Restoring Sight, One Pixel At A Time
In both retinitis pigmentosa and age-related macular degeneration íV two of the most common causes of vision loss íV the photoreceptor layer of the retina is destroyed, but the inner layers remain largely intact, still capable of responding to incoming signals and transmitting output signals to the brain's visual cortex via the optic nerve. The discovery several years ago that direct electrical stimulation of retinal nerve cells in blind test subjects produced some sense of vision led to the development of the first retinal prosthesis.
Current retinal prostheses are designed to be used with an external (extraocular) camera mounted in a pair of glasses íV awkward because subjects must move their heads in order to scan the environment. The miniaturized prototype being developed by the USC team would be directly implantable and would allow for natural eye and head movements.
In order to optimize the design constraints for their ultra-miniature camera, the group performed a series of studies to determine the minimum requirements for vision-related tasks like object recognition, face recognition, navigation, and mobility. They found that surprisingly few pixels were required to achieve good results for many of those tasks: approximately 625 pixels in total, compared to more than a million for a typical computer display. They also found that in many cases blurring images íV both before and after they were converted into pixels íVresulted in significantly improved object recognition and tracking íV even better for moving objects than for static ones.
Taken together, these findings have made it possible to substantially relax the once extremely stringent design requirements of key components of the intraocular camera, thereby reducing the prototype intraocular camera's size and weight from an object the size of a Tylenol tablet down to an object that is now about one-third the size of a Tic-Tac. Early prototypes have been highly successful in initial tests, although human FDA trials are still at least two years out.
Reference: Paper FThT1, "Intraocular Camera for Retinal Prostheses: Design Constraints Based on Visual Psychophysics"
Article based on information provided by: Optical Society of America, Washington, D.C. U.S.A.
Adapted and published by: Mooshee.com
Originally released on: September 10
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