Using a phoropter to determine a prescription for eyeglasses

An eyeglass prescription is a written order by an ophthalmologist or an optometrist to an optician for eyeglasses. It specifies the refractive power to which the eyeglasses are to be made in order to correct blurred vision due to refractive errors, including myopia, hyperopia, astigmatism, and presbyopia. It is typically determined using a phoropter or an automated refractor. Image File history File linksMetadata Download high-resolution version (1296x976, 542 KB)Rig used to determine vision prescription. ... Image File history File linksMetadata Download high-resolution version (1296x976, 542 KB)Rig used to determine vision prescription. ... A refractor in use The name and shape of the PHOROPTOR® is a registered trademark of Reichert, Inc. ... Ophthalmology is the branch of medicine which deals with the diseases of the eye and their treatment. ... Optometrists are primary care practitioners for vision and ocular health concerns. ... An optician is an individual who makes and adjusts optical aids. ... Glasses, spectacles, or eyeglasses are frames bearing lenses worn in front of the eyes, sometimes for purely aesthetic reasons but normally for vision correction or eye protection. ... This does not cite any references or sources. ... Refraction error is an error in the focussing of light by the human eye. ... Normal vision. ... Hyperopia, also known as hypermetropia or colloquially as farsightedness or longsightedness, is a defect of vision caused by an imperfection in the eye (often when the eyeball is too short or when the lens cannot become round enough), causing inability to focus on near objects, and in extreme cases causing... Astigmatism is an affliction of the eye, where vision is blurred by an irregularly shaped cornea. ... Presbyopia (Greek word presbyteros (πρεσβύτερος), meaning elder) is the eyes diminished ability to focus that occurs with aging. ... A refractor in use The name and shape of the PHOROPTOR® is a registered trademark of Reichert, Inc. ... An automated refractor is a computer-controlled machine used during an eye examination to provide an objective measurement of a persons refractive error and prescription for glasses or contact lenses. ...

Abbreviations and terms

Similar to medical prescriptions, eyeglass prescriptions are written on paper pads that frequently contain a number of different abbreviations and terms: Image of an eyeglass prescription Image of my own eyeglass prescription. ... A medical prescription ) is an order (often in written form) by a qualified health care professional to a pharmacist or other therapist for a treatment to be provided to their patient. ...

• D.V. is an abbreviation for "distance vision". This specifies the part of the prescription designed primarily to improve far vision. In a bifocal lens, this generally indicates what is to be placed in the top segment.

• N.V. is an abbreviation for "near vision". This may represent a single-vision lens prescription to improve near work, or the reading portion of a bifocal lens.

• O.D. is an abbreviation for oculus dexter, Latin for "right eye." (Some eyeglass prescriptions simply say "left" and "right" instead of "O.S." and "O.D.") Oculus means "eye" (as in "oculist," an old term for an eye doctor).

• O.S. is an abbreviation for oculus sinister, Latin for "left eye".

• O.U. is an abbreviation for oculi uterque, Latin for "both eyes".

• A spherical correction corrects the refractive error of the eye by adding or subtracting refractive strength symmetrically, by the same amount, along the horizontal and vertical axis.

• A cylindrical correction corrects the refractive error of the eye by adding or subtracting strength along the horizontal axis, the vertical axis, or a diagonal axis.

• The Axis is the horizontal, vertical or diagonal angle of the cylindrical correction. The axis is measured in a clock face that starts with zero degrees in the 9 o'clock (or east) direction, and increases through 90 and 180 degrees in a counter-clockwise direction.

Most eyeglass prescriptions will contain values here. The "spherical" and "cylindrical" columns contain lens strengths in diopters (see below); "axis" contains the direction of the cylinder axis in degrees. Latin is an ancient Indo-European language originally spoken in Latium, the region immediately surrounding Rome. ... A dioptre, or diopter, is a non-SI unit of measurement of the optical power of a lens or curved mirror, which is equal to the reciprocal of the focal length measured in metres (i. ...

• Prism and Base are usually left empty; they refer to prescription features that are used to treat muscular imbalance or other conditions that cause errors in eye orientation, and are not seen in most prescriptions.

• PD is the distance between pupils, or Pupillary Distance, usually given in millimeters, and written as two values if the prescription is for bifocals or progressive lenses - these are the pupillary distances for the upper and lower lens. They differ due to pupillary convergence when looking down.

