The world’s first bionic eyes have now been attached to the retinas of dozens of blind or nearly blind people, and we are just now beginning to get a sense of what those patients see.
People with these implants have the ability to distinguish light from dark, and they can recognize the outlines of objects in their view. However, the artificially created vision is also distorted in certain characteristic ways, says Geoffrey Boynton, a professor of psychology at the University of Washington. New computer-simulated images, based on reports from people with retinal implants as well as fairly well-established knowledge of how cells in the retina respond to electrical signals, can help illustrate these distortions, says Boynton, who conducted the research along with a fellow University of Washington psychology professor, Ione Fine. This information can serve as the basis of future, more advanced models that might help technologists develop next-generation devices with a better chance at re-creating real vision.
The only clinically approved retinal implant is a device called the Argus II, made by the company Second Sight (see “Bionic Eye Implant Approved for U.S. Patients”). It has been used to treat patients with retinitis pigmentosa, a disease characterized by degeneration of photoreceptors, the cells in the retina that are sensitive to light. A camera captures images and the device converts them into electrical pulse patterns, which are then delivered to the retina via an implanted electrode array.
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