Cataract

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Cataract

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From Wikipedia, the free encyclopedia

For other uses, see Cataract (disambiguation).

CataractSpecialtySymptomsComplicationsUsual onsetCausesRisk factorsDiagnostic methodPreventionTreatmentFrequency

Magnified view of a cataract seen on examination with a slit lamp

Ophthalmology, Optometry

Faded colors, blurry vision, halos around light, trouble with bright lights, trouble seeing at night[1]

Falling, depression, blindness[2][3]

Gradual[1]

Aging, trauma, radiation exposure, following eye surgery, genetic[1][4][5]

Diabetes, smoking tobacco, prolonged exposure to sunlight, alcohol[1]

Eye examination[1]

Sunglasses, proper diet, not smoking[1]

Glasses, cataract surgery[1]

60 million (2015)[6]

A cataract is a cloudy area in the lens of the eye that leads to a decrease in vision.[1][7] Cataracts often develop slowly and can affect one or both eyes.[1] Symptoms may include faded colours, blurry or double vision, halos around light, trouble with bright lights, and difficulty seeing at night.[1] This may result in trouble driving, reading, or recognizing faces.[8] Poor vision caused by cataracts may also result in an increased risk of falling and depression.[2] Cataracts cause 51% of all cases of blindness and 33% of visual impairment worldwide.[3][9]

Cataracts are most commonly due to aging but may also occur due to trauma or radiation exposure, be present from birth, or occur following eye surgery for other problems.[1][4] Risk factors include diabetes, longstanding use of corticosteroid medication, smoking tobacco, prolonged exposure to sunlight, and alcohol.[1] The underlying mechanism involves accumulation of clumps of protein or yellow-brown pigment in the lens that reduces transmission of light to the retina at the back of the eye.[1] Diagnosis is by an eye examination.[1]

Wearing sunglasses and a wide brimmed hat, eating leafy vegetables and fruits, and avoiding smoking may reduce the risk of developing cataracts, or slow down the process.[1][10] Early on the symptoms may be improved with glasses.[1] If this does not help, surgery to remove the cloudy lens and replace it with an artificial lens is the only effective treatment.[1] Cataract surgery is not readily available in many countries, and surgery is needed only if the cataracts are causing problems and generally results in an improved quality of life.[1][11][4][12]

About 20 million people worldwide are blind due to cataracts.[4] It is the cause of approximately 5% of blindness in the United States and nearly 60% of blindness in parts of Africa and South America.[12] Blindness from cataracts occurs in about 10 to 40 per 100,000 children in the developing world, and 1 to 4 per 100,000 children in the developed world.[7] Cataracts become more common with age.[1] In the United States, cataracts occur in 68% of those over the age of 80 years.[13] Additionally they are more common in women, and less common in Hispanic and Black people.[13]

Signs and symptoms[edit]

An example of normal vision versus vision with cataracts.

Bilateral cataracts in an infant due to congenital rubella syndrome

Signs and symptoms vary depending on the type of cataract, though considerable overlap occurs. People with nuclear sclerotic or brunescent cataracts often notice a reduction of vision. Nuclear cataracts typically cause greater impairment of distance vision than of near vision. Those with posterior subcapsular cataracts usually complain of glare as their major symptom.[14]

The severity of cataract formation, assuming no other eye disease is present, is judged primarily by a visual acuity test. Other symptoms include frequent changes of glasses and colored halos due to hydration of lens.[citation needed]

Congenital cataracts can result in amblyopia if not treated in a timely manner.[15]

Causes[edit]Age[edit]

Age is the most common cause of cataracts.[1][4] Lens proteins denature and degrade over time, and this process is accelerated by diseases such as diabetes mellitus and hypertension. Environmental factors, including toxins, radiation, and ultraviolet light have cumulative effects which are worsened by the loss of protective and restorative mechanisms due to alterations in gene expression‎ and chemical processes within the eye.[16]

Oxidative stress is an important pathogenic mechanism in cataract formation.[17] Senile cataracts are associated with a decrease in antioxidant capacity in the lens.[17] An increase in oxidative stress in the lens or a decrease in the ability to remove reactive oxygen species can lead to the lens becoming more opaque.[17]

