Genetic treatment for blindness may soon be reality

November 10, 2017

New Orleans - Nov. 10, 2017 -- Patients who had lost their sight to an inherited retinal disease could see well enough to navigate a maze after being treated with a new gene therapy, according to research presented today at AAO 2017, the 121st Annual Meeting of the American Academy of Ophthalmology.

Patients in the study had a condition called Leber congenital amaurosis (LCA), which begins in infancy and progresses slowly, eventually causing complete blindness. This new, first-of-its-kind gene therapy is currently under review by the U.S. Food and Drug Administration for potential approval this year. There are currently no treatments available for inherited retinal diseases.

Ophthalmologist Stephen R. Russell, M.D., of the University of Iowa, is one of the lead researchers for this pioneering treatment. Data from the first randomized, controlled, phase 3 study showed that 27 of 29 treated patients (93 percent) experienced meaningful improvements in their vision, enough that they could navigate a maze in low to moderate light. They also showed improvement in light sensitivity and peripheral vision, which are two visual deficits these patients experience.

Approval could open the door for other gene therapies that could eventually treat the more than 225 genetic mutations known to cause blindness. It could be applied to retinitis pigmentosa, another inherited retinal disease caused by a defective gene. Or in the future, gene therapy could possibly provide key proteins needed to restore vision in more common diseases such as age-related macular degeneration.

LCA is rare, affecting about 1 in 80,000 individuals. It can be caused by one or more of 19 different genes. The treatment, called voretigene neparvovec (Luxturna, Spark Therapeutics), involves a genetically modified version of a harmless virus. The virus is modified to carry a healthy version of the gene into the retina. Doctors inject billions of modified viruses into both of a patient's eyes.

Treatment doesn't restore normal vision. It does, however, allow patients to see shapes and light, allowing them to get around without a cane or a guide dog. It is unclear how long the treatment will last, but so far, most patients have maintained their vision for two years.

More than 200 patients with LCA have participated in gene therapy trials since 2007. However, no gene therapy has gotten this close to FDA approval for retinal disease or any other eye disease. In October, an advisory committee to the FDA unanimously endorsed the treatment. The FDA isn't obligated to follow the recommendations of its advisory committees, but it usually does. The agency is expected to make its decision no later than January 2018.
-end-
About the American Academy of Ophthalmology

The American Academy of Ophthalmology is the world's largest association of eye physicians and surgeons. A global community of 32,000 medical doctors, we protect sight and empower lives by setting the standards for ophthalmic education and advocating for our patients and the public. We innovate to advance our profession and to ensure the delivery of the highest-quality eye care. Our EyeSmart® program provides the public with the most trusted information about eye health. For more information, visit aao.org.

Contact:

Media Relations
415-561-8534
media@aao.org

American Academy of Ophthalmology

Related Gene Therapy Articles from Brightsurf:

Risk of AAV mobilization in gene therapy
New data highlight safety concerns for the replication of recombinant adeno-associated viral (rAAV) vectors commonly used in gene therapy.

Discovery challenges the foundations of gene therapy
An article published today in Science Translational Medicine by scientists from Children's Medical Research Institute has challenged one of the foundations of the gene therapy field and will help to improve strategies for treating serious genetic disorders of the liver.

Gene therapy: Novel targets come into view
Retinitis pigmentosa is the most prevalent form of congenital blindness.

Gene therapy targets inner retina to combat blindness
Batten disease is a group of fatal, inherited lysosomal storage disorders that predominantly affect children.

New Human Gene Therapy editorial: Concern following gene therapy adverse events
Response to the recent report of the deaths of two children receiving high doses of a gene therapy vector (AAV8) in a Phase I trial for X-linked myotubular myopathy (MTM).

Restoring vision by gene therapy
Latest scientific findings give hope for people with incurable retinal degeneration.

Gene therapy/gene editing combo could offer hope for some genetic disorders
A hybrid approach that combines elements of gene therapy with gene editing converted an experimental model of a rare genetic disease into a milder form, significantly enhancing survival, shows a multi-institutional study led by the University of Pennsylvania and Children's National Hospital in Washington, D.C.

New technology allows control of gene therapy doses
Scientists at Scripps Research in Jupiter have developed a special molecular switch that could be embedded into gene therapies to allow doctors to control dosing.

Gene therapy: Development of new DNA transporters
Scientists at the Institute of Pharmacy at Martin Luther University Halle-Wittenberg (MLU) have developed new delivery vehicles for future gene therapies.

Gene therapy promotes nerve regeneration
Researchers from the Netherlands Institute for Neuroscience and the Leiden University Medical Center have shown that treatment using gene therapy leads to a faster recovery after nerve damage.

Read More: Gene Therapy News and Gene Therapy Current Events
Brightsurf.com is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to Amazon.com.