The results have been published today in the peer-reviewed journal Investigative Ophthalmology and Visual Science.
Cataract is a clouding of the eye lens that develops over time and affects the quality of vision. It is caused by a disorganisation of the proteins in the lens that leads to clumps of protein forming that scatter light and severely reduce transmission to the retina. Cataracts cause vision loss and blindness for millions of people worldwide.
A team of international scientists, led by Professor Barbara Pierscionek, Deputy Dean (Research and Innovation) in the Faculty of Health, Education, Medicine and Social Care at Anglia Ruskin University (ARU), have been carrying out advanced optical tests on an oxysterol compound that had been proposed as an anti-cataract drug.
In laboratory trials, treatment with the oxysterol compound VP1-001 showed an improvement in refractive index profiles – a key optical parameter that is needed to maintain high focusing capacity – in 61% of lenses. This means that the protein organisation of the lens is being restored, resulting in the lens being better able to focus. This was supported by a reduction in lens opacity in 46% of cases.
Professor Pierscionek, who is also a member of the Medical Technology Research Centre at Anglia Ruskin University (ARU) , said:
“This study has shown the positive effects of a compound that had been proposed as an anti-cataract drug but never before tested on the optics of the lens. It is the first research of this kind in the world.
“It has shown that there is a remarkable difference and improvement in optics between eyes with the same type of cataract that were treated with the compound compared to those that were not.
“Improvements occurred in some types of cataract but not in all indicating that this may be a treatment for specific cataracts. This suggests distinctions may need to be made between cataract types when developing anti-cataract medications. It is a significant step forward towards treating this extremely common condition with drugs rather than surgery.”
aru.ac.uk