Influence of Space Environments in System Physiologic and Molecular Integrity: Redefining the Concept of Human Health beyond the Boundary Conditions of Earth

David A. Hart

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Influence of Space Environments in System Physiologic and Molecular Integrity: Redefining the Concept of Human Health beyond the Boundary Conditions of Earth

Influence of Space Environments in System Physiologic and Molecular Integrity: Redefining the Concept of Human Health beyond the Boundary Conditions of Earth

作者：

David A. Hart

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Space

Exploration

ASTRONAUT

Health

Metabolic

Set

Points

EPIGENETICS

Human

Genome

New

Definitions

摘要：

Space travel since the 1960s has led to a number of physiological alterations to homeostasis in astronauts. Extensive variation in the pattern of responses observed has led a concerted effort to develop countermeasures to overcome such changes and restore homeostasis, and thus “health” is defined as more “Earth-like”. These adaptations to a space environment by a species which evolved and normally exists in the 1 g environment, the geomagnetic field, and background radiation of Earth are viewed as threats to health as defined by the conditions of Earth. Exposure to space can lead to alterations in genomic stability and epigenetic signatures, alterations which could redefine “health” and responses to risks for loss of health for those who will return to Earth. In contrast, in the future individuals born in non-Earth space environments will likely develop an integrated metabolic set point defined by those conditions. They will thus be shaped by both the local environments, and space-associated genomic/epigenomic alterations to their parents. Therefore, such an altered set point for those born and raised in non-Earth space environments will potentially have physiological and molecular consequences which may lead to either new evolutionary adaptation, or to compromise of long term health due to drastically altered set points for integrated physiologic function which is at odds with the evolutionary history of humans. The implications of the two options will be critical for defining “health” in altered environments encountered during space ventures, as well as providing insights into the regulation of human integrity at the physiological level. Therefore, the definition of “health” is dependent on the boundary conditions surrounding development and maturation, and is a dynamic concept.

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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	Influence of Space Environments in System Physiologic and Molecular Integrity: Redefining the Concept of Human Health beyond the Boundary Conditions of Earth
来源期刊	生物医学工程(英文)	学科	医学
关键词	Space Exploration ASTRONAUT Health Metabolic Set Points EPIGENETICS Human Genome New Definitions
年，卷（期）	swyxgcyw_2019,（8）	所属期刊栏目
研究方向		页码范围	400-408
页数	9页	分类号	R73
字数		语种
DOI