Pupillary Distance (PD) is the distance (usually in millimeters) between the centers of the pupils in each eye. ... In ophthalmology, convergence is the simultaneous inward movement of both eyes toward each other, usually in an effort to maintain single binocular vision when viewing an object ^ . It is a type of vergence eye movement. ...

Background

Blur is the subjective experience or perception of a defocus aberration within the eye. Blur may appear differently depending on the amount and type of refractive error. The following are some examples of blurred images that may result from refractive errors: In optics, defocus is the one aberration familiar to nearly everyone who has ever needed eyeglasses or used a camera, videocamera, microscope, telescope, or binoculars, as it simply means out of focus. ... // A human eye. ...

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Blur is corrected by focusing light on the retina. This may be done with eyeglasses or contact lenses, or by altering the shape of various eye structures via refractive surgery or special contact lenses. A soft contact lens A contact lens (also known as contact, for short) is a corrective or cosmetic lens placed on the cornea of the eye atop the iris. ... Refractive eye surgery is any eye surgery used to improve the refractive state of the eye and decrease dependency on glasses or contact lenses. ...

Eyeglasses sometimes have unwanted effects including magnification or minification, distortion, color fringes, altered depth perception, etc. Although many people think of lenses as magnifiers, the lenses within eyeglasses improve vision primarily by reducing blur. Depending on the optical setup, they may also produce magnfication or minification of images which may or may not be intentional or desirable.

Lens strength

The values indicated in the "sphere" and "cylinder" columns of an eyeglass prescription specify the optical power of the lenses in diopters, abbreviated D. The higher the number of diopters, the more the lens refracts or bends light. A diopter is the reciprocal of the focal length in meters. If a lens has a focal length of 1/3 meters, it is a 3 diopter lens. Optical power or dioptric power or refractive power is the degree to which a lens or mirror converges or diverges light. ... A dioptre (also diopter) is a unit of curvature equal to one per metre; that is, inverse metres, or 1/(metres). ...

A +10 diopter lens, which has a focal length of 10 centimeters, would make a good magnifying glass. Eyeglass lenses are usually much weaker, because eyeglasses do not work by magnifying; they work by correcting focus. The eye itself has a refractive power of 60 diopters.

Stacking lenses combines their strength. A +1 diopter lens combined with a +2 diopter lens forms a +3 diopter system.

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Lenses come in positive (plus) and negative (minus) powers. Given that a positive power lens will magnify an object and a negative power lens will minify it, it is often possible to tell whether a lens is positive or negative by looking through it. Magnification is the process of enlarging something only in appearance, not physical size. ... Minify, in computer programming languages, is the process of removing all unnecessary characters from source code, with out changing its functionality. ...

Positive eyeglass lenses can concentrate sunlight.

For a forthcoming article on eyeglass prescriptions File history Legend: (cur) = this is the current file, (del) = delete this old version, (rev) = revert to this old version. ... For a forthcoming article on eyeglass prescriptions File history Legend: (cur) = this is the current file, (del) = delete this old version, (rev) = revert to this old version. ... For a forthcoming article on eyeglass prescriptions File history Legend: (cur) = this is the current file, (del) = delete this old version, (rev) = revert to this old version. ... For a forthcoming article on eyeglass prescriptions File history Legend: (cur) = this is the current file, (del) = delete this old version, (rev) = revert to this old version. ...

This series of pictures shows the shadow cast by a pair of 1 diopter drugstore "reading glasses" outdoors in sunlight as we hold it farther and farther away from a wall. As the distance from the wall increases, the shadow of the frame seems to thicken and the bright area in the center gets smaller and brighter. It slowly changes from being "eyeglass-shaped" to circular.

Negative lenses spread sunlight instead of concentrating it.

A negative lens combined with a positive lens removes some of its strength. A -2 lens combined with a +5 lens forms a +3 diopter system.

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A -3 lens stacked on top of a +3 lens looks almost like flat glass, because the combined strength is 0.

