Ophthalmology and Visual Sciences Archive
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July 20, 2020
Study points to potential new approach to treating neurodegenerative diseases like glaucoma and Alzheimer’s disease
Researchers at Vanderbilt University Medical Center have shown for the first time that when one optic nerve in the eye is damaged, as in glaucoma, the opposite optic nerve comes to the rescue by sharing its metabolic energy. -
July 9, 2020
RPB grant to support research, treatment of blinding diseases
Research to Prevent Blindness (RPB) recently awarded a grant to investigators in Vanderbilt’s Department of Ophthalmology and Visual Sciences to support research into the causes, treatment and prevention of blinding diseases. -
May 27, 2020
Fleming, Law receive education awards from Academy for Excellence in Education
The Academy for Excellence in Education, established in 2007 to reinvigorate the education enterprise within Vanderbilt University and Vanderbilt University Medical Center, recently honored Geoffrey Fleming, MD, professor of Pediatrics, Critical Care Medicine and Janice Law, MD, assistant professor of Ophthalmology and Visual Sciences. -
March 12, 2020
Sternberg lands top award from Macula Society
During the recent Macula Society annual meeting, Paul Sternberg Jr., MD, G. W. Hale Professor of Ophthalmology and Visual Sciences and director of the Vanderbilt Eye Institute, received the organization’s highest honor, the Gass Medal for outstanding contributions in the study of macular diseases. -
January 23, 2020
Insights on diabetic retinopathy
A drug that targets multiple pathogenic steps in diabetic retinopathy may be an ideal therapeutic strategy for the disease, Vanderbilt researchers report. -
November 21, 2019
Sternberg honored by American Academy of Ophthalmology
Paul Sternberg Jr., MD, recently received the American Academy of Ophthalmology EnergEYES Award, given by the academy’s young ophthalmologists. -
July 15, 2019
Potassium balance and glaucoma
Vanderbilt Eye Institute researchers have discovered that an imbalance in the ionic environment of retinal ganglion cells may contribute to functional impairments in glaucoma.