Technology to restore vision through the use of a component of green algae developed by Dr. Zhou-Han Pan, professor and scientific director of the Ligon Research Center of Vision at the Kresge Eye Institute at Wayne State University, and licensed to RetroSense Therapeutics, a biotechnology company dedicated to developing gene therapy approaches to vision restoration, announced that the U.S. Patent and Trademark Office has issued a Notice of Allowance for U.S. patent application (No. 12/299,574). The notice broadly covers methods of restoring visual responses with a variety of optogenetic compounds.
The application includes claims covering methods of restoring visual responses by delivery to retinal neurons any of a number of channelrhodopsin variants, as well as halorhodopsin. The two molecules have been studied extensively and published on as means of vision restoration in retinal degenerative conditions such as retinitis pigmentosa and dry age-related macular degeneration.
The approved patent application is part of the "Pan" patent family, which stems from the novel research of Pan and others at Wayne State University and Salus University, designed to restore vision in retinal degenerative conditions. Several Pan patent applications are part of RetroSense's intellectual property estate, which focuses on optogenetic gene therapies and complementary devices for vision restoration.
"We are pleased that the U.S. Patent Office has allowed this patent application, which will substantively expand the coverage of RetroSense's intellectual property estate," said Sean Ainsworth, chief executive officer of RetroSense. "Our IP position provides broad protection. RetroSense continues to develop novel intellectual property in the area of optogenetics. Accordingly, we plan to continue to extend our basic patent protections on our technologies. We have also maintained an ongoing strategy to consolidate key intellectual property required to develop and commercialize optogenetics to restore visual responses."
The newly allowed U.S. patent application covers methods of increasing visually evoked potentials by delivering to retinal neurons one or more of the following molecules:
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Channelrhodopsin-2 (and a multitude of variants thereof)
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Halorhodopsin