Litcius/Paper detail

Small tissue chips with big opportunities for space medicine

Xuan Mu, Weishen He, Victoria Abril Manjarrez Rivera, Raul Armando Duran De Alba, Dava Newman, Yu Shrike Zhang

2022Life Sciences in Space Research32 citationsDOIOpen Access PDF

Abstract

The spaceflight environment, including microgravity and radiation, may have considerable effects on the health and performance of astronauts, especially for long-duration and Martian missions. Conventional on-ground and in-space experimental approaches have been employed to investigate the comprehensive biological effects of the spaceflight environment. As a class of recently emerging bioengineered in vitro models, tissue chips are characterized by a small footprint, potential automation, and the recapitulation of tissue-level physiology, thus promising to help provide molecular and cellular insights into space medicine. Here, we briefly review the technical advantages of tissue chips and discuss specific on-chip physiological recapitulations. Several tissue chips have been launched into space, and more are poised to come through multi-agency collaborations, implying an increasingly important role of tissue chips in space medicine.

Topics & Concepts

SpaceflightSpace radiationWeightlessnessSpace (punctuation)Space environmentComputer scienceBiochemical engineeringNanotechnologyEngineeringAerospace engineeringPhysicsMaterials scienceOperating systemCosmic rayAstronomyGeophysicsAstrophysicsSpaceflight effects on biology3D Printing in Biomedical ResearchBiomedical and Engineering Education