Anthony E Felder1,2, Justin Wanek2, Norman P Blair2, Mahnaz Shahidi3. 1. Department of Bioengineering, University of Illinois at Chicago, Chicago, Illinois, United States. 2. Department of Ophthalmology and Visual Sciences, University of Illinois at Chicago, Chicago, Illinois, United States. 3. Department of Ophthalmology, University of Southern California, Los Angeles, California, United States.
Abstract
Purpose: To mathematically model the temporal dynamic responses of retinal vessel diameter (D), oxygen saturation (SO2), and inner retinal oxygen extraction fraction (OEF) to light flicker and to describe their responses to its cessation in humans. Methods: In 16 healthy subjects (age: 60 ± 12 years), retinal oximetry was performed before, during, and after light flicker stimulation. At each time point, five metrics were measured: retinal arterial and venous D (DA, DV) and SO2 (SO2A, SO2V), and OEF. Intra- and intersubject variability of metrics was assessed by coefficient of variation of measurements before flicker within and among subjects, respectively. Metrics during flicker were modeled by exponential functions to determine the flicker-induced steady state metric values and the time constants of changes. Metrics after the cessation of flicker were compared to those before flicker. Results: Intra- and intersubject variability for all metrics were less than 6% and 16%, respectively. At the flicker-induced steady state, DA and DV increased by 5%, SO2V increased by 7%, and OEF decreased by 13%. The time constants of DA and DV (14, 15 seconds) were twofold smaller than those of SO2V and OEF (39, 34 seconds). Within 26 seconds after the cessation of flicker, all metrics were not significantly different from before flicker values (P ≥ 0.07). Conclusions: Mathematical modeling revealed considerable differences in the time courses of changes among metrics during flicker, indicating flicker duration should be considered separately for each metric. Future application of this method may be useful to elucidate alterations in temporal dynamic responses to light flicker due to retinal diseases.
Purpose: To mathematically model the temporal dynamic responses of retinal vessel diameter (D), oxygen saturation (SO2), and inner retinal oxygen extraction fraction (OEF) to light flicker and to describe their responses to its cessation in humans. Methods: In 16 healthy subjects (age: 60 ± 12 years), retinal oximetry was performed before, during, and after light flicker stimulation. At each time point, five metrics were measured: retinal arterial and venous D (DA, DV) and SO2 (SO2A, SO2V), and OEF. Intra- and intersubject variability of metrics was assessed by coefficient of variation of measurements before flicker within and among subjects, respectively. Metrics during flicker were modeled by exponential functions to determine the flicker-induced steady state metric values and the time constants of changes. Metrics after the cessation of flicker were compared to those before flicker. Results: Intra- and intersubject variability for all metrics were less than 6% and 16%, respectively. At the flicker-induced steady state, DA and DV increased by 5%, SO2V increased by 7%, and OEF decreased by 13%. The time constants of DA and DV (14, 15 seconds) were twofold smaller than those of SO2V and OEF (39, 34 seconds). Within 26 seconds after the cessation of flicker, all metrics were not significantly different from before flicker values (P ≥ 0.07). Conclusions: Mathematical modeling revealed considerable differences in the time courses of changes among metrics during flicker, indicating flicker duration should be considered separately for each metric. Future application of this method may be useful to elucidate alterations in temporal dynamic responses to light flicker due to retinal diseases.
Authors: Rebekka Heitmar; Andrew D Blann; Robert P Cubbidge; Gregory Y H Lip; Doina Gherghel Journal: Invest Ophthalmol Vis Sci Date: 2010-04-30 Impact factor: 4.799
Authors: Ines M Lanzl; Seid-Fatima Seidova; Mathias Maier; Chris Lohmann; Arno Schmidt-Trucksäss; Martin Halle; Konstantin E Kotliar Journal: Acta Ophthalmol Date: 2010-01-22 Impact factor: 3.761
Authors: Peter L Nesper; Hee Eun Lee; Alaa E Fayed; Gregory W Schwartz; Fei Yu; Amani A Fawzi Journal: Invest Ophthalmol Vis Sci Date: 2019-02-01 Impact factor: 4.799