Rebecca S. Blue scite author profile

Despite years of research, understanding of the space radiation environment and the risk it poses to long-duration astronauts remains limited. There is a disparity between research results and observed empirical effects seen in human astronaut crews, likely due to the numerous factors that limit terrestrial simulation of the complex space environment and extrapolation of human clinical consequences from varied animal models. Given the intended future of human spaceflight, with efforts now to rapidly expand capabilities for human missions to the moon and Mars, there is a pressing need to improve upon the understanding of the space radiation risk, predict likely clinical outcomes of interplanetary radiation exposure, and develop appropriate and effective mitigation strategies for future missions. To achieve this goal, the space radiation and aerospace community must recognize the historical limitations of radiation research and how such limitations could be addressed in future research endeavors. We have sought to highlight the numerous factors that limit understanding of the risk of space radiation for human crews and to identify ways in which these limitations could be addressed for improved understanding and appropriate risk posture regarding future human spaceflight.

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Supplying a pharmacy for NASA exploration spaceflight: challenges and current understanding

Blue

Bayuse

Daniels

et al. 2019

npj Microgravity

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In order to maintain crew health and performance during long-duration spaceflight outside of low-Earth orbit, NASA and its international partners must be capable of providing a safe and effective pharmacy. Given few directed studies of pharmaceuticals in the space environment, it is difficult to characterize pharmaceutical effectiveness or stability during spaceflight; this in turn makes it challenging to select an appropriate formulary for exploration. Here, we present the current state of literature regarding pharmaceutical stability, metabolism, and effectiveness during spaceflight. In particular, we have attempted to highlight the gaps in current knowledge and the difficulties in translating terrestrial-based drug studies to a meaningful interpretation of drug stability, safety, and effectiveness in space. We hope to identify high-yield opportunities for future research that might better define and mitigate pharmaceutical risk for exploration missions.

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Tolerance of Centrifuge-Simulated Suborbital Spaceflight by Medical Condition

Blue

Pattarini

Reyes

et al. 2014

aviat space environ med

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Space Medicine in the Era of Civilian Spaceflight

2019

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Rebecca S. Blue

Limitations in predicting the space radiation health risk for exploration astronauts

Supplying a pharmacy for NASA exploration spaceflight: challenges and current understanding

Tolerance of Centrifuge-Simulated Suborbital Spaceflight by Medical Condition

Space Medicine in the Era of Civilian Spaceflight

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