A J Vingrys1, S Demirel. 1. Department of Optometry and Vision Sciences, The University of Melbourne, Parkville, Victoria, Australia. a.vingrys@optometry.unimelb.edu.au
Abstract
PURPOSE: To ascertain the accuracy and precision of the catch-trial monitor used to estimate the false-response rate in automated perimetry. METHODS: False responses were automatically injected at various rates by modified perimetric software while reliable perimetric subjects underwent visual field thresholding. Four repeat tests were conducted within a 1-hour period to quantify the variability and bias inherent in the catch-trial technique. RESULTS: The catch-trial method gave a very accurate estimate of the average false-response rate. Precision, however, was quite poor because of the small sample of catch trials. Outcomes were predicted using a binomial model, and we demonstrated good concordance between the model and empirical data. When the true false-response rate was 33%, estimates derived from catch trials ranged from 7 to 57%. CONCLUSIONS: Although the catch-trial method gave an accurate estimate of the false-response rate, confidence intervals were too wide to provide a high level of precision. Our data suggest that tests with reported false-response rates < 20% may be considered reliable.
PURPOSE: To ascertain the accuracy and precision of the catch-trial monitor used to estimate the false-response rate in automated perimetry. METHODS: False responses were automatically injected at various rates by modified perimetric software while reliable perimetric subjects underwent visual field thresholding. Four repeat tests were conducted within a 1-hour period to quantify the variability and bias inherent in the catch-trial technique. RESULTS: The catch-trial method gave a very accurate estimate of the average false-response rate. Precision, however, was quite poor because of the small sample of catch trials. Outcomes were predicted using a binomial model, and we demonstrated good concordance between the model and empirical data. When the true false-response rate was 33%, estimates derived from catch trials ranged from 7 to 57%. CONCLUSIONS: Although the catch-trial method gave an accurate estimate of the false-response rate, confidence intervals were too wide to provide a high level of precision. Our data suggest that tests with reported false-response rates < 20% may be considered reliable.
Authors: R L Bartlett; B E Frost; K E Mortlock; J R Fergusson; N White; J E Morgan; R V North; J Albon Journal: Sci Rep Date: 2022-06-07 Impact factor: 4.996