Brain pressure controls eye pressure, revealing new avenues for glaucoma treatment

January 13, 2020

Researchers at the University of South Florida (USF) have discovered a novel feedback pathway from the brain to the eye that modulates eye pressure - a significant advancement in the effort to diagnose and treat glaucoma. Glaucoma is associated with increased pressure in the eye due to a reduce ability of the eye to maintain proper fluid drainage. The heightened pressure applies mechanical strain to the optic nerve as the nerve exits the eye, resulting in vision loss and potential blindness.

It has long been hypothesized that brain pressure might also play a role in glaucoma because the amount of strain on the optic nerve depends not just on eye pressure, but the difference in pressure between the eye and brain. The groundbreaking study published in the Journal of Physiology shows, for the first time, that eye and brain pressure are physiologically connected. The neuroscientists came to this conclusion by altering brain pressure in animal models and noting changes in the fluid drainage properties of the eye that could be blocked by chemicals that eliminate feedback signals from the brain. Interestingly, the eye's ability to clear fluid changed in a manner that restored a healthy pressure difference across the optic nerve.

"The drainage control system may service to protect the optic nerve from swings in eye or brain pressure," said Chris Passaglia, PhD, professor in the USF Department of Medical Engineering. "Its discovery offers a new target for glaucoma treatment, wherein the modulatory mechanisms of the system might be exploited to help lower eye pressure and impede disease progression in glaucoma patients."

Glaucoma is the leading cause of blindness in people over the age of 60. Since symptoms often don't arise until the condition has advanced, ophthalmologists check the eye pressures of patients during routine exams by administering an "air puff test." However, Passaglia says there are more complex aspects of the disease that make diagnosis a challenge. Some patients exhibit symptoms of glaucoma yet have normal eye pressure. While others with high eye pressure, don't always show signs of the condition.

Researchers are now trying to pinpoint the location of the brain cells that are sending signals to the eye and find which nerve fibers in the eye are being mediated by the brain. This will help physicians better diagnose glaucoma and have a greater understanding of what's causing it to develop.

University of South Florida (USF Innovation)

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