rootbrowseIAC-17A1session 22. Human Physiology in SpacePapers1. Spaceflight-induced neuroplasticity: first insights from parabolic flights and long-duration spaceflight2. Two tests used for display interface design: dynamic visual acuity and chromatic contrast sensitivity3. Genomics and proteomics analysis of hippocampus reveals potential mechanisms underlying spatial memory deficiency induced by long-term simulated microgravity4. analysis of differenct zero-g simulation ergometer exercise protocols on aerobic capacity and orthostatic tolerance5. Musculoskeletal outcomes from chronic high-speed high-impact resistance exercise6. The benefits of lower extremity loading in space due to the seated execution of ordinary calf raises and the leg press on human subjects7. Lessons learned from countermeasures reducing the negative physiological effects of microgravity based on the seventh Russian super-long mission8. Muscle tone and stiffness in long-term bed rest with reactive jumps as countermeasure, and reconditioning: First results from ESA RSL Study at the DLR:envihab facility (2015-16)9. Effects of suited and unsuited locomotor gaits in simulated fractional gravity environments on the muscles of the lower leg10. Mismatch between cardiac mechanical forces and kinetic energy during long term space flight measured by 3D – ballistocardiography11. Heart Kinetic wearable monitoring vs c-MRI: cardiac deconditioning during the 60-days ESA-RSL head-down bed-rest study.12. evaluation of endothelial function during simulation of interplanetary spaceflight with mars sol in 180d celss experiment13. Fat and Bone during the ISS4Mars Mission: an integrated endocrine approach14. INTRODUCING AN AEROSPACE MEDICINE SYSTEMATIC REVIEW GROUP15. The importance of tissue weight and tissue compressive forces in human spaceflight16. Core body temperatures in astronauts on the international space station