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Volume: 35 | Article ID: HVEI-248
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A more accurate model of dark-adapted ERG kinetics
  DOI :  10.2352/EI.2023.35.10.HVEI-248  Published OnlineJanuary 2023
Abstract
Abstract

Accurate models of the electroretinogram are important both for understanding the multifold processes of light transduction to ecologically useful signals by the retina, but also its diagnostic capabilities for the identification of the array of retinal diseases. The present neuroanalytic model of the human rod ERG is elaborated from the same general principles as that of Hood & Birch (1992), but incorporates the more recent understanding of the early stages of ERG generation by Robson & Frishman (2014). As a result, it provides a significantly better match in six different waveform features of the canonical ERG flash intensity series than previous models of rod responses.

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Christopher W. Tyler, "A more accurate model of dark-adapted ERG kineticsin Electronic Imaging,  2023,  pp 248-1 - 248-4,  https://doi.org/10.2352/EI.2023.35.10.HVEI-248

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