Spaceflight is characterized by unique physiological adaptations. Cardiovascular system response to the microgravity includes major changes. During spaceflight, body fluids are displaced in the cephalad direction due to changes in gravity, resulting in altered vascular dynamics and the redistribution of the blood circulation. As the investigators approach crewed Moon and Mars missions and commercial spaceflights become more frequent, understanding the impact of space travel on women's health is crucial. Despite the known importance of these vascular dynamics in both clinical and research settings, there is limited information on the pelvic blood flow under microgravity. The aim of this project is to fill this gap by analyzing the impact of simulated microgravity on the perfusion of female reproductive organs using Doppler velocimetry. Head-down tilt (HDT) position is an established model in literature for simulated microgravity on Earth. This prospective study will assess pelvic organ blood flow in the supine position after a period of acclimation as a control. After completing Doppler measurements in the supine position, the participant will be placed in the HDT position. Following a period of acclimation, Doppler measurements will be repeated on the same vessels.During both supine and simulated microgravity conditions, vital signs (i.e., blood pressure, heart rate, oxygen saturation) will be collected.
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Internal iliac artery Doppler indices before and after HDT
Timeframe: through study completion, an average of 1 year