Trauma[edit]

Post traumatic rosette cataract of a 60-year-old male

Blunt trauma causes swelling, thickening, and whitening of the lens fibers. While the swelling normally resolves with time, the white color may remain. In severe blunt trauma, or in injuries that penetrate the eye, the capsule in which the lens sits can be damaged. This damage allows fluid from other parts of the eye to rapidly enter the lens leading to swelling and then whitening, obstructing light from reaching the retina at the back of the eye. Cataracts may develop in 0.7 to 8.0% of cases following electrical injuries.[18] Blunt trauma can also result in star- (stellate) or petal-shaped cataracts.[19]

Radiation[edit]

Cataracts can arise as an effect of exposure to various types of radiation. X-rays, one form of ionizing radiation, may damage the DNA of lens cells.[20] Ultraviolet light, specifically UVB, has also been shown to cause cataracts, and some evidence indicates sunglasses worn at an early age can slow its development in later life.[21] Microwaves, a type of nonionizing radiation, may cause harm by denaturing protective enzymes (e.g., glutathione peroxidase), by oxidizing protein thiol groups (causing protein aggregation), or by damaging lens cells via thermoelastic expansion.[20] The protein coagulation caused by electric and heat injuries whitens the lens.[16] This same process is what makes the clear albumen of an egg become white and opaque during cooking.[citation needed]

Genetics[edit]

Christmas tree cataract (diffuse illumination)

The genetic component is strong in the development of cataracts,[22] most commonly through mechanisms that protect and maintain the lens. The presence of cataracts in childhood or early life can occasionally be due to a particular syndrome. Examples of chromosome abnormalities associated with cataracts include 1q21.1 deletion syndrome, cri-du-chat syndrome, Down syndrome, Patau's syndrome, trisomy 18 (Edward's syndrome), and Turner's syndrome, and in the case of neurofibromatosis type 2, juvenile cataract on one or both sides may be noted. Examples of single-gene disorder include Alport's syndrome, Conradi's syndrome, cerebrotendineous xanthomatosis, myotonic dystrophy, and oculocerebrorenal syndrome or Lowe syndrome.[citation needed]

Skin diseases[edit]

The skin and the lens have the same embryological origin and so can be affected by similar diseases.[23] Those with atopic dermatitis and eczema occasionally develop shield ulcer cataracts. Ichthyosis is an autosomal recessive disorder associated with cuneiform cataracts and nuclear sclerosis. Basal-cell nevus and pemphigus have similar associations.[citation needed]

Smoking and alcohol[edit]

Cigarette smoking has been shown to increase the risk of age-related cataract and nuclear cataract.[24][25] Evidence is conflicting over the effect of alcohol. Some surveys have shown a link, but others which followed people over longer terms have not.[26]

Inadequate vitamin C[edit]

Low vitamin C intake and serum levels have been associated with greater cataract rates.[27] However, use of supplements of vitamin C has not demonstrated benefit.[28]

Medications[edit]

Some medications, such as systemic, topical, or inhaled corticosteroids, may increase the risk of cataract development.[29][30] Corticosteroids most commonly cause posterior subcapsular cataracts.[30] People with schizophrenia often have risk factors for lens opacities (such as diabetes, hypertension, and poor nutrition). Second-generation antipsychotic medications are unlikely to contribute to cataract formation.[31] Miotics[32] and triparanol may increase the risk.[33]

Post-operative[edit]

Nearly every person who undergoes a vitrectomy—without ever having had cataract surgery—will experience progression of nuclear sclerosis after the operation.[34] This may be because the native vitreous humor is different from the solutions used to replace the vitreous (vitreous substitutes), such as BSS Plus.[35] This may also be because the native vitreous humour contains ascorbic acid which helps neutralize oxidative damage to the lens and because conventional vitreous substitutes do not contain ascorbic acid.[36][37] Accordingly, for phakic patients requiring a vitrectomy it is becoming increasingly common for ophthalmologists to offer the vitrectomy combined with prophylactic cataract surgery to prevent cataract formation.[38]

Hyperbaric oxygen therapy[edit]

