Optometry and Vision Sciences - Research Publications
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ItemIdentifying Cell Class Specific Losses from Serially Generated Electroretinogram Components(HINDAWI LTD, 2013)PURPOSE: Processing of information through the cellular layers of the retina occurs in a serial manner. In the electroretinogram (ERG), this complicates interpretation of inner retinal changes as dysfunction may arise from "upstream" neurons or may indicate a direct loss to that neural generator. We propose an approach that addresses this issue by defining ERG gain relationships. METHODS: Regression analyses between two serial ERG parameters in a control cohort of rats are used to define gain relationships. These gains are then applied to two models of retinal disease. RESULTS: The PIII(amp) to PII(amp) gain is unity whereas the PII(amp) to pSTR(amp) and PII(amp) to nSTR(amp) gains are greater than unity, indicating "amplification" (P < 0.05). Timing relationships show amplification between PIII(it) to PII(it) and compression for PII(it) to pSTR(it) and PII(it) to nSTR(it), (P < 0.05). Application of these gains to ω-3-deficiency indicates that all timing changes are downstream of photoreceptor changes, but a direct pSTR amplitude loss occurs (P < 0.05). Application to diabetes indicates widespread inner retinal dysfunction which cannot be attributed to outer retinal changes (P < 0.05). CONCLUSIONS: This simple approach aids in the interpretation of inner retinal ERG changes by taking into account gain characteristics found between successive ERG components of normal animals.
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ItemEffect of acute intraocular pressure challenge on rat retinal and cortical function(Association for Research in Vision and Ophthalmology (ARVO), 2014)Purpose: The global or gross response index of visual performance measured from the eye does not necessarily translate to global responses measured from the brain. A better understanding of this relationship would facilitate the monitoring of disease models that affect the visual pathway. We consider whether rod- and cone-retino-cortical-pathways are equally affected by acute IOP elevation. Methods: Acute, stepwise IOP elevation (10, 30, 40, 50, 60, 70 mm Hg) was induced in anesthetized dark- (N = 8) and light-adapted pigmented rats (N = 6). Electroretinogram (ERG) and visual evoked potentials (VEP) were simultaneously measured after 10 minutes at each step. Relative amplitudes (treated/baseline, %) as a function of IOP level were described with a cumulative normal function. Results: Our results showed decline in scotopic and photopic ERGs with IOP elevation. Photopic ERG responses were less sensitive to IOP challenge than scotopic ERG responses. Despite significant reductions of ganglion cell–mediated waveforms at 70 mm Hg, the VEP showed only subtle decreases in amplitude. Intraocular pressure elevation produced similar effects on rod- and cone-mediated VEP waveforms. Conclusions: We show that cone signals are less sensitive than rod ERGs to acute IOP challenge. Also, retinal signals are more sensitive than are cortical signals to IOP stress, suggesting that cortical processing may act to salvage reductions expected from attenuated retinal output.
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ItemSustained and Transient Contributions to the Rat Dark-Adapted Electroretinogram b-Wave(HINDAWI LTD, 2013)The most dominant feature of the electroretinogram, the b-wave, is thought to reflect ON-bipolar cell responses. However, a number of studies suggest that the b-wave is made up of several components. We consider the composition of the rat b-wave by subtracting corneal negative components obtained using intravitreal application of pharmacological agents to remove postreceptoral responses. By analyzing the intensity-response characteristic of the PII across a range of fixed times during and after a light step, we find that the rat isolated PII has 2 components. The first has fast rise and decay characteristics with a low sensitivity to light. GABAc-mediated inhibitory pathways enhance this transient-ON component to manifest increased and deceased sensitivity to light at shorter (<160 ms) and longer times, respectively. The second component has slower temporal characteristics but is more sensitive to light. GABAc-mediated inhibition enhances this sustained-ON component but has little effect on its sensitivity to light. After stimulus offset, both transient and sustained components return to baseline, and a long latency sustained positive component becomes apparent. The light sensitivities of transient-ON and sustained-OFF components are consistent with activity arising from cone ON- and OFF-bipolar cells, whereas the sustained-ON component is likely to arise from rod bipolar cells.