rootbrowseIAC-14A1session 22. Human Physiology in SpacePapers1. Biomedical support of exploration missions and international cooperation2. Understanding the effects of spaceflight on head-trunk coordination during walking and obstacle avoidance3. Functional sensory-motor performance following long term space flight: the first results of “Field Test” experiment4. Ways to optimize the joint action of locomotion and resistance training in extended missions with allowance for individual profiles of cosmonauts5. ISS experiment BP Reg: an inflight test of risk for fainting after long-duration spaceflight6. The new space experiment COSMOCARD onboard the ISS7. Anthropometric variations and orthostatic stability during sustained acceleration in a short arm human centrifuge (SAHC) amongst +Gz naive test subjects: form influences function.9. Artificial gravity by short arm centrifuge of 1.4 m with exercise as the countermeasures for spaceflight deconditioning10. Combining Ergometer Exercise and Artificial Gravity11. Cardiovascular adaptations during sustained acceleration in a short-arm human centrifuge Increases in heart rate, and total peripheral resistance are the main counter-measures during consecutive +g-force exposure12. Electrical muscle stimulation and/or dynamic fluid flow loading - effective countermeasure on attenuation of musculoskeletal loss