Greyout
A greyout (US English grayout) is a transient loss of vision characterized by a perceived dimming of light and color, sometimes accompanied by a loss of peripheral vision.[1] It is a precursor to fainting or a blackout and is caused by hypoxia (low brain oxygen level), often due to a loss of blood pressure.
Greyouts have a variety of possible causes:
- Shock, such as hypovolemia, even in mild form such as when drawing blood.
- Suddenly standing up (see orthostatic hypotension), especially if sick, hungover, or suffering from low blood pressure.
- Fatigue
- Paradoxically, hyperventilation: self-induced hypocapnia such as in the fainting game or in shallow water blackout.
- Overexertion
- Panic attack
Usually recovery is rapid and a greyout can be readily reversed by lying down. This way, the cardiovascular system does not need to work against gravity for blood to reach the brain.
A greyout may be experienced by aircraft pilots pulling high positive g-forces as when pulling up into a loop or a tight turn forcing blood to the lower extremities of the body and lowering blood pressure in the brain.[2] This is the reverse of a redout, or a reddening of the vision, which is the result of negative g-forces caused by performing an outside loop, that is by pushing the nose of the aircraft down. Redouts are potentially dangerous and can cause retinal damage and hemorrhagic stroke. Pilots of high performance aircraft can increase their resistance to greyout by using a g-suit, which controls the pooling of blood in the lower limbs, but there is no suit yet capable of controlling a redout. In both cases symptoms may be remedied immediately by easing pressure on the flight controls. Continued, or heavy g-force will rapidly progress to g-LOC (g-force induced Loss of Consciousness).
Surprisingly, even during a heavy greyout, where the visual system is severely impaired, pilots can still hear, feel, and speak.[3] Complete greyout and loss of consciousness are separate events.
Another common occurrence of greyouts is in roller coaster riders. Many roller coasters put riders through positive g-forces,[4] particularly in vertical loops and helices. Roller coasters rarely have high enough negative g-forces to induce redouts, as most low-g elements are designed to simulate weightlessness.
See also
Notes
- Mike Leahy; Zeron Gibson (2005-08-25). "G-Force Diary". BBC/Open University. Retrieved 2009-11-20.
- Braithwaite MG, Durnford SJ, Crowley JS, Rosado NR, Albano JP. "Spatial disorientation in U.S. Army rotary-wing operations." Aviation, Space, and Environmental Medicine 69(11):1031-7 (November 1998).
- Eoin Harvey, MD, Physiological Effects of Positive G Forces, British Aerobatic Association, archived from the original on 2012-07-22, retrieved 2009-11-20
- Douglas H. Smith; David F. Meaney (October 2002), "Roller Coasters, G Forces, and Brain Trauma: On the Wrong Track?", Journal of Neurotrauma, 19 (10): 1117–1120, doi:10.1089/08977150260337921, PMID 12427321