Eye Controlled Simulation of Laser Damage on the Retina

Abstract

A scotoma or blindspot was generated in human subjects using an eye controlled computer display to simulate retinal effects of accidental laser exposure. Visual search time and eye behavior were measured during search for acuity targets while a simulated brightspot or scotoma afterimage blocked the foveal visual information. This simulated laser aftereffect impaired visual search performance 90%-110%. Simulated foveal scotoma deficits were still present when target size, search element density and display brightness improved peripheral visibility. The simulated scotoma probably required subjects to employ the unaffected peripheral retina for target recognition and may have caused disturbances in eye fixation programming. A technique was also developed for simulating the slow decay of a laser induced afterimage. Preliminary data suggests that the subjects tend to look left relative to their normal eye fixation position in order to bring the search target to an area of retina just outside the site of simulated laser exposure; the tendency appeared to be reduced as the simulated scotoma faded. Development of the simulated scotoma technique to evaluate the effects of laser exposure on visual performance in human subjects shows promise because the size, intensity and position on the retina of the simulated exposure can all be controlled with complete safety. The method may have application for demonstrations and training which might serve as countermeasures to the impairments in visual performance caused by central scotomas.

Document Details

Document Type

Technical Report

Publication Date

Oct 20, 1986

Accession Number

ADA187607

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