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Predicting individual contrast sensitivity functions from acuity and letter contrast sensitivity measurements

Contrast sensitivity (CS) is widely used as a measure of visual function in both basic research and clinical evaluation. There is conflicting evidence on the extent to which measuring the full contrast sensitivity function (CSF) offers more functionally relevant information than a single measurement...

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Autores principales: Thurman, Steven M., Davey, Pinakin Gunvant, McCray, Kaydee Lynn, Paronian, Violeta, Seitz, Aaron R.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Association for Research in Vision and Ophthalmology 2016
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5221673/
https://www.ncbi.nlm.nih.gov/pubmed/28006065
http://dx.doi.org/10.1167/16.15.15
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author Thurman, Steven M.
Davey, Pinakin Gunvant
McCray, Kaydee Lynn
Paronian, Violeta
Seitz, Aaron R.
author_facet Thurman, Steven M.
Davey, Pinakin Gunvant
McCray, Kaydee Lynn
Paronian, Violeta
Seitz, Aaron R.
author_sort Thurman, Steven M.
collection PubMed
description Contrast sensitivity (CS) is widely used as a measure of visual function in both basic research and clinical evaluation. There is conflicting evidence on the extent to which measuring the full contrast sensitivity function (CSF) offers more functionally relevant information than a single measurement from an optotype CS test, such as the Pelli–Robson chart. Here we examine the relationship between functional CSF parameters and other measures of visual function, and establish a framework for predicting individual CSFs with effectively a zero-parameter model that shifts a standard-shaped template CSF horizontally and vertically according to independent measurements of high contrast acuity and letter CS, respectively. This method was evaluated for three different CSF tests: a chart test (CSV-1000), a computerized sine-wave test (M&S Sine Test), and a recently developed adaptive test (quick CSF). Subjects were 43 individuals with healthy vision or impairment too mild to be considered low vision (acuity range of −0.3 to 0.34 logMAR). While each test demands a slightly different normative template, results show that individual subject CSFs can be predicted with roughly the same precision as test–retest repeatability, confirming that individuals predominantly differ in terms of peak CS and peak spatial frequency. In fact, these parameters were sufficiently related to empirical measurements of acuity and letter CS to permit accurate estimation of the entire CSF of any individual with a deterministic model (zero free parameters). These results demonstrate that in many cases, measuring the full CSF may provide little additional information beyond letter acuity and contrast sensitivity.
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spelling pubmed-52216732017-01-10 Predicting individual contrast sensitivity functions from acuity and letter contrast sensitivity measurements Thurman, Steven M. Davey, Pinakin Gunvant McCray, Kaydee Lynn Paronian, Violeta Seitz, Aaron R. J Vis Article Contrast sensitivity (CS) is widely used as a measure of visual function in both basic research and clinical evaluation. There is conflicting evidence on the extent to which measuring the full contrast sensitivity function (CSF) offers more functionally relevant information than a single measurement from an optotype CS test, such as the Pelli–Robson chart. Here we examine the relationship between functional CSF parameters and other measures of visual function, and establish a framework for predicting individual CSFs with effectively a zero-parameter model that shifts a standard-shaped template CSF horizontally and vertically according to independent measurements of high contrast acuity and letter CS, respectively. This method was evaluated for three different CSF tests: a chart test (CSV-1000), a computerized sine-wave test (M&S Sine Test), and a recently developed adaptive test (quick CSF). Subjects were 43 individuals with healthy vision or impairment too mild to be considered low vision (acuity range of −0.3 to 0.34 logMAR). While each test demands a slightly different normative template, results show that individual subject CSFs can be predicted with roughly the same precision as test–retest repeatability, confirming that individuals predominantly differ in terms of peak CS and peak spatial frequency. In fact, these parameters were sufficiently related to empirical measurements of acuity and letter CS to permit accurate estimation of the entire CSF of any individual with a deterministic model (zero free parameters). These results demonstrate that in many cases, measuring the full CSF may provide little additional information beyond letter acuity and contrast sensitivity. The Association for Research in Vision and Ophthalmology 2016-12-22 /pmc/articles/PMC5221673/ /pubmed/28006065 http://dx.doi.org/10.1167/16.15.15 Text en http://creativecommons.org/licenses/by/4.0/ This work is licensed under a Creative Commons Attribution 4.0 International License.
spellingShingle Article
Thurman, Steven M.
Davey, Pinakin Gunvant
McCray, Kaydee Lynn
Paronian, Violeta
Seitz, Aaron R.
Predicting individual contrast sensitivity functions from acuity and letter contrast sensitivity measurements
title Predicting individual contrast sensitivity functions from acuity and letter contrast sensitivity measurements
title_full Predicting individual contrast sensitivity functions from acuity and letter contrast sensitivity measurements
title_fullStr Predicting individual contrast sensitivity functions from acuity and letter contrast sensitivity measurements
title_full_unstemmed Predicting individual contrast sensitivity functions from acuity and letter contrast sensitivity measurements
title_short Predicting individual contrast sensitivity functions from acuity and letter contrast sensitivity measurements
title_sort predicting individual contrast sensitivity functions from acuity and letter contrast sensitivity measurements
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5221673/
https://www.ncbi.nlm.nih.gov/pubmed/28006065
http://dx.doi.org/10.1167/16.15.15
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