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Lab plays key role in Department of Energy’s artificial retina project

Artificial retina team member Terri Delima holds a thin-film artificial retina array in the LLNL cleanroom
Artificial retina team member Terri Delima holds a thin-film artificial retina array in the LLNL cleanroom.
Image Credit: Lawrence Livermore National Laboratory.

Scientists and engineers at Lawrence Livermore National Laboratory are now developing the electronics for a third-generation artificial retina as part of the U.S. Department of Energy (DOE) project to produce an “epiretinal prosthesis”.

R&D Magazine chose the second generation artificial retina, Argus II, for a 2009 R&D 100 Award. R&D Magazine issues the R&D 100 Awards, also called the “Oscars of invention,” every year for the most innovative technologies in science. The Lawrence Livermore team received the award in November 2009.

The Lawrence Livermore team also was chosen as the R&D100 Editor’s Choice as one of the most ground breaking technologies.

The DOE artificial retina project brings together five national labs, four universities and a private company, with Lawrence Livermore National Laboratory serving as the lead organization for the implantable artificial retinal system.

Researchers at Lawrence Livermore are today using advanced polymer-based micro-fabrication methods to further develop a biocompatible microelectrode array for the third-generation artificial retina device.

The LLNL team contributes three major components to the artificial retina: the thin-film electrode array that contains the neural electrodes; the biocompatible electronics package that contains the electronics for stimulating the retina and wireless power and communications; and an ocular surgical tool that will enable the insertion, attachment, and re-insertion of the thin-film electrode array.

In addition, Lawrence Livermore is responsible for the system integration and assembly of these components and fabrication of the complete implantable artificial retina system.

“This project is a fine example of what multi-disciplinary, multi-institutional science teams can accomplish to address a major global health problem,” said principal investigator Satinderpall Pannu, leader of the Livermore group. “We’re very proud of the expanded role we at Livermore are playing in the development of this retinal prosthesis, which has the potential to improve the quality of life for so many people around the world.”

An artificial retina or “epiretinal prosthesis” has the potential to restore vision to millions of people suffering from eye diseases such as retinitis pigmentosa, macular degeneration or those who are legally blind due to the loss of photoreceptor function. In many cases, the neural cells to which the photoreceptors are connected remain functional.

Dr. Mark Humayun, of the University of Southern California’s Doheny Eye Institute, demonstrated that electrical stimulation of the viable retinal cells can result in visual perception. These findings have sparked a worldwide effort to develop a retinal prosthesis device.

The R&D 100 Award has been given to the second-generation retinal prosthesis, which has been implanted in some 34 patients in the United States and Europe as part of clinical trials. The second-generation device represents a substantial performance improvement over the first-generation device in speed of recognition and resolution. Objects can now be recognized within 2-3 seconds instead of the previous 15, and the device’s 60 electrodes have improved image resolution over the 16-electrode prosthesis.

The prosthesis is now of sufficient resolution to allow recognition of doors, windows, edges, low-lying branches and a basketball backboard. The goal of the DOE project is to produce a prosthesis with more than 1,000 electrodes, which would allow facial recognition.

Expertise in biomedical microsystems at Lawrence Livermore’s Center for Nano- and Microtechnology was tapped to develop a “flexible microelectrode array,” able to conform to the curved shape of the retina, without damaging the delicate retinal tissue, and to integrate electronics developed by University of California at Santa Cruz. The device serves as the interface between an electronic imaging system and the human eye, directly stimulating neurons via thin film conducting traces and electroplated electrodes.

The artificial retina team was established through a Department of Energy-sponsored Cooperative Research and Development Agreement (CRADA) in 2004..

The five national laboratories are: Argonne, Lawrence Livermore, Los Alamos, Oak Ridge, and Sandia national laboratories. The four universities are USC (Doheny Eye Institute), California Institute of Technology, North Carolina State University, and the University of California at Santa Cruz; and the industrial partner is Second Sight® Medical Products Inc., the group responsible for commercializing the product and conducting clinical trials.

Founded in 1952, Lawrence Livermore National Laboratory is a national security laboratory that develops science and engineering technology and provides innovative solutions to our nation’s most important challenges. Lawrence Livermore National Laboratory is managed by Lawrence Livermore National Security, LLC for the U.S. Department of Energy’s National Nuclear Security Administration.

Source: Lawrence Livermore National Laboratory /...

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