Influence of hypobaric hypoxic conditions on ocular structure and biological function at high attitudes: a narrative review

With the development of science and technology, high-altitude environments, involving aviation, aerospace, and mountainous regions, have become the main areas for human exploration, while such complex environments can lead to rapid decreases in air and oxygen pressure. Although modern aircrafts have...

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Bibliographic Details
Published in:Frontiers in neuroscience 2023-05, Vol.17, p.1149664-1149664
Main Authors: Wang, Yuchen, Yu, Xinli, Liu, Ziyuan, Lv, Zhongsheng, Xia, Huaqin, Wang, Yiren, Li, Jiaxi, Li, Xuemin
Format: Article
Language:English
Subjects:
Altitude
Anterior chamber
Apoptosis
Aviation
biological function
Blood flow
Color vision
Cornea
dynamic visual performance
Edema
Endothelium
Eye lens
high attitude
High-altitude environments
hypobaric hypoxia
Hypoxia
Ischemia
Mitochondrial DNA
Neuroscience
ocular structure
Retina
Sense organs
Structure-function relationships
Visual field
Visual perception
Visual system
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Summary:With the development of science and technology, high-altitude environments, involving aviation, aerospace, and mountainous regions, have become the main areas for human exploration, while such complex environments can lead to rapid decreases in air and oxygen pressure. Although modern aircrafts have pressurized cabins and support equipment that allow passengers and crew to breathe normally, flight crew still face repeated exposure to hypobaric and hypoxic conditions. The eye is a sensory organ of the visual system that responds to light and oxygen plays a key role in the maintenance of normal visual function. Acute hypoxia changes ocular structure and function, such as the blood flow rate, and can cause retinal ischemia. We reviewed researches, and summarized them briefly in a review. The acute hypobaric hypoxia affects corneal, anterior chamber angle and depth, pupils, crystal lens, vitreous body, and retina in structure; moreover, the acute hypoxia does obvious effect on visual function; for example, vision, intraocular pressure, oculometric features and dynamic visual performance, visual field, contrast sensitivity, and color perception. We summarized the changes in the physiological structure and function of the eye in hypoxic conditions and to provide a biological basis for the response of the human eye at high-altitude.
ISSN:1662-4548
1662-453X
1662-453X
DOI:10.3389/fnins.2023.1149664