Litcius/Paper detail

Looking on the horizon; potential and unique approaches to developing radiation countermeasures for deep space travel

Rihana S. Bokhari, Afshin Beheshti, Sarah E. Blutt, Dawn E. Bowles, David Brenner, Robert A. Britton, Lawrence F. Bronk, Xu Cao, Anushree Chatterjee, Delisa E. Clay, Colleen M. Courtney, Donald T. Fox, M. Waleed Gaber, Sharon Gerecht, Peter Grabham, David R. Grosshans, Fada Guan, Erin A. Jezuit, David G. Kirsch, Zhandong Liu, Mirjana Maletić‐Savatić, Kyle M. Miller, Ruth A. Montague, Prashant Nagpal, Sivan Osenberg, Luke Parkitny, Niles A. Pierce, Christopher D. Porada, Susan M. Rosenberg, Paul R. Sargunas, Sadhana Sharma, Jamie B. Spangler, Daniel Naveed Tavakol, Dilip Thomas, Gordana Vunjak‐Novakovic, Chunbo Wang, Luke Whitcomb, Damian W. Young, Dorit Donoviel

2022Life Sciences in Space Research15 citationsDOIOpen Access PDF

Abstract

Future lunar missions and beyond will require new and innovative approaches to radiation countermeasures. The Translational Research Institute for Space Health (TRISH) is focused on identifying and supporting unique approaches to reduce risks to human health and performance on future missions beyond low Earth orbit. This paper will describe three funded and complementary avenues for reducing the risk to humans from radiation exposure experienced in deep space. The first focus is on identifying new therapeutic targets to reduce the damaging effects of radiation by focusing on high throughput genetic screens in accessible, sometimes called lower, organism models. The second focus is to design innovative approaches for countermeasure development with special attention to nucleotide-based methodologies that may constitute a more agile way to design therapeutics. The final focus is to develop new and innovative ways to test radiation countermeasures in a human model system. While animal studies continue to be beneficial in the study of space radiation, they can have imperfect translation to humans. The use of three-dimensional (3D) complex in vitro models is a promising approach to aid the development of new countermeasures and personalized assessments of radiation risks. These three distinct and unique approaches complement traditional space radiation efforts and should provide future space explorers with more options to safeguard their short and long-term health.

Topics & Concepts

Risk analysis (engineering)Computer scienceNASA Deep Space NetworkCountermeasureHuman healthSpace explorationAgile software developmentFocus (optics)Data scienceSystems engineeringComputer securityBusinessMedicineEngineeringAerospace engineeringPhysicsSoftware engineeringEnvironmental healthSpacecraftOpticsSpaceflight effects on biologyRadiation Therapy and DosimetryEffects of Radiation Exposure