grant

Functional recovery from retinal degeneration: genetic, environmental and senescent models [ 2000 - 2002 ]

Also known as: Strategies for partial recovery of vision in degenerating retina

Research Grant

[Cite as https://purl.org/au-research/grants/nhmrc/107277]

Researchers: Prof Jonathan Stone (Principal investigator) ,  A/Pr Krisztina Valter-Kocsi

Brief description This project is directed towards treatment for the blindness caused by retinal degeneration. The retina of the eye degenerates in several groups of diseases, and from several causes. Many cases affect young people and result from small genetic mutations in key proteins. Many appear to be caused by environmental damage to the retina, perhaps at birth. Retinal degeneration causes progressive blindness in a minority of younger people (about 1 in 4,000, so 5,000 Australians and 1-2 million people world-wide). This condition is known as Retinitis pigmentosa. However, the normal retinal undergoes a slow loss of photoreceptors whose effect is cumulative, so that the vision of all peoples slowly fades towards the blindness of old age. In this form, retinal degeneration affects potentially everyone. We have recently published an 'oxygen toxicity' theory of retinal degeneration to account for both retinitis pigmentosa and senescent degeneration. The theory applies whether the dystrophy is preciptated by genetic mutation or by environmental factors . By the time a person becomes aware of blindness (commonly night blindness) from retinal degeneration, the loss of vision results (it is argued) from 2 causes: the death of some photoreceptors (the retinal cells which detect light) and damage to surviving photoreceptors. Both death and damage are caused by oxygen toxicity, arising from particular features of the retina's metabolism and blood supply. Further, the relentless progression of the blindness is inherent in the mechanisms of oxygen toxicity. In preliminary work we have been able to slow retinal degenerations and, importantly, to restore function in degenerating retinas by countering the oxygen toxicity. Experiments are proposed to expand this evidence and explore the time course, permanence and generality of these effects. The tests of retinal recovery and stability, and the mechanisms of countering oxygen toxicity will be readily applicable to clinical trials.

Funding Amount $AUD 265,888.03

Funding Scheme NHMRC Project Grants

Notes Standard Project Grant

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