.

Tun Soe

Conjunctiva

3D Medical Animation Eye Structure

Image by https://www.scientificanimations.com/Wikimedia

Conjunctiva

Vision is the special sense of sight that is based on the transduction of light stimuli received through the eyes. The eyes are located within either orbit in the skull. The bony orbits surround the eyeballs, protecting them and anchoring the soft tissues of the eye (Figure 14.13). The eyelids, with lashes at their leading edges, help to protect the eye from abrasions by blocking particles that may land on the surface of the eye. The inner surface of each lid is a thin membrane known as the palpebral conjunctiva. The conjunctiva extends over the white areas of the eye (the sclera), connecting the eyelids to the eyeball. Tears are produced by the lacrimal gland, located just inside the orbit, superior and lateral to the eyeball. Tears produced by this gland flow through the lacrimal duct to the medial corner of the eye, where the tears flow over the conjunctiva, washing away foreign particles.

Figure 14.13 The Eye in the Orbit The eye is located within the orbit and surrounded by soft tissues that protect and support its function. The orbit is surrounded by cranial bones of the skull.

Source: CNX OpenStax

Additional Materials (9)

Schematic diagram of the human eye

Schematic diagram of the human eye

Image by Rhcastilhos. And Jmarchn

Cornea

Structures involved in tear production.

Image by National Eye Institute, National Institutes of Health

Eye Anatomy Sectional

Sectional Anatomy of the Eye

Image by Blausen.com staff (2014). "Medical gallery of Blausen Medical 2014"

A 3D medical animation still shot depicting cornea, iris, lens, retina & choroid.

A 3D medical animation still shot depicting cornea, iris, lens, retina & choroid.

Image by https://www.scientificanimations.com

Subconjunctival hemorrhage

Subconjunctival hemorrhage eye. Broken blood vessel.

Image by Daniel Flather

Pars Plana

Diagram of the front of the eye. 1. tendon, 2. ciliary body , 2nd. Ciliary processes , 2b. Ring or ciliary pars plana , 3. hindquarters , 4. Iris , 5. Pupil 6. Cornea 7. anterior chamber 8. System trabecular and Schlemm's canal . 9. conjunctiva . 10. zonule ciliary or suspensory ligament of the lens , 11. Ora serrata Anatomy of the Human Eye

Image by Jordi March i Nogue

Human Eye

Detailed Illustration of the cross section of the Human Eye - 1:posterior segment of eyeball 2:ora serrata 3:ciliary muscle 4:ciliary zonules 5:canal of Schlemm 6:pupil 7:anterior chamber 8:cornea 9:iris 10:lens cortex 11:lens nucleus 12:ciliary process 13:conjunctiva 14:inferior oblique muscle 15:inferior rectus muscle 16:medial rectus muscle 17:retinal arteries and veins 18:optic disc19:dura mater 20:central retinal artery 21:central retinal vein 22:optic nerve 23:vorticose vein 24:bulbar sheath 25:macula 26:fovea 27:sclera 28:choroid 29:superior rectus muscle 30:retina

Image by Chabacano

Ocular

Image by Sam Bald

The refraction of light rays as they pass from one medium to another (a), such as through the cornea and lens (b)

The refraction of light rays as they pass from one medium to another (a), such as through the cornea and lens (b)

Image by Cenveo

Schematic diagram of the human eye

Rhcastilhos. And Jmarchn

Cornea

National Eye Institute, National Institutes of Health

Eye Anatomy Sectional

Blausen.com staff (2014). "Medical gallery of Blausen Medical 2014"

A 3D medical animation still shot depicting cornea, iris, lens, retina & choroid.

https://www.scientificanimations.com

Subconjunctival hemorrhage

Daniel Flather

Pars Plana

Jordi March i Nogue

Human Eye

Chabacano

Ocular

Sam Bald

The refraction of light rays as they pass from one medium to another (a), such as through the cornea and lens (b)

Cenveo

Muscles of the Eye

Muscle of Human Eye

Image by TheVisualMD

Muscles of the Eye

Figure 14.13 The Eye in the Orbit The eye is located within the orbit and surrounded by soft tissues that protect and support its function. The orbit is surrounded by cranial bones of the skull.

Movement of the eye within the orbit is accomplished by the contraction of six extraocular muscles that originate from the bones of the orbit and insert into the surface of the eyeball (Figure 14.14). Four of the muscles are arranged at the cardinal points around the eye and are named for those locations. They are the superior rectus, medial rectus, inferior rectus, and lateral rectus. When each of these muscles contract, the eye moves toward the contracting muscle. For example, when the superior rectus contracts, the eye rotates to look up. The superior oblique originates at the posterior orbit, near the origin of the four rectus muscles. However, the tendon of the oblique muscles threads through a pulley-like piece of cartilage known as the trochlea. The tendon inserts obliquely into the superior surface of the eye. The angle of the tendon through the trochlea means that contraction of the superior oblique rotates the eye laterally. The inferior oblique muscle originates from the floor of the orbit and inserts into the inferolateral surface of the eye. When it contracts, it laterally rotates the eye, in opposition to the superior oblique. Rotation of the eye by the two oblique muscles is necessary because the eye is not perfectly aligned on the sagittal plane. When the eye looks up or down, the eye must also rotate slightly to compensate for the superior rectus pulling at approximately a 20-degree angle, rather than straight up. The same is true for the inferior rectus, which is compensated by contraction of the inferior oblique. A seventh muscle in the orbit is the levator palpebrae superioris, which is responsible for elevating and retracting the upper eyelid, a movement that usually occurs in concert with elevation of the eye by the superior rectus (see Figure 14.13).

