Optometry and Vision Sciences - Research Publications
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ItemThe Effect of Aging on Retinal Function and Retinal Ganglion Cell Morphology Following Intraocular Pressure Elevation(FRONTIERS MEDIA SA, 2022-05-12)Aging and elevated intraocular pressure (IOP) are two major risk factors for glaucomatous optic neuropathy; a condition characterized by the selective, progressive injury, and subsequent loss of retinal ganglion cells (RGCs). We examined how age modified the capacity for RGCs to functionally recover following a reproducible IOP elevation (50 mmHg for 30 min). We found that RGC functional recovery (measured using electroretinography) was complete by 7 days in 3-month-old mice but was delayed in 12-month-old mice until 14 days. At the 7-day recovery endpoint when RGC function had recovered in young but not older eyes, we examined RGC structural responses to IOP-related stress by analyzing RGC dendritic morphology. ON-RGC cell volume was attenuated following IOP elevation in both young and older mice. We also found that following IOP elevation OFF-RGC dendritic morphology became less complex per cell volume in young mice, an effect that was not observed in older eyes. Our data suggest that adaptations in OFF-RGCs in young eyes were associated with better functional recovery 7 days after IOP elevation. Loss of RGC cellular adaptations may account for delayed functional recovery in older eyes.
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ItemNo Preview AvailableThe effect of ageing on the recovery of retinal function and structure following intraocular pressure elevation in mice(Association for Research in Vision and Ophthalmology, 2019-07-01)Purpose : To investigate the effect of ageing on the capacity of the eye to cope with acute intraocular pressure (IOP) elevation in mice Methods : IOP was elevated to 50 mmHg for 30 minutes in anaesthetised (ketamine/xylazine) 3- and 12-month old (3mo and 12mo) C57Bl/6 mice by infusing Hanks’ Balance Salt Solution through a glass micropipette (~50μm tip) inserted into the anterior chamber of one randomly selected eye. The contralateral eye served as an untreated control. Retinal function was assessed using electroretinogram to provide an index of the health of the major cell classes in the eye. Retinal structure was assessed using optical coherence tomography (OCT) which returns thickness for a range of retinal layers. Responses were collected one week prior to and at 3 (n=13 3mo, n=11 12mo), 7 (n=13 3mo, n=10 12mo), 14 (n=10 3mo, n=11 12mo) or 28 (n=11 3mo, n=11 12mo) days after IOP elevation. Responses in the high IOP eye were expressed relative (%) to their contralateral control eye (mean±SEM). As retinal ganglion cell (RGC) responses are influenced by input from the outer retina, we expressed the functional recovery of RGC as the % difference between relative RGC (output cells) and photoreceptor (input cells) function. The effect of age on RGC functional recovery and retinal structural changes at the various recovery time points was analysed using two-way ANOVA. Results : In 3-month old eyes, 3 days after IOP elevation, RGC function was -37.3±7.0% worse than expected from photoreceptoral input. By 7 days after IOP elevation, RGC responses were similar to photoreceptor responses (-5.7±7.2%) and remained so at 14 (-9.7±6.0%) and 28 (15.6±16.4%) days of recovery. In contrast, 12-month old eyes showed slower recovery. RGC responses were worse than expected from photoreceptoral responses at 3 (-58.1±6.1%) and 7 (-34.8±10.5%) days. Only at 14 (-9.4±10.0%) and 28 (1.9±13.1%) days had RGC responses returned to levels comparable with photoreceptoral responses in 12-month old eyes. Two-way ANOVA confirmed a significant age effect in the functional recovery (p<0.05). There was, however, no significant differences in retinal layers measured using OCT with age. Conclusions : RGC function was more affected by acute IOP elevation than photoreceptoral responses. Ageing slowed down the functional recovery of RGC following an acute IOP stressor but appears to have little effect on retinal structure.