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In science textbooks, positive lenses are usually diagrammed as convex on both sides; negative lenses are usually diagrammed as concave on both sides. In a real optical system, you usually get the best optical quality when most rays of light are roughly normal (i.e., at a right angle) to the lens surface. In the case of an eyeglass lens, this means that the lens should be roughly shaped like a cup with the hollow side toward the eye. So most eyeglass lenses are meniscus in shape.

Spherical lenses and spherical correction

Usually:

• the "spherical" component is the main correction
• the "cylindrical" component is "fine tuning."

Depending on the optical setup, lenses can act as magnifiers, lenses can introduce blur, and lenses can correct blur.

Whatever the setup, spherical lenses act equally in all meridians: they magnify, introduce blur, or correct blur the same amount in every direction.

An ordinary magnifying glass is a kind of spherical lens. In a simple spherical lens, each surface is a portion of a sphere. When a spherical lens acts as a magnifier, it magnifies equally in all meridians. Here, note that the magnified letters are magnified both in height and in width.

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Similarly, when a spherical lens puts an optical system out of focus and introduces blur, it blurs equally in all meridians:

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Here is how this kind of blur looks when viewing an eye chart. This kind of blur involves no astigmatism at all; it is equally blurred in all meridians. Astigmatism is an affliction of the eye, where vision is blurred by an irregularly shaped cornea. ...

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Amount of refractive error and degree of blur

Impression of Snellen chart as seen with varying amounts of refractive error The Snellen chart itself is believed to be in the public domain. ...

The leftmost image above shows a Snellen eye chart as it might be seen by a person who needs no correction, or by a person who is wearing eyeglasses or contacts that properly correct any refractive errors he or she may have. Traditional Snellen chart. ...

The images labelled 1D, 2D, and 3D give a very rough impression of the degree of blur that might be seen by someone who has one, two, or three diopters of refractive error. For example, a nearsighted person who needs a -2.0 diopter corrective lens will see something like the 2D image when viewing a standard eye chart at the standard 20-foot distance without glasses.

A very rough rule of thumb is that there is a loss of about one line on an eye chart for each additional 0.25 to 0.5 diopters of refractive error.

The top letter on many eye charts represents 20/200 vision. Many people cannot read even this top letter without glasses. The definition of legal blindness is not based on vision without glasses. The U. S. Social Security administration, for example, states that "we consider you to be legally blind if your vision cannot be corrected to better than 20/200 in your better eye." In other words, what matters in evaluating legal blindness, and for many other purposes, is corrected acuity—which line of the chart can be read with proper lenses. One purpose in which uncorrected vision makes a difference is for receiving a driver's licence that is good without lenses; a person who needs lenses may receive one that requires them to wear the said lenses.

Cylindrical lenses and cylindrical correction

Some kinds of magnifying glasses, made specifically for reading wide columns of print, are cylindrical lenses. For a simple cylindrical lens, the surfaces of the lens are portions of a cylinder's surface. Consider how this would refract light. When a cylindrical lens acts as a magnifier, it magnifies only in one direction. For example, the magnifier shown magnifies letters only in height, not in width.

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Similarly when a cylindrical lens puts an optical system out of focus and introduces blur, it blurs only in one direction.

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This is the kind of blur that results from uncorrected astigmatism. The letters are smeared out directionally, as if an artist had rubbed his or her thumb across a charcoal drawing. A cylindrical lens of the right strength can correct this kind of blur. When viewing an eye chart, this is how this kind of blur might appear:

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Compare it to the kind of blur that is equally blurred in all directions.

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When an eye doctor measures an eye—a procedure known as refraction—usually he or she begins by finding the best spherical correction. If there is astigmatism, the next step is to remove it by adding the right amount of cylindrical correction.

Axis

Spherical lenses just have a strength, such as +1.0D, or -2.5D.

Astigmatism, however, causes a directional blur. Here are two examples of the kind of blur you get from astigmatism. The letters are smeared out directionally, as if an artist had rubbed his or her thumb across a charcoal drawing.

A cylindrical lens of the right strength can correct this kind of blur. The second example is a little bit more blurred, and needs a stronger cylindrical lens.

But notice that in addition to being smeared more, the second example is smeared out in a different direction.

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A spherical lens is the same in all directions; you can turn it around, and it doesn't change the way it magnifies, or the way it blurs:

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For a forthcoming article on eyeglass prescriptions File links The following pages link to this file: Eyeglass prescription Categories: Images with unknown source ...

