Changes in eyes may be sign of Alzheimer’s disease

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In a groundbreaking study, researchers at Cedars-Sinai analyzed changes in the retina of patients with Alzheimer’s disease to understand how these changes might mirror and relate to what’s happening in the brain.

This study brings us closer to more effective treatments for Alzheimer’s, a disease that gradually impairs memory and cognitive abilities.

Since there is currently no definitive test for diagnosing Alzheimer’s, the team’s findings could pave the way for new diagnostic tools.

The retina, a thin layer of tissue at the back of the eye, is closely linked to the brain. This connection makes it an ideal area for observing changes in the central nervous system in a way that is both affordable and non-invasive.

By studying retinal tissue, researchers can monitor brain health and possibly detect Alzheimer’s disease in its early stages.

Over a period of 14 years, the team collected retinal and brain tissue samples from 86 human donors. These samples included donors with normal cognitive function, those with mild cognitive impairment (early signs of Alzheimer’s), and those with advanced Alzheimer’s disease.

Through this extensive comparison, the researchers observed some key differences in the retina of those affected by Alzheimer’s.

One of the most striking findings was the buildup of toxic proteins, particularly amyloid beta 42, in the retinas of Alzheimer’s patients. This protein is known to accumulate in the brain as well and is a hallmark of Alzheimer’s disease.

In addition to amyloid beta, the researchers noted an increase in the number of certain brain cells, like astrocytes and microglia, surrounding amyloid beta plaques. Microglia, the brain’s clean-up cells, play an important role in clearing out harmful proteins.

However, in Alzheimer’s patients, there were up to 80% fewer microglial cells actively clearing these toxic proteins from the retina and brain, leading to an increased buildup.

These protein accumulations and cellular changes were linked to physical degeneration of cells in the retina, leading to inflammation and cell death.

The researchers also mapped specific molecules and biological pathways associated with this inflammation and cell loss, offering insights into the biological processes involved.

Interestingly, these retinal changes matched changes in key parts of the brain involved in memory, navigation, and the perception of time—areas often affected by Alzheimer’s disease.

These changes were evident even in people who were only mildly impaired or had no noticeable cognitive decline, suggesting that retinal changes could potentially serve as early indicators of Alzheimer’s before symptoms fully manifest.

The findings highlight the potential of retinal examinations as an early predictor of cognitive decline, which could lead to earlier diagnosis and intervention. With further research, doctors might one day use routine eye exams to monitor Alzheimer’s risk, helping to start treatment sooner when it could be more effective.

This study, conducted by Yosef Koronyo and his team and published in Acta Neuropathologica, opens up new possibilities for Alzheimer’s research.

As scientists continue to uncover more about the disease, studies like this underscore the importance of looking beyond the brain to understand Alzheimer’s.

If you care about brain health, please read studies about vitamin D deficiency linked to Alzheimer’s and vascular dementia, and extra-virgin olive oil could boost brain function.

For more information about brain health, please see recent studies about antioxidants that could help reduce dementia risk, and strawberries could help prevent Alzheimer’s disease.

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