Computational modeling of orthostatic intolerance for travel to Mars
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van Loon, Lex
Steins, Anne
Schulte, Klaus-Martin
Gruen, Russell Lindsay
Tucker, Emma
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Nature Publishing Group UK
Abstract
Astronauts in a microgravity environment will experience significant changes in their cardiopulmonary system. Up until now, there
has always been the reassurance that they have real-time contact with experts on Earth. Mars crew however will have gaps in their
communication of 20 min or more. In silico experiments are therefore needed to assess fitness to fly for those on future space
flights to Mars. In this study, we present an open-source controlled lumped mathematical model of the cardiopulmonary system
that is able simulate the short-term adaptations of key hemodynamic parameters to an active stand test after being exposed to
microgravity. The presented model is capable of adequately simulating key cardiovascular hemodynamic changes—over a short
time frame—during a stand test after prolonged spaceflight under different gravitational conditions and fluid loading conditions.
This model can form the basis for further exploration of the ability of the human cardiovascular system to withstand long-duration
space flight and life on Mars.
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npj Microgravity
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Open Access
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Creative Commons Attribution 4.0 International License
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