New methods devised specify the size and color of the spots monkeys see when striate cortex (area V1) is electrically stimulated

Creating a prosthetic device for the blind is a central future task. Our research examines the feasibility of producing a prosthetic device based on electrical stimulation of primary visual cortex (area V1), an area that remains intact for many years after loss of vision attributable to damage to th...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2011-10, Vol.108 (43), p.17809-17814
Main Authors: Schiller, Peter H, Slocum, Warren M, Kwak, Michelle C, Kendall, Geoffrey L, Tehovnik, Edward J
Format: Article
Language:English
Subjects:
algorithms
Animals
Biological Sciences
Brain
Brain Mapping - methods
color
Color Perception - physiology
Color Perception - radiation effects
cortex
Electric fields
Electric Stimulation
Electrical stimulation
electrical treatment
Electrodes
Electrodes, Implanted
Eyes
head
humans
Macaca mulatta
Medical equipment
Microelectrodes
monkeys
Monkeys & apes
Neurons
new methods
Perception
Phosphenes
Prostheses and Implants
Prosthetics
Saccades
Saccades - physiology
Sensory perception
vision
Visual cortex
Visual Cortex - physiology
Visual Cortex - radiation effects
Visual Cortex - surgery
Visual fields
Visual Fields - physiology
Visual Fields - radiation effects
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Summary:Creating a prosthetic device for the blind is a central future task. Our research examines the feasibility of producing a prosthetic device based on electrical stimulation of primary visual cortex (area V1), an area that remains intact for many years after loss of vision attributable to damage to the eyes. As an initial step in this effort, we believe that the research should be carried out in animals, as it has been in the creation of the highly successful cochlear implant. We chose the rhesus monkey, whose visual system is similar to that of man. We trained monkeys on two tasks to assess the size, contrast, and color of the percepts created when single sites in area V1 are stimulated through microelectrodes. Here, we report that electrical stimulation within the central 5° of the visual field representation creates a small spot that is between 9 and 26 min of arc in diameter and has a contrast ranging between 2.6% and 10%. The dot generated by the stimulation in the majority of cases was darker than the background viewed by the animal and was composed of a variety of low-contrast colors. These findings can be used as inputs to models of electrical stimulation in area V1. On the basis of these findings, we derive what kinds of images would be expected when implanted arrays of electrodes are stimulated through a camera attached to the head whose images are converted into electrical stimulation using appropriate algorithms.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1108337108