How are contact lenses made? Mine always look like perfectly round little dishes of soft plastic.?

I mean, it's not like they have a lot of space to work with. How do they manage to get the prescrption right? And why does it hurt when I put one in the wrong eye?
Answer:

Encyclopedia - Contact Lenses When were contact lenses developed? What types of lenses are available? Contact lenses are thin, finely crafted plastic discs designed to fit over the cornea (See Anatomy of the Eye) of the eye, usually to correct vision problems caused by refractive error. They are held in place by a natural layer of tears on the surface of the eye. In addition to their obvious cosmetic advantages over eyeglasses, contact lenses provide better peripheral vision and virtually eliminate the image distortion sometimes caused by eyeglasses. Contact lenses are now available for the correction of most vision problems caused by refractive defects of the eye including nearsightedness, farsightedness, astigmatism, and presbyopia. When were contact lenses developed? Contact lenses were first described and sketched by Leonardo da Vinci in the early 1500s, and the first workable model - a 1/4-inch-long glass tube filled with water and containing a microscopic lens - was developed and used by Thomas Young in 1801. In 1887, a German glassblower produced the first see-through eye covering, and in 1888 two European researchers simultaneously reported using contact lenses to correct optical defects. In 1929, Hungarian physician Dr. Joseph Dallos perfected a method of making molds from living eyes. This enabled the manufacture of lenses that, for the first time, conformed to the actual shape of the eye. William Feinbloom, a New York optometrist, made the first American contact lens and also introduced the use of plastic to the manufacturing process. Contact lenses were made an official part of the practice of optometry in 1945 when the American Optometric Association formally recognized contact lens fitting as an integral part of their profession. The first soft contact lenses were developed in 1960, but weren't generally available to the public until 1971. Toric lenses for astigmatism were approved in 1978 and the first rigid gas permeable (RGP) lenses became available in 1979. The next decade saw many advances including the introduction of tinted lenses, bifocal lenses, daily wear soft lenses, disposable lenses, and extended wear RGP lenses. The 1990s saw more advances including disposable tinted lenses, daily disposable lenses and the first disposable lenses that included protection against ultraviolet sunrays. What types of lenses are available? Contact lenses are generally categorized as "hard" lenses or "soft" lenses. As the name implies, hard contact lenses are manufactured from a rigid material, polymethylmethacrylate (PMMA). PMMA is a tough, clear material that was the original plastic used in the development of contact lenses. In modern hard lenses, PMMA is often combined with other plastics to increase the oxygen permeability. These are called rigid gas permeable (RGP) lenses. Soft contact lenses are made from a plastic hydrogel polymer, hydroxyethylmethacrylate (HEMA) and have a high water content. In addition to being categorized as either "hard" or "soft," contact lenses may also be identified by their "wearing" characteristics (extended wear, daily wear, disposable, etc.) and according to the type of prescription (toric, aspheric, bifocal, etc.). The following descriptions are those generally used by the ophthalmic community in describing the various types of contacts lenses. Daily wear soft lenses These lenses are made of flexible, soft plastics that allow oxygen to pass through to the eye. They are easy to get used to and comfortable to wear. Because they fit close to the eye and are more difficult to dislodge, they are often recommended for sports. They won't work to correct all vision problems and may not provide the sharp vision required by some wearers. They also require daily removal and cleaning. Disposable soft lenses Disposable soft lenses are normally worn for one or two weeks and then discarded. They are easy to get used to and comfortable to wear. Because they fit close to the eye and are more difficult to dislodge, they are often recommended for sports. They won't work to correct all vision problems and may not provide the sharp vision required by some wearers. They also require daily removal and cleaning, but they require less cleaning than daily wear soft lenses. Daily wear disposable soft lenses This type of lens is designed to be worn for a single day, discarded at night, and replaced by a new pair in the morning. The big advantages are that no lens care is needed and a fresh pair of lenses is worn every day. Planned replacement soft lenses These contact lenses are replaced on a planned schedule, usually every two weeks, monthly, or quarterly. They are available for most prescriptions and require minimal care because they are frequently replaced. Extended-wear lenses Either soft or RGP lenses, these can usually be worn for up to 7 days without removal. Because of the continuous wear, more frequent visits to the eye doctor for follow-up care may be required. Daily wear rigid gas permeable (RGP) lenses RGP lenses are manufactured from slightly flexible plastics that allow oxygen to pass through. These lenses may provide sharper vision than soft lenses and can be used to correct most vision problems. They are also more durable and easier to care for, but often require a longer adaptation period. Spherical contact lenses Soft or hard contact lens that contain a single prescription power. Aspheric contact lenses Premium contact lenses for borderline astigmatic patients and for those who are just beginning to develop presbyopia. Toric contact lenses Soft or hard contact lenses that contain both a spherical and cylinder component to correct prescriptions that have astigmatism. These lenses may be thicker in one area than another in order to maintain correct orientation on the eye. Bifocal contact lenses Like bifocal eyeglasses, bifocal contact lenses are designed to provide sharp vision up close and at a distance. Several different designs are available depending on the specific needs and adaptability of the patient. Monovision contact lenses A term sometimes used in a special contact lens fitting technique that is an alternative to bifocal contacts. Using this technique, the eye doctor fits a near vision contact for reading in one eye and a distance vision contact in the other. The technique is very effective for some patients, but does require some adaptation and sometimes results in compromised depth perception.

