Abstract
NASA's currently planned long-duration, deep space exploration missions outside of low Earth orbit (LEO) will result in the exposure of astronauts to relatively high lifetime doses of ionizing radiation (IR), exceeding what humans have previously encountered in space. Of concern to this exposure are the long-term health consequences of radiation carcinogenesis, cardiovascular and degenerative disease, and central nervous system decrements. Existing engineering solutions are insufficient to decrease the lifetime accumulated IR exposure to levels currently allowable by agency standards, therefore appropriate countermeasure and mitigation strategies must be developed to enable long duration missions. Emerging discoveries in the fields of radiation oncology and the mitigation of Acute Radiation Syndrome (ARS) have demonstrated the potential for compound-based/biological radiomodifiers to drastically improve clinical outcomes and represent a promising strategy for space radiation countermeasure development. This review outlines the unique challenges posed by the space radiation environment, defines the limits of terrestrial radiation protection strategies in space, describes a brief overview of current space radiation countermeasure development strategies, highlights potential new approaches for countermeasure identification and development, and speculates on the potential benefits beyond space exploration.
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