Astronaut ophthalmic syndrome

ABSTRACT During and after missions on the International Space Station, some astronauts experience ophthalmic changes, including choroidal folds, optic disc edema, cotton‐wool spots, globe flattening, and refraction changes. Astronauts with ophthalmic issues had significantly higher plasma concentrat...

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Veröffentlicht in:	The FASEB journal 2017-09, Vol.31 (9), p.3746-3756
Hauptverfasser:	Zwart, Sara R., Gibson, Charles R., Gregory, Jesse F., Mader, Thomas H., Stover, Patrick J., Zeisel, Steven H., Smith, Scott M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Aerospace Medicine Astronauts B vitamins Carbon Carbon Dioxide Cerebrospinal fluid Edema Edema - etiology Edema - pathology Efflux endothelial dysfunction Genetic Predisposition to Disease Genetics Homocysteine Humans Hypotheses International Space Station Metabolism Metabolites microgravity Optic nerve Oxidative metabolism Oxidative stress Space Flight Space missions Subarachnoid space Vision Disorders - etiology Vision Disorders - genetics Vision Disorders - physiopathology Vitamin B Complex - blood Vitamin B Complex - metabolism Weightlessness
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creator	Zwart, Sara R. Gibson, Charles R. Gregory, Jesse F. Mader, Thomas H. Stover, Patrick J. Zeisel, Steven H. Smith, Scott M.
description	ABSTRACT During and after missions on the International Space Station, some astronauts experience ophthalmic changes, including choroidal folds, optic disc edema, cotton‐wool spots, globe flattening, and refraction changes. Astronauts with ophthalmic issues had significantly higher plasma concentrations of metabolites that are associated with the 1‐carbon metabolic pathway than those without ophthalmic issues. We hypothesized that genetic differences might explain the metabolite differences. Indeed, genetics and B vitamin status were significant predictors of ophthalmic issues. We now have developed a hypothesis regarding the mechanisms that link 1‐carbon pathway genetics and the condition that we suggest calling, “astronaut ophthalmic syndrome.” We maintain that this condition is genetically predisposed and is associated with endothelial dysfunction that is induced by oxidative stress. Subsequent edema can hinder cerebrospinal fluid efflux and can lead to locally increased pressures in the subarachnoid space within the orbit, which impinges on the optic nerve and/or eye in affected individuals. Confirming this hypothesis will help characterize the genetics of 1‐carbon pathway metabolism, homocysteine, oxidative stress, endothelial dysfunction, and cardiovascular and potentially other diseases.—Zwart, S. R., Gibson, C. R., Gregory, J. F., Mader, T. H., Stover, P. J., Zeisel, S. H., Smith, S. M. Astronaut ophthalmic syndrome. FASEB J. 31, 3746–3756 (2017). www.fasebj.org—Zwart, Sara R., Gibson, Charles R., Gregory, Jesse F., Mader, Thomas H., Stover, Patrick J., Zeisel, Steven H., Smith, Scott M., Astronaut ophthalmic syndrome. FASEB J. 31, 3746–3756 (2017)
doi_str_mv	10.1096/fj.201700294
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Astronauts with ophthalmic issues had significantly higher plasma concentrations of metabolites that are associated with the 1‐carbon metabolic pathway than those without ophthalmic issues. We hypothesized that genetic differences might explain the metabolite differences. Indeed, genetics and B vitamin status were significant predictors of ophthalmic issues. We now have developed a hypothesis regarding the mechanisms that link 1‐carbon pathway genetics and the condition that we suggest calling, “astronaut ophthalmic syndrome.” We maintain that this condition is genetically predisposed and is associated with endothelial dysfunction that is induced by oxidative stress. Subsequent edema can hinder cerebrospinal fluid efflux and can lead to locally increased pressures in the subarachnoid space within the orbit, which impinges on the optic nerve and/or eye in affected individuals. Confirming this hypothesis will help characterize the genetics of 1‐carbon pathway metabolism, homocysteine, oxidative stress, endothelial dysfunction, and cardiovascular and potentially other diseases.—Zwart, S. R., Gibson, C. R., Gregory, J. F., Mader, T. H., Stover, P. J., Zeisel, S. H., Smith, S. M. Astronaut ophthalmic syndrome. FASEB J. 31, 3746–3756 (2017). www.fasebj.org—Zwart, Sara R., Gibson, Charles R., Gregory, Jesse F., Mader, Thomas H., Stover, Patrick J., Zeisel, Steven H., Smith, Scott M., Astronaut ophthalmic syndrome. 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Astronauts with ophthalmic issues had significantly higher plasma concentrations of metabolites that are associated with the 1‐carbon metabolic pathway than those without ophthalmic issues. We hypothesized that genetic differences might explain the metabolite differences. Indeed, genetics and B vitamin status were significant predictors of ophthalmic issues. We now have developed a hypothesis regarding the mechanisms that link 1‐carbon pathway genetics and the condition that we suggest calling, “astronaut ophthalmic syndrome.” We maintain that this condition is genetically predisposed and is associated with endothelial dysfunction that is induced by oxidative stress. Subsequent edema can hinder cerebrospinal fluid efflux and can lead to locally increased pressures in the subarachnoid space within the orbit, which impinges on the optic nerve and/or eye in affected individuals. Confirming this hypothesis will help characterize the genetics of 1‐carbon pathway metabolism, homocysteine, oxidative stress, endothelial dysfunction, and cardiovascular and potentially other diseases.—Zwart, S. R., Gibson, C. R., Gregory, J. F., Mader, T. H., Stover, P. J., Zeisel, S. H., Smith, S. M. Astronaut ophthalmic syndrome. FASEB J. 31, 3746–3756 (2017). www.fasebj.org—Zwart, Sara R., Gibson, Charles R., Gregory, Jesse F., Mader, Thomas H., Stover, Patrick J., Zeisel, Steven H., Smith, Scott M., Astronaut ophthalmic syndrome. 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subjects	Aerospace Medicine Astronauts B vitamins Carbon Carbon Dioxide Cerebrospinal fluid Edema Edema - etiology Edema - pathology Efflux endothelial dysfunction Genetic Predisposition to Disease Genetics Homocysteine Humans Hypotheses International Space Station Metabolism Metabolites microgravity Optic nerve Oxidative metabolism Oxidative stress Space Flight Space missions Subarachnoid space Vision Disorders - etiology Vision Disorders - genetics Vision Disorders - physiopathology Vitamin B Complex - blood Vitamin B Complex - metabolism Weightlessness
title	Astronaut ophthalmic syndrome
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