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there is a show thats called how its made and they showed how they do it but i forgot

eragon122

The Science channel has a new series 'How It's Made' and they just had an episode about contacts. Maybe they will show it again. It was rather interesting, but I can't explain all the steps here. Putting one in the wrong eye should not hurt, you should just not be able to see as well if your eyes are a lot different. Now if you put one in backwards, it hurts because the shape is all wrong (of course).

fresh2

The first contact lenses were made of glass, which caused eye irritation, and so were not able to be worn for extended periods of time. But when William Feinbloom introduced lenses made from polymethyl methacrylate (PMMA or Perspex/Plexiglas), contacts become much more convenient. These PMMA lenses are commonly referred to as "hard" lenses (this term is not used for other types of contacts). However, PMMA lenses have their own side effects: no oxygen is transmitted through the lens to the cornea, which can cause a number of adverse clinical events. In the late 1970s, and through the 1980s and 1990s, improved rigid materials — which were also oxygen-permeable — were developed. Collectively, these polymers are referred to as 'rigid gas permeable' or 'RGP' materials or lenses. Rigid lenses offer a number of unique properties. In effect, the lens is able to replace the natural shape of the cornea with a new refracting surface. This means that a regular (spherical) rigid contact lens can provide good level of vision in people who have astigmatism or distorted corneal shapes as with keratoconus. Whilst rigid lenses have been around for about 120 years, soft lenses are a much more recent development. The principal breakthrough in soft lenses made by Otto Wichterle led to the launch of the first soft (hydrogel) lenses in some countries in the 1960s and the approval of the 'Soflens' material (polymacon) by the United States FDA in 1971. Soft lenses are immediately comfortable, while rigid lenses require a period of adaptation before full comfort is achieved. The polymers from which soft lenses are manufactured improved over the next 25 years, primarily in terms of increasing the oxygen permeability by varying the ingredients making up the polymers. A small number of hybrid rigid/soft lenses exist. An alternative technique is piggybacking of contact lenses, a smaller, rigid lens being mounted atop a larger, soft lens. This is done for a variety of clinical situations where a single lens will not provide the optical power, fitting characteristics, or comfort required. In 1999, 'silicone hydrogels' became available. Silicone hydrogels have both the extremely high oxygen permeability of silicone and the comfort and clinical performance of the conventional hydrogels. These lenses were initially advocated primarily for extended (overnight) wear, although more recently daily (no overnight) wear silicone hydrogels have been launched. While it provides the oxygen permeability, the silicone also makes the lens surface highly hydrophobic and less "wettable." This frequently results in discomfort and dryness during lens wear. In order to compensate for the hydrophobicity, hydrogels are added (hence the name "silicone hydrogels") to make the lenses more hydrophilic. However the lens surface may still remain hydrophobic. Hence some of the lenses undergo surface modification processes which cover the hydrophobic sites of silicone. Some other lens types incorporate internal rewetting agents to make the lens surface hydrophilic.

sexylittlemisstweetybird83

mine are always exactly like what you said. the reason that it hurts when you put it in the wrong eye is probably because that contact is shaped to fit the other eye or whichever one you always were it in

Kelsey

They carve them out of a much larger piece. Here's a video: http://www.youtube.com/watch?v=1pN4sVkMUnA

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