Effects of hypoxia and hyperoxia on the human standing potential |
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| Authors: | Michael F. Marmor William J. Donovan David M. Gaba |
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| Affiliation: | (1) Division of Ophthalmology, A-155 Stanford University School of Medicine, 94305 Stanford, CA, USA;(2) Ophthalmology Section, Veterans Administration Medical Center, Palo Alto;(3) Department of Anesthesia, Stanford University School of Medicine and Anesthesia Service, Veterans Administration Medical Center, Palo Alto |
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| Abstract: | We report that the human standing potential, measured by the EOG, rises slowly when oxygen saturation is lowered to near 80% by breathing a controlled oxygen-nitrogen mixture. The standing potential falls abruptly by 20–30% of its amplitude when the oxygen saturation returns to 100%. These changes can be generated reproducibly, with minimal discomfort, under conditions that could be adopted for clinical use. Animal experimental studies by Linsenmeier and Steinberg suggest that this hypoxia-hyperoxia response may be a delayed response to potassium concentration changes in the subretinal space. Since there is no requirement for light and no involvement of the Müller cells, the hypoxia-hyperoxia response may be more specific for pigment epithelial pathology than the c-wave. |
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| Keywords: | Hyperoxia hypoxia retinal pigment epithelium standing potential |
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