Cataracts involve a clouding of the lens.
Cataracts develop with age. Results of a survey of 19 US states, carried out in 2006-2008 and published by the Centers for Disease Control and Prevention (CDC), suggest that cataracts affect around 29.2% of Americans.
A cataract clouds the lens of the eye, causing it to become opaque and reducing vision.
Cataracts are the number one cause of blindness worldwide, despite the fact that cataract removal surgery is now a routine procedure.
Researchers from King’s College London, in the UK, have been investigating the role of nutrients in preventing the development of cataracts, as well as the relative impact of environmental factors – such as diet – compared with genetic influence.
They collected data from 1,000 pairs of female twins in the UK. Participants completed a questionnaire that tracked their intake of vitamins A, B, C, D and E, of copper, manganese and zinc and other nutrients.
Environmental impact on cataract progression stronger than genetic
Digital imaging enabled the researchers to assess the progression of cataracts by measuring the opacity of participants’ lenses when the participants were around 60 years old.
Fast facts about cataracts
- In the US, 26.4% of men and 31.1% of women had cataracts when asked in a 2006-2008 study
- 22.7% of men and 30.8% of women had had cataracts removed
- At the age of 85 years, 54% of people had cataracts.
Learn more about cataracts
Repeat measurements were carried out on 324 pairs of the twins about 10 years later.
The first measurement linked a high vitamin C intake with around 20% lower risk of cataracts. The 10-year assessment revealed a 33% lower risk of cataract progression in women whose diet was rich in foods containing vitamin C.
Genetic factors were responsible for 35% of the difference in cataract progression, while environmental factors, such as diet, accounted for 65%, suggesting that genetic impact on cataract development may be less significant than previously believed.
The strength of vitamin C in inhibiting cataracts progression may lie in itsantioxidant properties. The fluid inside the eye is normally high in vitamin C, which helps prevents oxidation that clouds the lens.
The researchers speculate that eating food rich in vitamin C may boost the levels of vitamin C in the fluid around the lens, offering extra protection.
The study only focused on consumption of vitamin C through foods and not through dietary supplements.
Study author Dr. Christopher Hammond, professor of ophthalmology at King’s College London, says: