PURPOSE: It is challenging to separate the effects of normal aging of the retina and visual pathways independently from optical factors, decreased retinal illuminance, and early stage disease. This study determined limits to describe the effect of light level on normal, age-related changes in monocular and binocular functional contrast sensitivity. METHODS: We recruited 95 participants aged 20 to 85 years. Contrast thresholds for correct orientation discrimination of the gap in a Landolt C optotype were measured using a 4-alternative, forced-choice (4AFC) procedure at screen luminances from 34 to 0.12 cd/m(2) at the fovea and parafovea (0° and ±4°). Pupil size was measured continuously. The Health of the Retina index (HRindex) was computed to capture the loss of contrast sensitivity with decreasing light level. Participants were excluded if they exhibited performance outside the normal limits of interocular differences or HRindex values, or signs of ocular disease. RESULTS: Parafoveal contrast thresholds showed a steeper decline and higher correlation with age at the parafovea than the fovea. Of participants with clinical signs of ocular disease, 83% had HRindex values outside the normal limits. Binocular summation of contrast signals declined with age, independent of interocular differences. CONCLUSIONS: The HRindex worsens more rapidly with age at the parafovea, consistent with histologic findings of rod loss and its link to age-related degenerative disease of the retina. The HRindex and interocular differences could be used to screen for and separate the earliest stages of subclinical disease from changes caused by normal aging.
PURPOSE: It is challenging to separate the effects of normal aging of the retina and visual pathways independently from optical factors, decreased retinal illuminance, and early stage disease. This study determined limits to describe the effect of light level on normal, age-related changes in monocular and binocular functional contrast sensitivity. METHODS: We recruited 95 participants aged 20 to 85 years. Contrast thresholds for correct orientation discrimination of the gap in a Landolt C optotype were measured using a 4-alternative, forced-choice (4AFC) procedure at screen luminances from 34 to 0.12 cd/m(2) at the fovea and parafovea (0° and ±4°). Pupil size was measured continuously. The Health of the Retina index (HRindex) was computed to capture the loss of contrast sensitivity with decreasing light level. Participants were excluded if they exhibited performance outside the normal limits of interocular differences or HRindex values, or signs of ocular disease. RESULTS: Parafoveal contrast thresholds showed a steeper decline and higher correlation with age at the parafovea than the fovea. Of participants with clinical signs of ocular disease, 83% had HRindex values outside the normal limits. Binocular summation of contrast signals declined with age, independent of interocular differences. CONCLUSIONS: The HRindex worsens more rapidly with age at the parafovea, consistent with histologic findings of rod loss and its link to age-related degenerative disease of the retina. The HRindex and interocular differences could be used to screen for and separate the earliest stages of subclinical disease from changes caused by normal aging.
Authors: Leticia Miquilini; Natalie A Walker; Erika A Odigie; Diego Leite Guimarães; Railson Cruz Salomão; Eliza Maria Costa Brito Lacerda; Maria Izabel Tentes Cortes; Luiz Carlos de Lima Silveira; Malinda E C Fitzgerald; Dora Fix Ventura; Givago Silva Souza Journal: Sci Rep Date: 2017-12-05 Impact factor: 4.379
Authors: Kayleigh L Warrington; Victoria A McGowan; Kevin B Paterson; Sarah J White Journal: J Exp Psychol Learn Mem Cogn Date: 2018-04-19 Impact factor: 3.051
Authors: Urmi Mehta; Anna Diep; Kevin Nguyen; Bryan Le; Clara Yuh; Caroline Frambach; John Doan; Ang Wei; Anton M Palma; Marjan Farid; Sumit Garg; Sanjay Kedhar; Matthew Wade; Kailey A Marshall; Kimberly A Jameson; M Cristina Kenney; Andrew W Browne Journal: Transl Vis Sci Technol Date: 2020-11-03 Impact factor: 3.283