rootbrowseIAC-22A1session 22. Human Physiology in SpacePapers1. Changes in aerobic fitness and muscle blood flow relationships to exercise countermeasures on ISS2. Predicting of the success of extravehicular activities on the surface of the Moon or Mars3. Brain white matter microstructural changes after long-duration spaceflight as revealed by advanced diffusion MRI techniques – the rewired brain of space crew.4. Technology demonstration of electromyostimulation assisted ISS inflight exercises using the EasyMotion system5. The Vivaldi study: an integrative study of physiological changes induced by a 5-day dry immersion on 20 healthy female volunteers6. Peculiarities of cell-to-cell interaction between MSCs and adaptive and natural immunity cells under “dry” immersion7. ASSESSMENT OF ARTERIAL WALL STRUCTURE USING ULTRASOUND RADIO FREQUENCY PROCESSING. COMPARING DRY IMMERSION AND SPACEFLIGHT.8. The effect of disuse on mitochondrial respiration rate in human m. soleus9. Effects of countermeasure-exercise on cardiorespiratory fitness and inhibitory control during 120 and 240 days of spaceflight simulation – results from two SIRIUS campaigns10. Reproduction in Space: is human sperm altered by microgravity?11. Survey on studies investigating the effect of simulated microgravity on the musculoskeletal system12. Manual dexterity while wearing gloves designed to improve heat transfer13. Transcranial photobiomodulation modulates metabolism in the human brain as measured by phosphorus magnetic resonance spectroscopy