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1 Neurobiology & Anatomy, University of Rochester, Rochester, New York, USA
* To whom correspondence should be addressed. E-mail: robert-doty{at}urmc.rochester.edu.
Macaques indicated their detection of onset or alteration of 0.2-msec pulses applied in various configurations through electrodes implanted in striate cortex. When microelectrodes were introduced and left in place, the threshold for detection of 100-Hz pulses approximately doubled within 24 h. However, for chronically implanted platinum-alloy macroelectrodes detection thresholds usually remained stable for many months, independently of location within striate cortex or its immediately subjacent white matter. Thresholds were unaffected by the visual conditions, e.g., light versus darkness, or movement of the eyes; but in one animal blind after acute glaucoma thresholds for loci in striate cortex were permanently decreased by about 50%. Learning to respond to electrical stimulation of the optic tract produced no tendency to respond to such stimulation of striate cortex. Onset of stimulation at a given locus could be detected even in the face of continuous supraliminal stimulation at four surrounding loci on a 3-mm radius. The surround stimulation did alter the threshold of the central locus, but such stimuli could not summate if they were subliminal by some 10%. Cessation of stimulation that had been continuing for 1 min - 1 h could be detected if it were being applied at a level 20 - 75% above that needed for detection of stimulus onset. Continuous stimulation had a pronounced "priming" effect, in that modulation of frequency or intensity of such stimulation by as little as 5% could be detected; e.g., 20 µA in a background of 500 µA, or <2 msec interpulse interval with pulses at 50 Hz. Using pulses inserted in various phase relations to ongoing pulses at 2 -5 Hz, it could be determined that stimulus pulses were surrounded by a strong facilitatory period for about 30 msec, which was then replaced by refractoriness. Given the congruence of macaque and human visual anatomy and psychophysics, these results further encourage efforts to develop a cortical prosthesis for the blind.
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