Hyperbaric oxygen therapy (HBOT) is the administration of 100% oxygen at pressures greater than one-atmosphere absolute pressure (1 ATA) for a therapeutic purpose. HBOT can have several side effects, including the long term development of cataracts. This is rare and generally associated with multiple HBOT exposures over a long period. As it does not usually become symptomatic during HBOT, it may often go unrecognised and is probably under-reported. Evidence is emerging that lifetime dosage of oxygen may be a precipitating factor in the development of age-related cataracts. Nuclear cataracts have been hypothesized to be the end stage of the far better known phenomenon of hyperbaric myopic shift.[39]

Other diseases[edit]

Metabolic and nutritional diseases[citation needed] Aminoaciduria or Lowe's syndrome Cerebrotendineous xanthomatosis Diabetes mellitus Fabry's disease Galactosemia / galactosemic cataract Homocystinuria Hyperparathyroidism Hypoparathyroidism Hypervitaminosis D Hypothyroidism Hypocalcaemia Mucopolysaccharidoses Wilson's disease Congenital Congenital syphilis Cytomegalic inclusion disease Rubella Cockayne syndrome

Genetic syndromes Down syndrome Patau syndrome Edwards syndrome Infections: Cysticercosis Leprosy Onchocerciasis Toxoplasmosis Varicella Secondary to other eye diseases: Retinopathy of prematurity Aniridia Uveitis Retinal detachment Retinitis pigmentosa

Sunflower cataract of a forty-year-old male with Wilson's disease and decompensated chronic liver disease

Diagnosis[edit]Classification[edit]

Cross-sectional view, showing the position of the human lens

0:11

Ultrasound scan of a unilateral cataract seen in a fetus at twenty weeks of pregnancy

Cataracts may be partial or complete, stationary or progressive, hard or soft. Histologically, the main types of age-related cataracts are nuclear sclerosis, cortical, and posterior subcapsular.[citation needed]

Nuclear sclerosis is the most common type of cataract, and involves the central or 'nuclear' part of the lens. This eventually becomes hard, or 'sclerotic', due to condensation on the lens nucleus and the deposition of brown pigment within the lens. In its advanced stages, it is called a brunescent cataract. In early stages, an increase in sclerosis may cause an increase in refractive index of the lens.[40] This causes a myopic shift (lenticular shift) that decreases hyperopia and enables presbyopic patients to see at near without reading glasses. This is only temporary and is called second sight.[citation needed]

Cortical cataracts are due to the lens cortex (outer layer) becoming opaque. They occur when changes in the fluid contained in the periphery of the lens causes fissuring. When these cataracts are viewed through an ophthalmoscope, or other magnification system, the appearance is similar to white spokes of a wheel. Symptoms often include problems with glare and light scatter at night.[40]

Posterior subcapsular cataracts are cloudy at the back of the lens adjacent to the capsule (or bag) in which the lens sits. Because light becomes more focused toward the back of the lens, they can cause disproportionate symptoms for their size.[citation needed]

An immature cataract has some transparent protein, but with a mature cataract, all the lens protein is opaque. In a hypermature or Morgagnian cataract, the lens proteins have become liquid. Congenital cataract, which may be detected in adulthood, has a different classification and includes lamellar, polar, and sutural cataracts.[41][42]

Cataracts can be classified by using the lens opacities classification system LOCS III. In this system, cataracts are classified based on type as nuclear, cortical, or posterior. The cataracts are further classified based on severity on a scale from 1 to 5. The LOCS III system is highly reproducible.[43]

Different types of cataracts

• 

  Posterior polar cataract of an 8-year-old boy in left eye

• 

  Nuclear sclerosis cataract of a 70-year-old male

• 

  Cortical cataract of a 60-year-old male

• 

  Retroillumination of cortical cataract

• 

  Posterior subcapsular cataract of a 16-year-old girl with type 1 diabetes

• 

  Intumescent cataract of a 55-year-old male

• 

  Anterior subcapsular cataract having back shadow

• 

  Posterior subcapsular cataract by retroillumination

[박대선]

https://en.wikipedia.org/wiki/Cataract