Abstract
Saliva based technologies are the future of devices for health monitoring of human beings in space and earth: Balwant Rai A few months ago, India launched its very first spacecraft on an unmanned mission to Mars. Other space agencies including NASA, ESA, and others will probably turn their focus to manned missions to Mars. During such extended space travel, the body is prone to a number of adverse effects, including modifications in the oral cavity. Various studies have been carried out on the effects of simulated microgravity and Mission analog missions on the oral cavity, but this issue needs to be extended to explore and make specific guidelines for oral dental management during space missions. ®
Highlights
Saliva based technologies are the future of devices for health monitoring of human beings in space and earth: Balwant Rai A few months ago, India launched its very first spacecraft on an unmanned mission to Mars
Other space agencies including NASA, ESA, and others will probably turn their focus to manned missions to Mars. During such extended space travel, the body is prone to a number of adverse effects, including modifications in the oral cavity
Salivary samples were collected using VersiSAL® (Oasis, Vancouver, USA) and the salivary proteome was analyzed during a Mars analog mission
Summary
Editorial ace Engineering Journal of Aeronautics & Aerospace Engineering Salivary Proteome During Simulated Mars Analog Missions: Aeronautical (Space) Dentistry Balwant Rai1,2* 1Associate Professor, Faculty of Earth and Life Sciences, Kepler Space Institute, USA 2President, JBR Society, India
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