Ophthalmoscopic Examination

JoVE Science Education
Physical Examinations II
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JoVE Science Education Physical Examinations II
Ophthalmoscopic Examination

64,357 Views

07:44 min

April 30, 2023

Vue d'ensemble

Source: Richard Glickman-Simon, MD, Assistant Professor, Department of Public Health and Community Medicine, Tufts University School of Medicine, MA

The simplest ophthalmoscopes consist of an aperture to look through, a diopter indicator, and a disc for selecting lenses. The ophthalmoscope is primarily used to examine the fundus, or the inner wall of the posterior eye, which consists of the choroid, retina, fovea, macula, optic disc, and retinal vessels (Figure 1). The spherical eyeball collects and focuses light on the neurosensory cells of the retina. Light is refracted as it passes sequentially through the cornea, the lens, and the vitreous body.

The first landmark observed during the funduscopic exam is the optic disc, which is where the optic nerve and retinal vessels enter the back of the eye (Figure 2). The disc usually contains a central whitish physiologic cup where the vessels enter; it normally occupies less than half the diameter of the entire disc. Just lateral and slightly inferior is the fovea, a darkened circular area that demarcates the point of central vision. Around this is the macula. A blind spot approximately 15° temporal to the line of gaze results from a lack of photoreceptor cells at the optic disc.

Figure 1
Figure 1. Anatomy of the eye. A diagram showing a sagittal view of the human eye with the structures labeled.

Figure 2
Figure 2: Normal retina. A photograph showing an ophthalmoscopic view on the normal retina.

Procédure

Since mydriatic eye drops are typically not used in general practice, the view of the fundus is limited to only a section of the posterior retina. Be familiar with these features before attempting to examine the patient.

  1. Unless the patient's refractive errors make it difficult to focus on the retina, it is usually best to remove your own eyeglasses for the exam.
  2. After darkening the room, turn on the ophthalmoscope and shine the light on your hand or on the wall.
  3. Turn the lens disc until the largest white circle of light can be seen, and the diopter indicator reads 0, meaning the ophthalmoscope lens is neither converging nor dispersing the light.
  4. Keep your index finger on the lens disc during the exam, so the diopters can be adjusted as necessary to focus in on the retinal structures.
  5. To examine the patient's right eye, hold the ophthalmoscope in your right hand and look through the aperture with your right eye; to exam the patient's left eye, hold the ophthalmoscope in your left hand and look through the aperture with your left eye. This avoids bumping noses with the patient.
  6. Position yourself about a foot from the patient at eye level, and ask the patient to stare at a spot on the wall just over your shoulder.
  7. As you peer through the aperture, keep both eyes opened, press the ophthalmoscope firmly against your bony orbit, and hold the handle at a slight angle away from the patient's face.
  8. Position the ophthalmoscope about 15° lateral to the patient's line of vision. Direct the light to the pupil and look for an orange-red glow. This is the red reflex. Note any opacity that seems to interfere.
  9. Stay focused on the red reflex, and move the ophthalmoscope inward along the 15° line until you are almost on top of the patient's eye. While doing this, the optic disc and retinal vessels should come into sharp focus. The disc appears as a yellow, orange, or pinkish oval that largely fills the field of view.
  10. If the disc isn't seen right away, identify a blood vessel and follow it toward the disc. It appears to get wider if you are going in the right direction. The light may need to be dimmed in order to keep the patient comfortable and to avoid spasmodic constriction of the pupil.
  11. If the disc appears out of focus, try adjusting the diopters by rotating the lens disc one or two settings in the positive or negative direction. The retina only appears perfectly sharp if neither you nor the patient have refractive errors.
  12. Carefully examine the disc for outline clarity, color, relative size of the yellowish-white central cup, and symmetry with the contralateral eye. White or darkly pigmented rings and crescents are often seen around the disc and have no pathologic significance.
  13. Follow the retinal vessels as they extend away from the disc in all four directions. Veins appear redder and wider than arteries.
  14. Look for spontaneous venous pulsations, which appear as subtle variations in the width of the veins with each heartbeat. It's possible to discern subtle pulsations of the veins.
  15. Make special note of arteriovenous (AV) crossings. Since the walls of the normal retinal arteries are transparent, only the column of blood is visible within. Veins crossing behind arteries, therefore, are normally seen right up to the column on either side.
  16. Look for any lesions elsewhere in the retina, noting their size.
  17. Examine the fovea and surrounding macula by asking the patient to look directly into the light. The macula often appears to shimmer.
  18. Finally, look for opacities in the lens by adjusting the diopters between 10+ and 12+.
  19. If the image is lost while searching the retina, it means the light fell out of the pupil as the ophthalmoscope was moved. It takes some practice to keep it inside.