A cylindrical lens has both a strength and an axis. Turning it around so that the axis points in different directions changes the way it magnifies, and the way it blurs.

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The axis specification on a prescription gives the orientation of the axis of the cylindrical correction, and it can vary from 1 to 180 degrees:

Image created by myself, I licence it under GFDL. File history Legend: (cur) = this is the current file, (del) = delete this old version, (rev) = revert to this old version. ...

The total power of a cylindrical lens varies from zero along its main axis to its maximal value along the axis 90 degrees away. The total power of a lens with a spherical and cylindrical correction changes accordingly: along the axis specified on the prescription it is equal to the value listed under "spherical", and it reaches the sum of "spherical" and "cylindrical" along the axis perpendicular to the one listed on the prescription. Fig. ...

Distant vision and near vision

The DV portion of the prescription describes the corrections for distant vision. For most people under forty years of age, this is the only part of the prescription that is filled in. The NV or near-vision portion of the prescription is blank because a separate correction for near vision is not needed.

The NV portion is used in prescriptions for bifocals.

In younger people, the lens of the eye is still flexible enough to accommodate over a wide range of distances. With age, the lens hardens and becomes less and less able to accommodate.

This is called "presbyopia;" the "presby-" root means "old" or "elder." (It is the same root as in the words "priest" and "presbyterian.") Presbyopia (Greek word presbyteros (πρεσβύτερος), meaning elder) is the eyes diminished ability to focus that occurs with aging. ...

The hardening of the lens is a continuous process, not something that suddenly happens in middle age. It is occurring all along. All that happens around middle age is that the process progresses to the point where it starts to interfere with reading. Therefore almost everybody needs glasses for reading from the age of 40-45.

Because young children have a wider range of accommodation than adults, they sometimes examine objects by holding them much closer to the eye than an adult would. Light from a single point of a distant object and light from a single point of a near object being brought to a focus by changing the curvature of the lens. ...

This chart (which is approximate) shows that a schoolchild has over ten diopters of accommodation, while a fifty-year-old has only two. This means that a schoolchild is able to focus on an object about 10 cm. (4") from the eye, a task for which an adult needs a magnifying glass with a rated power of about 3.5X.

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The NV correction due to presbyopia can be predicted using the parameter age only. The accuracy of such a prediction is sufficient in many practical cases, especially when the total correction is less than 3 diopters. See also the following calculator for computing this correction.

Variations in prescription writing

There is a surprising amount of variation in the way prescriptions are written; the layout and terminology used is not uniform.

When no correction is needed, the spherical power will sometimes be written as "0.00" and sometimes as "Plano" or "Pl" because the lens, although not flat, is optically equivalent to a flat piece of glass.

When cylindrical correction is needed, the mathematics and optics of the way lenses combine mean that there are two different ways to write the same correction. One is called the plus-cylinder form and the other the minus-cylinder form. These two prescriptions are equivalent:

Both of them specify a power of 2.00 diopters at the 90 degree axis and 3.00 diopters at the 180 degree axis.

The first one specifies a 2.00 spherical component, which, by itself, would give a power of 2.00 diopters along both the 180 and 90 degree axis, and adds a 1.00 cylindrical component at 180 degrees (perpendicular to the axis listed on the prescription, as explained under Axis). The result is 2.00 diopters at 90 degrees and 2.00 + 1.00 = 3.00 diopters at 180 degrees. An eyeglass prescription is a written order by an ophthalmologist or an optometrist to an optician for eyeglasses. ...

The second specifies a 3.00 spherical component, which by itself would give a power of 3.00 diopters along both the 180 and 90 degree axis, and subtracts a 1.00 cylindrical component at 90 degrees. The result is 3.00 − 1.00 = 2.00 diopters at 90 degrees and 3.00 diopters at 180 degrees.

See also

• Visual acuity
• Corrective lens
• Lens (optics)
• Buy prescription Eyglasses

Traditional Snellen chart used for visual acuity testing. ... A bifocal corrective eyeglasses lens A corrective lens is a lens worn on or before the eye, used to treat myopia, hyperopia, astigmatism, and presbyopia. ... A lens. ...

External links

• How Visual Acuity Is Measured
• Blur simulator (depending on eyeglass prescription)