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Vision Health

Calcium Deposits Linked to AMD

Microscopic spheres of calcium phosphate have been linked to the development of age-related macular degeneration (AMD), a major cause of blindness, according to research led by University College London.

A release from UCl reports that AMD affects one in five people over 75, causing their vision to slowly deteriorate, but the cause of the most common form of the disease has remainsed a mystery until now. The ability to spot the disease early and reliably halt its progression would improve the lives of millions. The latest research, published in January 2015 in Proceedings of the National Academy of Sciences, has implicated tiny spheres of mineralized calcium phosphate, “hydroxylapatite”, in AMD progression. This not only offers a possible explanation for how AMD develops, but also opens up new ways to diagnose and treat the disease.

AMD is characterized by a build-up of mainly protein and fat containing deposits called “drusen” in the retina, which can prevent essential nutrients from reaching the eye’s light-sensitive cells, “photoreceptors”. Photoreceptors are regularly recycled by cellular processes, creating waste products, but drusen can trap this “junk” inside the retina, worsening the build-up. Until now, nobody understood how drusen formed and grew to clinically relevant size.

The new study shows that tiny calcium-based hydroxyapatite, commonly found in bones and teeth, could explain the origin of drusen. The researchers believe that these spheres attract proteins and fats to their surface, which build up over years to form drusen. Through post-mortem examination of 30 eyes from donors between 43 and 96 years old, the researchers used fluorescent dyes to identify the tiny spheres, just a few microns – thousandths of a millimetre – across.

The release quotes study leader Dr Imre Lengyel, Senior Research Fellow at the UCL Institute of Ophthalmology and Honorary Research Fellow at Moorfields Eye Hospital, as saying, “We found these miniscule hollow spheres inside all of the eyes and all the deposits that we examined, from donors with and without AMD,” explains “Eyes with more of these spheres contained more drusen. The spheres appear long before drusen become visible on clinical examination. The fluorescent labelling technique that we used can identify the early signs of drusen build-up long before they become visible with current methods. The dyes that we used should be compatible with existing diagnostic machines. If we could develop a safe way of getting these dyes into the eye, we could advance AMD diagnoses by a decade or more and could follow early progression more precisely.”

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