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Understanding vestibular-related physiological functions could provide clues on adapting to a new gravitational environment

Hironobu Morita, Hiroshi Kaji, Yoichi Ueta, Chikara Abe

2020The Journal of Physiological Sciences25 citationsDOIOpen Access PDF

Abstract

The peripheral vestibular organs are sensors for linear acceleration (gravity and head tilt) and rotation. Further, they regulate various body functions, including body stability, ocular movement, autonomic nerve activity, arterial pressure, body temperature, and muscle and bone metabolism. The gravitational environment influences these functions given the highly plastic responsiveness of the vestibular system. This review demonstrates that hypergravity or microgravity induces changes in vestibular-related physiological functions, including arterial pressure, muscle and bone metabolism, feeding behavior, and body temperature. Hopefully, this review contributes to understanding how human beings can adapt to a new gravitational environment, including the moon and Mars, in future.

Topics & Concepts

Vestibular systemHypergravityWeightlessnessNeuroscienceMotion sicknessLinear accelerationPhysical medicine and rehabilitationAnatomyComputer scienceMedicinePhysicsAccelerationBiologyAstrobiologyAstronomyClassical mechanicsRadiologySpaceflight effects on biologyHigh Altitude and HypoxiaThermoregulation and physiological responses
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