The extraocular muscles are innervated by three cranial nerves. The lateral rectus, which causes abduction of the eye, is innervated by the abducens nerve. The superior oblique is innervated by the trochlear nerve. All of the other muscles are innervated by the oculomotor nerve, as is the levator palpebrae superioris. The motor nuclei of these cranial nerves connect to the brain stem, which coordinates eye movements.

Figure 14.14 Extraocular Muscles The extraocular muscles move the eye within the orbit.

The eye itself is a hollow sphere composed of three layers of tissue. The outermost layer is the fibrous tunic, which includes the white sclera and clear cornea. The sclera accounts for five sixths of the surface of the eye, most of which is not visible, though humans are unique compared with many other species in having so much of the “white of the eye” visible (Figure 14.15). The transparent cornea covers the anterior tip of the eye and allows light to enter the eye. The middle layer of the eye is the vascular tunic, which is mostly composed of the choroid, ciliary body, and iris. The choroid is a layer of highly vascularized connective tissue that provides a blood supply to the eyeball. The choroid is posterior to the ciliary body, a muscular structure that is attached to the lens by suspensory ligaments, or zonule fibers. These two structures bend the lens, allowing it to focus light on the back of the eye. Overlaying the ciliary body, and visible in the anterior eye, is the iris—the colored part of the eye. The iris is a smooth muscle that opens or closes the pupil, which is the hole at the center of the eye that allows light to enter. The iris constricts the pupil in response to bright light and dilates the pupil in response to dim light. The innermost layer of the eye is the neural tunic, or retina, which contains the nervous tissue responsible for photoreception.

The eye is also divided into two cavities: the anterior cavity and the posterior cavity. The anterior cavity is the space between the cornea and lens, including the iris and ciliary body. It is filled with a watery fluid called the aqueous humor. The posterior cavity is the space behind the lens that extends to the posterior side of the interior eyeball, where the retina is located. The posterior cavity is filled with a more viscous fluid called the vitreous humor.

The retina is composed of several layers and contains specialized cells for the initial processing of visual stimuli. The photoreceptors (rods and cones) change their membrane potential when stimulated by light energy. The change in membrane potential alters the amount of neurotransmitter that the photoreceptor cells release onto bipolar cells in the outer synaptic layer. It is the bipolar cell in the retina that connects a photoreceptor to a retinal ganglion cell (RGC) in the inner synaptic layer. There, amacrine cells additionally contribute to retinal processing before an action potential is produced by the RGC. The axons of RGCs, which lie at the innermost layer of the retina, collect at the optic disc and leave the eye as the optic nerve (see Figure 14.15). Because these axons pass through the retina, there are no photoreceptors at the very back of the eye, where the optic nerve begins. This creates a “blind spot” in the retina, and a corresponding blind spot in our visual field.

Source: CNX OpenStax

Additional Materials (8)

Human Eye

Detailed Illustration of the cross section of the Human Eye - 1:posterior segment of eyeball 2:ora serrata 3:ciliary muscle 4:ciliary zonules 5:canal of Schlemm 6:pupil 7:anterior chamber 8:cornea 9:iris 10:lens cortex 11:lens nucleus 12:ciliary process 13:conjunctiva 14:inferior oblique muscle 15:inferior rectus muscle 16:medial rectus muscle 17:retinal arteries and veins 18:optic disc19:dura mater 20:central retinal artery 21:central retinal vein 22:optic nerve 23:vorticose vein 24:bulbar sheath 25:macula 26:fovea 27:sclera 28:choroid 29:superior rectus muscle 30:retina

Image by Chabacano

Sensitive content

This media may include sensitive content

Muscle and Nerve of Human Eye

3D visualization of the nerves associated with the human eye. Several different nerve types serve the special functions of the structures associated with sight. The optic nerves are paired bundles of fibers that send visual signals from the retina to the brain. The oculomotor, trochlear and abducent nerves control voluntary movements of the eye muscles and eyelids in addition to controlling pupil dilation and lens focusing.

Image by TheVisualMD

Eye orbit anatomy

Normal anatomy of the human eye and orbit, anterior view.

