by Betsy Nisbet November 2001 ANN ARBOR, MI – A paper published electronically by Nature Genetics offers important new insights into the development and differentiation of rod and cone photoreceptors, the light-sensitive cells in the eye’s retina that initiate vision and are essential for clear sight. A team led by Anand Swaroop, Ph.D., professor of [Read More]
Category: Research and Developments
Stem Cell Research: Hope With An Ethical Price Tag
by Dan Roberts August 2001 Background On The Research Stem cells are undeveloped structures which are able develop into any of the nearly 220 cell types that make up the human body, and which can theoretically reproduce themselves infinitely. Recent discovery of adult stem cells, or progenitor cells, in the eyes of adult rodents has [Read More]
Foundation Researchers Use Gene Therapy to Restore Retinal Function in an Animal Model of Retinal Degeneration
by Tom Hoglund July 2000 In the July issue of Nature Genetics, Foundation Fighting Blindness-supported researchers used gene replacement therapy to treat a rodent model of retinal degeneration. This is the first published study to show that gene replacement therapy can restore function to photoreceptor cells. These findings also demonstrate that gene replacement therapy can [Read More]
Researchers Restore Vision In an Animal Model of Childhood Blindness
By Tom Hoglund Information Officer, Foundation Fighting Blindness July 2000 In a ground breaking study published in the July issue of The Proceedings of the National Academy of Sciences, researchers rapidly restored lost vision in a mouse model of Leber congenital amaurosis (LCA) using oral doses of a chemical compound derived from vitamin A. LCA [Read More]
Artificial Retina Implanted in Humans
by Tom Hoglund Information Officer, Foundation Fighting Blindness For the first time ever, researchers from a company called Optobionics surgically implanted an artificial retina into three patients who are blind from retinitis pigmentosa. These highly-experimental prosthetic devices, made of silicon computer chips, are intended to restore ambulatory vision, thereby giving people the freedom to walk [Read More]