Space-age fibre-optic probe to help detect cataract early

January 13th, 2009 - 7:50 pm ICT by IANS  

Washington, Jan 13 (IANS) A compact fibre-optic probe developed for the space programme is proving itself as the first non-invasive early detection device for cataract, the leading cause of vision loss worldwide.Researchers from the National Eye Institute (NEI), and the National Aeronautics and Space Administration (NASA) collaborated to develop a simple, safe eye test for measuring a protein related to cataract formation.

If subtle protein changes can be detected before a cataract develops, people may be able to avert the risk by cutting down exposure to sunlight, quitting smoking, stopping certain medications and controlling diabetes.

“By the time the eye’s lens appears cloudy from a cataract, it is too late to reverse or medically treat this process,” said Manuel B. Datiles III, NEI medical officer and co-author lead author of the clinical study.

“This technology can detect the earliest damage to lens proteins, triggering an early warning for cataract formation and blindness.”

The new device is based on a laser light technique called dynamic light scattering (DLS). It was initially developed to analyse the growth of protein crystals in a zero-gravity space environment.

The DLS technique will now assist vision scientists in looking at long-term lens changes due to aging, smoking, diabetes, LASIK surgery, eye drops for treating glaucoma, and surgical removal of the vitreous gel within the eye, a procedure known to cause cataracts within six months to one year.

It may also help in the early diagnosis of Alzheimer’s disease, in which an abnormal protein may be found in the lens. In addition, NASA researchers will continue to use the device to look at the impact of long-term space travel on the visual system.

NASA’s Rafat R. Ansari, senior scientist at the John H. Glenn Research Centre and the study co-author, brought the technology’s possible clinical applications to the attention of NEI vision researchers when he learned that his father’s cataracts were caused by changes in lens proteins.

Several proteins are involved in cataract formation, but one known as alpha-crystallin serves as the eye’s own anti-cataract molecule.

Alpha-crystallin binds to other proteins when they become damaged, thus preventing them from bunching together to form a cataract. However, humans are born with a fixed amount of alpha-crystallin, so if the supply becomes depleted due to radiation exposure, smoking, diabetes or other causes, a cataract can result.

“We have shown that this non-invasive technology that was developed for the space program can now be used to look at the early signs of protein damage due to oxidative stress, a key process involved in many medical conditions, including age-related cataract and diabetes, as well as neurodegenerative diseases such as Alzheimer’s and Parkinson’s,” said Ansari.

“By understanding the role of protein changes in cataract formation, we can use the lens not just to look at eye disease, but also as a window into the whole body.”

The recent NEI-NASA clinical trial, looked at 380 eyes of people aged seven to 86 who had lenses ranging from clear to severe cloudiness from cataract.

Researchers used the DLS device to shine a low-power laser light through the lenses.

They had previously determined alpha-crystallin’s light-scattering ability, which was then used to detect and measure the amount of alpha-crystallin in the lenses, said a NEI-NASA release.

They found that as cloudiness increased, alpha-crystallin in the lenses decreased. Alpha-crystallin amounts also decreased as the participants’ ages increased, even when the lenses were still transparent. These age-related, pre-cataract changes would remain undetected by currently available imaging tools.

These findings were reported in the December Archives of Ophthalmology.

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