The ophthalmoscopic examination is one of the most important parts of the physical exam. If conducted properly, it can be used as a tool to not only assess the patients’ eyes but also their overall health. The simplest ophthalmoscope consists of a light source with a dimmer for adjusting the brightness, an aperture to look through, a disc for selecting lenses of different diopters and a diopter indicator that displays the power of the lens to focus light.

A diopter of zero means that the ophthalmoscope lens is neither converging nor diverging the light passing through it. Turning the dial counterclockwise toward negative, or red, diopter settings is useful in myopic or nearsighted patients whose retina lies closer than normal to the ophthalmoscope. Conversely, turning the dial clockwise toward positive, or green, diopter settings is useful in hyperopic or farsighted patients whose retina lies farther than normal from the ophthalmoscope.

This video will review the important landmarks that a physician should look for during an ophthalmoscopic inspection as well as provide the steps needed to conduct an effective examination.

Let’s start with the landmarks. The ophthalmoscope is primarily used to examine the fundus, which is the portion of the posterior wall of the eye where visual processing primarily takes place. Therefore, the exam is also known as the fundoscopic exam.

The fundus consists of the choroid, retina, fovea, macula, optic disc, and retinal vessels. The first anatomical landmark that you should notice when viewing the fundus is the optic disc, which is where the optic nerve and retinal vessels enter the back of the eye. The disc usually contains a central whitish physiologic cup where the vessels enter. The cup normally occupies less than half the diameter of the entire disc. Just lateral and slightly inferior to the optic disc is the fovea, a darkened circular area that demarcates the point of central vision. Around the fovea is the macula, which appears as an oval-shaped pigmented area.

Now that we have an understanding of the landmarks, let’s review the procedural steps needed to effectively carry out fundus evaluation. Upon entering the examination room, greet your patient and explain the procedure briefly. As with any examination, wash your hands thoroughly or apply topical disinfectant solution before proceeding. Unless the patient’s refractive errors make it difficult to focus on the retina, it is usually best to remove your own eyeglasses for the exam.

Turn on the ophthalmoscope to its brightest setting. Remove any filters by adjusting the filter setting until the largest white disc appears. Turn the diopter indicator to zero. Be sure to keep your index finger on the lens disc during the exam, so the diopters can be adjusted as necessary to focus in on retinal structures. Position yourself about a foot away from the patient, making sure that your eye and the patient’s eye are at the same level. Ask the patient to stare at a spot on the wall just over your shoulder…

To examine the patient’s right eye, hold the ophthalmoscope in your right hand and look through the aperture with your right eye. As you peer through the aperture, keep both eyes opened. Press the ophthalmoscope firmly against your bony orbit and hold the handle at a slight angle away from the patient’s face. Placing your opposite thumb on the patient’s eyebrow will prevent you from bumping the ophthalmoscope against the patient’s orbit during the exam.

Position the ophthalmoscope about 15° laterally to the patient’s line of vision. Direct the ophthalmoscope’s light to the patient’s pupil and look for an orange-red glow, which is known as the red reflex. Be sure to note any opacities that seem to interfere. As you remain focused on the red reflex, move the ophthalmoscope inward along the 15° line until you are almost on top of the patient’s eye. If the image appears out of focus, try adjusting the diopters by rotating the lens disc one or two settings in the positive or negative direction. After adjustment, the optic disc and retinal vessels should come into sharp focus.

