Erika D. Eggers
Affiliations: | Physiology and Biomedical Engineering | University of Arizona, Tucson, AZ |
Area:
visual neurophysiologyWebsite:
http://www.u.arizona.edu/~eeggers/Google:
"Erika Eggers"Mean distance: 15.59 (cluster 6) | S | N | B | C | P |
Parents
Sign in to add mentor| Albert J. Berger | grad student | 1997-2003 | University of Washington | |
| (Ethanol modulation of glycine receptors from hypoglossal motoneurons.) | ||||
| Peter D. Lukasiewicz | post-doc | 2003-2009 | Washington University | |
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Publications
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| Flood MD, Wellington AJ, Eggers ED. (2022) Impaired Light Adaptation of ON-Sustained Ganglion Cells in Early Diabetes Is Attributable to Diminished Response to Dopamine D4 Receptor Activation. Investigative Ophthalmology & Visual Science. 63: 33 |
| Flood MD, Eggers ED. (2021) Dopamine D1 and D4 receptors contribute to light adaptation in ON-sustained retinal ganglion cells. Journal of Neurophysiology. 126: 2039-2052 |
| Eggers ED, Carreon TA. (2020) The effects of early diabetes on inner retinal neurons. Visual Neuroscience. 37: E006 |
| Flood MD, Wellington AJ, Cruz LA, et al. (2020) Early diabetes impairs ON sustained ganglion cell light responses and adaptation without cell death or dopamine insensitivity. Experimental Eye Research. 200: 108223 |
| Mazade RE, Eggers ED. (2020) Inhibitory components of retinal bipolar cell receptive fields are differentially modulated by dopamine D1 receptors. Visual Neuroscience. 37: E01 |
| Moore-Dotson JM, Eggers ED. (2019) Reductions in Calcium Signaling Limit Inhibition to Diabetic Retinal Rod Bipolar Cells. Investigative Ophthalmology & Visual Science. 60: 4063-4073 |
| Mazade RE, Flood MD, Eggers ED. (2019) Dopamine D1 receptor activation reduces local inner retinal inhibition to light-adapted levels. Journal of Neurophysiology |
| Flood MD, Moore-Dotson JM, Eggers ED. (2018) Dopamine D1 receptor activation contributes to light-adapted changes in retinal inhibition to rod bipolar cells. Journal of Neurophysiology |
| Moore-Dotson JM, Beckman JJ, Mazade RE, et al. (2016) Early Retinal Neuronal Dysfunction in Diabetic Mice: Reduced Light-Evoked Inhibition Increases Rod Pathway Signaling. Investigative Ophthalmology & Visual Science. 57: 1418-30 |
| Mazade RE, Eggers ED. (2016) Light adaptation alters inner retinal inhibition to shape OFF retinal pathway signaling. Journal of Neurophysiology. jn.00948.2015 |