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Validation of a New Rodent Experimental System to Investigate Consequences of Long Duration Space Habitation

Sungshin Choi, Amanda Saravia-Butler, Yasaman Shirazi‐Fard, Dennis B. Leveson-Gower, Louis Stodieck, Samuel M. Cadena, J. Beegle, Stephanie Solis, April E. Ronca, Ruth K. Globus

2020Scientific Reports53 citationsDOIOpen Access PDF

Abstract

Animal models are useful for exploring the health consequences of prolonged spaceflight. Capabilities were developed to perform experiments in low earth orbit with on-board sample recovery, thereby avoiding complications caused by return to Earth. For NASA's Rodent Research-1 mission, female mice (ten 32 wk C57BL/6NTac; ten 16 wk C57BL/6J) were launched on an unmanned vehicle, then resided on the International Space Station for 21/22d or 37d in microgravity. Mice were euthanized on-orbit, livers and spleens dissected, and remaining tissues frozen in situ for later analyses. Mice appeared healthy by daily video health checks and body, adrenal, and spleen weights of 37d-flight (FLT) mice did not differ from ground controls housed in flight hardware (GC), while thymus weights were 35% greater in FLT than GC. Mice exposed to 37d of spaceflight displayed elevated liver mass (33%) and select enzyme activities compared to GC, whereas 21/22d-FLT mice did not. FLT mice appeared more physically active than respective GC while soleus muscle showed expected atrophy. RNA and enzyme activity levels in tissues recovered on-orbit were of acceptable quality. Thus, this system establishes a new capability for conducting long-duration experiments in space, enables sample recovery on-orbit, and avoids triggering standard indices of chronic stress.

Topics & Concepts

SpaceflightOrbit (dynamics)SpleenRodentAtrophyInternational Space StationEarth's orbitOn boardBiologyMedicineInternal medicineImmunologyPhysicsEcologyAerospace engineeringSpacecraftEngineeringAstronomySpaceflight effects on biologyMuscle metabolism and nutritionMuscle Physiology and Disorders
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