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Ultraviolet (UV) radiation comprises invisible high energy rays from the sun that lie just beyond the blue end of the visible spectrum.
More than 99% of UV radiation is absorbed by the anterior structures of the eye, although some of it does reach the light-sensitive retina. The UV radiation present in sunlight is not useful for vision. There are good scientific reasons to be concerned that UV absorption by the eye may contribute to age-related changes in the eye and a number of serious eye diseases.
Protection can be achieved by simple, safe and inexpensive methods such as wearing a brimmed hat and using eyewear that absorbs UV radiation.
Ultraviolet radiation in sunlight is commonly divided into three components: UV-A (320 to 400 nanometers) which causes tanning and is thought to contribute to ageing of the skin and skin cancer, and UV-B (280 to 320 nanometers) which can cause sunburn and skin cancer. UV-C rays are of little concern as they do not penetrate the earth's atmosphere.
Clinical experience and evidence from accidents and experimental studies show that UV-B is more damaging, presumably because it has higher energy. Most of the UV-B is absorbed by the cornea and lens of the eye; therefore it can cause damage to these tissues but will not normally damage the retina.
UV-A radiation has lower energy, but penetrates much deeper into the eye and may also cause injury. Sunlight contains much more UV-A than UV-B. Neither UV-A nor UV-B has been shown to be beneficial to the eye, and neither contributes to vision. Optimal sun protection should screen out both types of UV radiation.
Ultraviolet radiation can play a contributory role in the development of various ocular disorders including cataract, pterygium, cancer of the skin around the eye, photokeratitis and corneal degenerative changes, and may contribute to age-related macular degeneration.
Cataract is a major cause of visual impairment and blindness world-wide. Cataracts are a cloudiness of the lens inside the eye that occurs over a period of many years. Laboratory studies have implicated UV radiation as a causal factor for cataract. Furthermore, epidemiological studies have shown that certain types of cataract are associated with a history of higher exposure to UV, and especially UV-B radiation.
Age-related macular degeneration is the major cause of reduced vision for people over the age of 55. In America AMD is the main reason for blindness. Within the next years Exposure to UV and intense violet/blue visible radiation is damaging to retinal tissue in laboratory experiments, thus scientists have speculated that chronic UV or violet/blue light exposure may contribute to ageing processes in the retina. See picture on the right: AMD.
Pterygium is a growth of tissue on the white of the eye that may extend onto the clear cornea where it can block vision. It is seen most commonly in people who work outdoors in the sun and wind, and its prevalence is related to the amount of UV exposure. It can be removed surgically, but often recurs and can cause cosmetic concerns and visual loss if untreated. Excessive UV exposure is well known to predispose to skin cancer, which includes the eyelids and facial skin.
Photokeratitis is essentially a reversible sunburn of the cornea resulting from excessive UV-B exposure. It occurs when someone spends long hours on the beach or snow without eye protection. It can be extremely painful for 1 to 2 days and can result in temporary loss of vision. There is some indication that long term exposure to UV-B can result in corneal degenerative changes.
No one is immune to sunlight-related eye disorders. Every person, regardless of their background is susceptible to ocular damage from UV radiation that can lead to impaired vision.
Any factor that increases sunlight exposure of the eyes will increase the risk for ocular damage from UV radiation. Individuals whose work or recreation involves lengthy exposure to sunlight are at greatest risk.
Since UV radiation is reflected off surfaces such as snow, water and sand, the risk is particularly high on the beach, while boating, or in mountain areas. The risk is greatest during the mid-day hours, from 10 am to 3 pm, and during the summer months. Ultraviolet radiation levels increase nearer the equator. UV levels are also greater at high altitudes.
Since the human lens absorbs UV radiation, individuals who have had cataract surgery are at increased risk of retinal injury from sunlight unless a UV absorbing intraocular lens was inserted at the time of surgery. Individuals with retinal dystrophies or other chronic retinal conditions may be at greater risk since their retinas may be less resilient to normal exposure levels.
Children are not immune to the risk of ocular damage from UV radiation. Children typically spend more time outdoors in the sunlight than adults. Solar radiation damage to the eye may be cumulative and may increase the risk of developing an ocular disorder later in life.
As per the scientistics studies children at a younger age have a "UV-B window at 320nm", where UV can even reach the retina. UV-Protection up to 400nm in combination with a bluelight filter are highly recommended for children's sunglasses.
Ultraviolet radiation reaches the eyes not only from the sky above but also by reflection from the ground, especially water, snow, sand and other bright surfaces. Protection from sunlight can be obtained by using both a brimmed hat or cap and UV absorbing eyewear.
A wide-brimmed hat or cap will block roughly 50 per cent of UV radiation and reduces UV that may enter above or around the glasses. Ultraviolet absorbing eyewear provides the greatest measure of UV protection, particularly if it has a wraparound design to limit the entry of peripheral rays.
It is prudent to protect the eyes of children against UV radiation by wearing a brimmed hat or cap and sunglasses. Sunglasses for children should have lenses made of polycarbonate or other plastic materials rather than glass for added impact protection.
Ideally, all types of eyewear including prescription spectacles, contact lenses and intraocular lens implants should absorb the entire UV spectrum (UV-A and UV-B). UV absorption can be incorporated into nearly all optical materials currently in use, is inexpensive, and does not interfere with vision. The degree of UV protection is not related to price. Polarisation or photosensitive darkening are additional sunglass features that are useful for certain visual situations, but do not, by themselves, provide UV protection.
For outdoor use in the bright sun, sunglasses that absorb 99-100 per cent of the full UV spectrum to 400 nm are recommended. Additional protection for the retina can be provided by lenses that reduce the transmission of violet/blue light.
Such lenses should not be so coloured as to affect perception of the colour of objects, such as traffic signals. The visible spectrum should be reduced to a comfortable level to eliminate glare and squinting. Individuals who also wear clear prescription eyewear outdoors should consider using lenses which absorb sufficiently UV radiation up to 380 nm or even better - to use sunglasses with sun prescription lenses.
All sunglasses sold in Europe are required to conform to the European Directive EN1836:1997, which specifies how much UV protection must be provided. However sunglasses being labelled 100% UV protection not necessarily offer best protection and can be very missleading for european consumers. There is no definition of 100% UV protection. This means one producer can define 100% at 380nm, another could define 100% in relation to the UV absorption at 400nm. A test at the optician's place of the transmission curve (how much light is absorbed the lens) is the safest test and protection.
Sunglasses may be labeled as "General purpose sunglasses", which are suitable for most applications, or as "Specific-purpose sunglasses", which provide a higher level of protection, and are suitable for people who have a particularly high exposure to UV radiation.
In any case a clear communication to endconsumers about the real protection of their sunglasses is necessary!