Weightlessness as an accelerated model of nutritional disturbances
Weightlessness as an accelerated model of nutritional disturbances
Food intake and eating patterns, body functions and composition are significantly altered by short-duration space flight. Prolonged missions lasting weeks or months further aggravate these changes, and are responsible for acute or chronic physical impairments at return to ground conditions. Current projects of missions to Mars, resulting in 2 years of microgravity conditions, stress the critical need for the development of optimal nutritional programs and physical countermeasures to prevent body mass and function alterations. This review outlines ground models of microgravity simulation, summarizes the major effects of weightlessness on body composition, protein metabolism, hormonal pattern, and muscle function, and addresses contradictory findings related to the oxidative stress secondary to space flight. Potential countermeasures, such as nutrient intake and physical conditioning, as well as areas of interest for future research both in ground and space medicine, are discussed.
301-306
Maillet, A.
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Beaufrere, B.
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Di Nardo, P.
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Elia, M.
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Pichard, C.
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2001
Maillet, A.
65328e7f-8783-451d-8ebd-b392d2192bb0
Beaufrere, B.
c1880a63-bc62-4914-8201-cd3ffbb5d8ae
Di Nardo, P.
c0d45921-e64c-4f4e-a82c-a1cb35c59242
Elia, M.
964bf436-e623-46d6-bc3f-5dd04c9ef4c1
Pichard, C.
005116e9-3753-4c67-b311-f28de73c3f33
Maillet, A., Beaufrere, B., Di Nardo, P., Elia, M. and Pichard, C.
(2001)
Weightlessness as an accelerated model of nutritional disturbances.
Current Opinion in Clinical Nutrition and Metabolic Care, 4 (4), .
Abstract
Food intake and eating patterns, body functions and composition are significantly altered by short-duration space flight. Prolonged missions lasting weeks or months further aggravate these changes, and are responsible for acute or chronic physical impairments at return to ground conditions. Current projects of missions to Mars, resulting in 2 years of microgravity conditions, stress the critical need for the development of optimal nutritional programs and physical countermeasures to prevent body mass and function alterations. This review outlines ground models of microgravity simulation, summarizes the major effects of weightlessness on body composition, protein metabolism, hormonal pattern, and muscle function, and addresses contradictory findings related to the oxidative stress secondary to space flight. Potential countermeasures, such as nutrient intake and physical conditioning, as well as areas of interest for future research both in ground and space medicine, are discussed.
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Published date: 2001
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Local EPrints ID: 25778
URI: http://eprints.soton.ac.uk/id/eprint/25778
PURE UUID: 5937ba60-2f5d-4f56-96dd-38553108a0be
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Date deposited: 07 Apr 2006
Last modified: 08 Jan 2022 01:02
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Author:
A. Maillet
Author:
B. Beaufrere
Author:
P. Di Nardo
Author:
C. Pichard
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