Automated system and method for determining pupillary threshold response
First Claim
1. A computerized system for determining pupillary threshold response based upon the taking of supra-threshold measurements, said system comprising:
- automated perimeter means for exposing the eye to light over a range of intensities at a number of locations in the visual field around the eye and measuring pupillary response thereto; and
automated pupillometer means for controlling the operation of said automated perimeter means and for processing measured responses received therefrom, said automated pupillometer means including;
means for selecting and instructing said automated perimeter means to expose the eye at each of said given number of locations to an initial supra-threshold light stimulus which is substantially above the expected threshold level at said location;
a light stimulus response array;
means for receiving measured responses received from said automated perimeter means and storing said measured responses in said light stimulus response array;
a pre-stored response curve array of expected pupillary responses to a range of light intensities at each of said given number of locations;
reiterative light stimulus intensity selection routine means for sequentially determining subsequent supra-threshold light intensities to be applied to the eye by said automated perimeter means at each of said given locations based upon a comparison between previously measured responses stored in said light stimulus response array and expected responses derived from said pre-stored response curve array for said given location;
non-linear regression analysis routine means for constructing a test response curve array from said measured responses stored in said light stimulus response array;
means for setting threshold response criteria; and
means for applying said threshold response criteria to said test response curve array and for generating estimated threshold response levels therefrom.
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Abstract
An automated system and method for determining pupillary threshold response is described. The system achieves the determination of pupillary threshold levels through the measurement of supra-threshold responses at varying light intensities, which measured values are processed by a non-linear regression routine to approximate threshold response. The system takes supra-threshold measurements by means of a computerized pupillometer which is linked to an automated perimeter. The measurements are sequentially taken at varied light intensities which are reiteratively selected in response to the comparison between responses that have been previously measured during the test and a pre-stored response curve of expected values. The measured values are then processed by a non-linear regression routine to indirectly generate an estimated threshold level. The system is fully automated, produces accurate and reliable results, and is not subject to the uncertainties which are attendant with the measurement of threshold levels by the taking of subjective measurements.
43 Citations
4 Claims
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1. A computerized system for determining pupillary threshold response based upon the taking of supra-threshold measurements, said system comprising:
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automated perimeter means for exposing the eye to light over a range of intensities at a number of locations in the visual field around the eye and measuring pupillary response thereto; and automated pupillometer means for controlling the operation of said automated perimeter means and for processing measured responses received therefrom, said automated pupillometer means including; means for selecting and instructing said automated perimeter means to expose the eye at each of said given number of locations to an initial supra-threshold light stimulus which is substantially above the expected threshold level at said location; a light stimulus response array; means for receiving measured responses received from said automated perimeter means and storing said measured responses in said light stimulus response array; a pre-stored response curve array of expected pupillary responses to a range of light intensities at each of said given number of locations; reiterative light stimulus intensity selection routine means for sequentially determining subsequent supra-threshold light intensities to be applied to the eye by said automated perimeter means at each of said given locations based upon a comparison between previously measured responses stored in said light stimulus response array and expected responses derived from said pre-stored response curve array for said given location; non-linear regression analysis routine means for constructing a test response curve array from said measured responses stored in said light stimulus response array; means for setting threshold response criteria; and
means for applying said threshold response criteria to said test response curve array and for generating estimated threshold response levels therefrom. - View Dependent Claims (2, 3, 4)
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Specification