Image by Patrick J. Lynch, medical illustrator

Human Eye

Eye and orbit anatomy with motor nerves

Image by Patrick J. Lynch, medical illustrator

Human Eye

Eye in The Orbit

Image by OpenStax College

Over 150 million Americans live with a refractive error of the eye

According to the National Eye Institute, more than 150 million Americans live with some kind of refractive error — though many are unaware their sight could be improved (hence, the importance of eye exams). This common eye condition happens when the eye’s shape stops light from properly focusing on the back of the eye, leading to blurry vision (among other issues).

Image by StoryMD

Orbicularis Oculi Muscle

Muscles of the human eye. Computer generated image based on segmented human data. The orbicularis oculi muscle is arranged circularly and functions to close the eyelids and dilate the tear glands.

Image by TheVisualMD

Human Eye

Detailed Illustration of the Anatomy of the Human Eye

Image by A Hoofring ncbi/nlm/nih

Human Eye

Chabacano

Sensitive content

This media may include sensitive content

Muscle and Nerve of Human Eye

TheVisualMD

Eye orbit anatomy

Patrick J. Lynch, medical illustrator

Human Eye

Patrick J. Lynch, medical illustrator

Human Eye

OpenStax College

Over 150 million Americans live with a refractive error of the eye

StoryMD

Orbicularis Oculi Muscle

TheVisualMD

Human Eye

A Hoofring ncbi/nlm/nih

cornea

Structures of the Eye and Cornea

Image by National Eye Institute (NEI) National Institutes of Health (NIH)

What Are the Parts of The Cornea?

Although the cornea may look clear and seem to lack substance, it is a highly organized tissue. Unlike most tissues in the body, the cornea contains no blood vessels to nourish or protect it against infection. Instead, the cornea receives its nourishment from tears and the aqueous humor (a fluid in the front part of the eye that lies behind the cornea).

The tissues of the cornea are arranged in three basic layers, with two thinner layers, or membranes, between them. Each of these five layers has an important function. These layers are:

Epithelium

The epithelium is the cornea’s outermost layer. Its primary functions are to:

block the passage into the eye of foreign material, such as dust, water, and bacteria; and
provide a smooth surface to absorb oxygen and nutrients from tears, which are then distributed to the other layers of the cornea.

The epithelium is filled with thousands of tiny nerve endings, which is why your eye may hurt when it is rubbed or scratched. The part of the epithelium that epithelial cells anchor and organize themselves to is called the basement membrane.

Bowman’s membrane

The next layer behind the basement membrane of the epithelium is a transparent film of tissue called Bowman’s layer, composed of protein fibers called collagen. If injured, Bowman’s layer can form a scar as it heals. If these scars are large and centrally located, they may cause vision loss.

Stroma

Behind Bowman’s layer is the stroma, which is the thickest layer of the cornea. It is composed primarily of water and collagen. Collagen gives the cornea its strength, elasticity, and form. The unique shape, arrangement, and spacing of collagen proteins are essential in producing the cornea’s light-conducting transparency.

Descemet's Membrane

Behind the stroma is Descemet’s membrane, a thin but strong film of tissue that serves as a protective barrier against infection and injuries. Descemet’s membrane is composed of collagen fibers that are different from those of the stroma, and are made by cells in the endothelial layer of the cornea (see above). Descemet’s membrane repairs itself easily after injury.

Endothelium

The endothelium is the thin, innermost layer of the cornea. Endothelial cells are important in keeping the cornea clear. Normally, fluid leaks slowly from inside the eye into the stroma. The endothelium’s primary task is to pump this excess fluid out of the stroma. Without this pumping action, the stroma would swell with water and become thick and opaque.

In a healthy eye, a perfect balance is maintained between the fluid moving into the cornea and the fluid pumping out of the cornea. Unlike the cells in Descemet’s membrane, endothelial cells that have been destroyed by disease or trauma are not repaired or replaced by the body.

Source: National Eye Institute (NEI)

Additional Materials (4)

Cornea

Paul Savage

"CORNEA UNIVERSE"

Anselmuccifederico/Wikimedia

13:57

Eye Works 1: Focusing: Cornea, Iris and Lens

Craig Blackwell/YouTube

The localization of limbal epithelial stem cells and the anatomy of the cornea

Yue Ruan, Subao Jiang, Aytan Musayeva, Norbert Pfeiffer and Adrian Gericke/Wikimedia

Lens in the Eye

Eye Anatomy

Image by Openstax

Lens in the Eye

A clear disk that focuses light, as in a camera or microscope. In the eye, the lens is a clear, curved structure at the front of the eye behind the pupil. It focuses light rays that enter the eye through the pupil, making an image on the retina (light-sensitive layers of nerve tissue at the back of the eye).

Source: PubMed Health Glossary (Source: NIH - National Cancer Institute)

Additional Materials (6)

Human Eye with Visible Retina, cilia, lens, Uvea, optic nerve, sclera, cornea

TheVisualMD

Lens (anatomy)

Remember the dot at English Wikipedia

1:43

Lens Accommodation

Catalina McKay/YouTube

Eye Lens

Mark Fickett

Accommodation of the lens with distant and near vision.

Cenveo

Lens (optics)

Oleg Alexandrov

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