The disc appears as a yellow, orange, or pinkish oval that largely fills the field of view. Sometimes the disc isn’t visible right away; in that case, identify a blood vessel and follow it towards the disc. You will know you are going in the right direction if the blood vessel appears to get wider. Keep in mind, the ophthalmoscope’s light may need to be dimmed in order to keep the patient comfortable and to avoid the spasmodic constriction of the pupil.

Carefully examine the disc for color, outline clarity, relative size of central cup, and symmetry with the contralateral eye. White or dark pigmented rings and crescents are often seen around the disc and have no pathologic significance. Then, follow the retinal vessels as they extend away from the disc in all four directions. Veins will appear redder and wider than arteries. As you follow the retinal vessels, look for spontaneous venous pulsations, which appear as subtle variations in the width. Take special note of arteriovenous crossings and look for any lesions in the retina, noting their size, shape and location. If the image is lost while searching the retina, it means the light fell out of the pupil as the ophthalmoscope was moved. It takes some practice to keep the light inside.

Next, ask the patient to look directly into the light of the ophthalmoscope to examine the fovea and the surrounding macula. The macula often appears to shimmer. Finally, look for opacities in the lens by adjusting the diopters to a point between 10 positive and 12 positive. To examine the patient’s left eye, perform the same steps while holding the ophthalmoscope in your left hand and looking through the aperture with your left eye.

You have just watched a JoVE video documenting an ophthalmologic examination. You should now know the important landmarks in the fundus of the eye viewed during this exam and understand the systematic sequence of steps that every physician should follow in order to conduct an effective ophthalmologic assessment. As always, thanks for watching!

Applications and Summary

The ophthalmologic exam is probably the most challenging for students to master. With time, however, it becomes routine. It is also one of the most productive parts of the physical exam, as it not only offers a window into the condition of the eye, but also provides evidence of disease elsewhere in the body. Elevated intracranial pressure from a variety of causes may lead to swelling of the optic nerve, which appears as papilledema on a funduscopic exam. In papilledema, the optic disc is swollen, its margins are blurred, the central cup is lost, and venous pulsations are absent. Papilledema signals a serious, life-threatening condition. Death of optic nerve fibers, which can occur in disorders such as optic neuritis, multiple sclerosis, and temporal arteritis, causes the disc to atrophy and lose its smaller blood vessels. Uncontrolled hypertension leads to "copper wiring" of thickened arterial walls in the retina, causing them to appear less transparent. Veins crossing these arteries seem to stop abruptly before reaching either side, a condition called AV nicking. Other signs to look for in hypertensive retinopathy are hard exudates and cotton-wool patches, which result from infarcted nerve fibers. In patients with diabetes, the retina may reveal microaneurysms, hemorrhages, and neovascularization.

Common eye diseases observable on a funduscopic exam include glaucoma and macular degeneration. In glaucoma, increased intraocular pressure may cause the central cup of optic disc to deepen and widen, so it occupies greater than half of the disc diameter. In age-related macular degeneration (AMD), patches of hyperpigmentation and deposits composed of cellular debris, called drusen, can be seen scattered throughout the retina (particularly in the macula). In more severe stages, choroidal neovascularization is visible in the neovascular ("wet") form of AMD, whereas depigmentation and loss of the choriocapillaris are visible in the advanced atropic ("dry") form of AMD (also known as geographic atrophy). Cataracts can be more thoroughly examined by focusing the ophthalmoscope on opacified lenses.

Transcription

The ophthalmoscopic examination is one of the most important parts of the physical exam. If conducted properly, it can be used as a tool to not only assess the patients’ eyes but also their overall health. The simplest ophthalmoscope consists of a light source with a dimmer for adjusting the brightness, an aperture to look through, a disc for selecting lenses of different diopters and a diopter indicator that displays the power of the lens to focus light.

A diopter of zero means that the ophthalmoscope lens is neither converging nor diverging the light passing through it. Turning the dial counterclockwise toward negative, or red, diopter settings is useful in myopic or nearsighted patients whose retina lies closer than normal to the ophthalmoscope. Conversely, turning the dial clockwise toward positive, or green, diopter settings is useful in hyperopic or farsighted patients whose retina lies farther than normal from the ophthalmoscope.

This video will review the important landmarks that a physician should look for during an ophthalmoscopic inspection as well as provide the steps needed to conduct an effective examination.

Let’s start with the landmarks. The ophthalmoscope is primarily used to examine the fundus, which is the portion of the posterior wall of the eye where visual processing primarily takes place. Therefore, the exam is also known as the fundoscopic exam.

The fundus consists of the choroid, retina, fovea, macula, optic disc, and retinal vessels. The first anatomical landmark that you should notice when viewing the fundus is the optic disc, which is where the optic nerve and retinal vessels enter the back of the eye. The disc usually contains a central whitish physiologic cup where the vessels enter. The cup normally occupies less than half the diameter of the entire disc. Just lateral and slightly inferior to the optic disc is the fovea, a darkened circular area that demarcates the point of central vision. Around the fovea is the macula, which appears as an oval-shaped pigmented area.

Now that we have an understanding of the landmarks, let’s review the procedural steps needed to effectively carry out fundus evaluation. Upon entering the examination room, greet your patient and explain the procedure briefly. As with any examination, wash your hands thoroughly or apply topical disinfectant solution before proceeding. Unless the patient’s refractive errors make it difficult to focus on the retina, it is usually best to remove your own eyeglasses for the exam.

Turn on the ophthalmoscope to its brightest setting. Remove any filters by adjusting the filter setting until the largest white disc appears. Turn the diopter indicator to zero. Be sure to keep your index finger on the lens disc during the exam, so the diopters can be adjusted as necessary to focus in on retinal structures. Position yourself about a foot away from the patient, making sure that your eye and the patient’s eye are at the same level. Ask the patient to stare at a spot on the wall just over your shoulder…

To examine the patient’s right eye, hold the ophthalmoscope in your right hand and look through the aperture with your right eye. As you peer through the aperture, keep both eyes opened. Press the ophthalmoscope firmly against your bony orbit and hold the handle at a slight angle away from the patient’s face. Placing your opposite thumb on the patient’s eyebrow will prevent you from bumping the ophthalmoscope against the patient’s orbit during the exam.

Position the ophthalmoscope about 15° laterally to the patient’s line of vision. Direct the ophthalmoscope’s light to the patient’s pupil and look for an orange-red glow, which is known as the red reflex. Be sure to note any opacities that seem to interfere. As you remain focused on the red reflex, move the ophthalmoscope inward along the 15° line until you are almost on top of the patient’s eye. If the image appears out of focus, try adjusting the diopters by rotating the lens disc one or two settings in the positive or negative direction. After adjustment, the optic disc and retinal vessels should come into sharp focus.

The disc appears as a yellow, orange, or pinkish oval that largely fills the field of view. Sometimes the disc isn’t visible right away; in that case, identify a blood vessel and follow it towards the disc. You will know you are going in the right direction if the blood vessel appears to get wider. Keep in mind, the ophthalmoscope’s light may need to be dimmed in order to keep the patient comfortable and to avoid the spasmodic constriction of the pupil.

Carefully examine the disc for color, outline clarity, relative size of central cup, and symmetry with the contralateral eye. White or dark pigmented rings and crescents are often seen around the disc and have no pathologic significance. Then, follow the retinal vessels as they extend away from the disc in all four directions. Veins will appear redder and wider than arteries. As you follow the retinal vessels, look for spontaneous venous pulsations, which appear as subtle variations in the width. Take special note of arteriovenous crossings and look for any lesions in the retina, noting their size, shape and location. If the image is lost while searching the retina, it means the light fell out of the pupil as the ophthalmoscope was moved. It takes some practice to keep the light inside.

Next, ask the patient to look directly into the light of the ophthalmoscope to examine the fovea and the surrounding macula. The macula often appears to shimmer. Finally, look for opacities in the lens by adjusting the diopters to a point between 10 positive and 12 positive. To examine the patient’s left eye, perform the same steps while holding the ophthalmoscope in your left hand and looking through the aperture with your left eye.

You have just watched a JoVE video documenting an ophthalmologic examination. You should now know the important landmarks in the fundus of the eye viewed during this exam and understand the systematic sequence of steps that every physician should follow in order to conduct an effective ophthalmologic assessment. As always, thanks for watching!