Scientific Program

Information will be presented later

Scientific directions:

  • Gravitational physiology for personalized space medicine
  • Genetic, proteomic and metabolic changes in space missions - lessons for personalized medicine
  • Habitat, life support systems and nutrition in long-duration space missions
  • Microbiological risks for long-duration missions
  • Astrobiology, space biology and space biotechnology
  • Space tech for public healthcare
  • Reproductive system changes as a limiting factor for deep space colonization
  • Approaches to comprehensive risk assessment of interplanetary missions
  • Actual bioethical aspects of space research
  • Expertise and perspectives of medical support for space missions
  • Psychophysiological risks at all stages of interplanetary expeditions
  • Specifics of positive interaction of cosmonauts in-mission: mixed crews, crew-mission control center
  • Psychophysiological stress caused by the factors of a long-duration space mission out of low orbits
  • Psychological support for interplanetary manned missions and autonomous long-duration terrestrial expeditions
  • Psychological and social rehabilitation of crews after long-duration missions
  • Ground model experiments: analog isolation research in hermetic chambers for medical and psychological support of autonomous long-duration expeditions
  • Artificial intelligence, virtual reality, psychological computer technologies and telemedicine on Earth and in interplanetary missions
  • Hypomagnetic environment: risk assessment and countermeasures
  • Ground model experiments: the dry immersion
  • Ground model experiments: orthostatic and anti-orthostatic hypokinesia
  • Molecular and cellular changes in space flights and ground-based model experiments
  • Changes in the cardiovascular and respiratory systems in weightlessness
  • Changes in the musculoskeletal system in weightlessness
  • Changes in the locomotion control system in weightlessness
  • Assessment and prevention of the neuro-ocular syndrome in space missions
  • Countermeasures to the weightlessness negative effects in orbital missions - lessons for interplanetary flights
  • Space radiation biological effects: from fundamental knowledge to practical recommendations
  • Radiation exposure: assessment and physical and biological changes mechanisms in space missions and model experiments
  • Space radiation protection in near-Earth and interplanetary missions
  • IBMP history "Space biomedicine: Earth-orbit-deep space"
  • IBMP's scientific schools
  • Memories of the IBMP's outstanding scientists
  • The role of IBMP in education and promotion of achievements in space biomedicine