Are We Learning as Much as Possible from Spaceflight to Better Understand Health and Risks to Health on Earth, as Well as in Space?

David A. Hart

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Are We Learning as Much as Possible from Spaceflight to Better Understand Health and Risks to Health on Earth, as Well as in Space?

Are We Learning as Much as Possible from Spaceflight to Better Understand Health and Risks to Health on Earth, as Well as in Space?

作者：

David A. Hart

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Physiology

Genome

EPIGENOME

SPACE

Flight

PRECISION

Medicine

PRECISION

HEALTH

Silent

Mutations

Accelerated

Aging

摘要：

The objective of this review is to discuss the changes in human biology and physiology that occur when humans, who evolved on Earth for millions of years, now are subjected to space flight for extended periods of time, and how detailing such changes associated with space flight could help better understand risks for loss of health on Earth. Space programs invest heavily in the selection and training of astronauts. They also are investing in maintaining the health of astronauts, both for extensive stays in low earth orbit on ISS, and in preparation for deep space missions in the future. This effort is critical for the success of such missions as the N is small and the tasks needed to be performed in a hostile environment are complex and demanding. However, space is a unique environment, devoid of many of the “boundary conditions” that shaped human evolution (e.g. 1 g environment, magnetic fields, background radiation, oxygen, water, etc). Therefore, for humans to be successful in space, we need to learn to adapt and minimize the impact of an altered environment on human health. Conversely, we can also learn considerably from this altered environment for life on earth. The question is, are we getting the maximal information from life in space to learn about like on earth? The answer is likely No, and as such, our “Return on Investment” is not as great as it could be. Even though the number of astronauts is not large, what we can learn from them could help shape new questions for research focused on health for those on earth, as well is contribute to “precision health” from the study of astronaut diversity. This latter effort would contribute to both the health of astronauts identifying risks, as well as contribute to health on earth via better understanding of the human genome and epigenome, as well as factors contributing to risk for diseases on earth, particularly as individuals age and regulatory systems become altered. Better use of the International Space Station, and similar platforms in the futur

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生物医学工程（英文）2021 生物医学工程（英文）2020 生物医学工程（英文）2019 生物医学工程（英文）2018 生物医学工程（英文）2017 生物医学工程（英文）2015 生物医学工程（英文）2014

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篇名	Are We Learning as Much as Possible from Spaceflight to Better Understand Health and Risks to Health on Earth, as Well as in Space?
来源期刊	生物医学工程(英文)	学科	医学
关键词	Physiology Genome EPIGENOME SPACE Flight PRECISION Medicine PRECISION HEALTH Silent Mutations Accelerated Aging
年，卷（期）	2018,（6）	所属期刊栏目
研究方向		页码范围	109-118
页数	10页	分类号	R73
字数		语种
DOI