Astronaut Health and Performance

What we do today

• Guarding–Assessing–Informing–Mitigating Risks
  • Guarding against exposure
    • Operate the on call 24/7 radiation console for the ISS and for Artemis 1 Mission with NASA Flight Control Team        
    • Work with NOAA Space Weather Prediction Center and GFSC Moon-to-Mars Office
  • Assessing–Informing–Mitigating
    • Provide radiation instruments, data analysis, and environmental characterization to assess, inform and mitigate crew risks associated with space radiation
    • Monitored radiation activities for over 300 Space Extra-Vehicular; generated 1,200 Astronaut Radiation Dosimetry reports

How we enable tomorrow

• Prepare for future missions (Gateway, Human Landing Systems, EVA Suits, Lunar Surface Mobility)
  • Characterizing the radiation environment, developing concepts of operation and instrumentation
  • Improving space weather forecast models (with academia)
• Assessing deep space radiation cancer risks (with Oakridge Center for Risk Analysis)

What we do today

• At the intersection of science and engineering, Leidos provides human factors and human system integration experts – including three Leidos Technical Fellows - to ensure safe, effective, and efficient human-machine interfaces.
  • Leidos human factors engineers employ an astronaut-centric design approach to spacecraft to enable the success of human operators executing research on-orbit. For example, experts in lighting system management tailor systems to ensure crew quarters are properly illuminated for tasks and living.
  • Food scientists at Leidos lead the world in testing, preparing, and packaging nutritious and delicious foods for the spaceflight environment, keeping space crews gratified and productive.

How we enable tomorrow

• Leidos human factors SMEs are actively evaluating and providing specific recommendations to the developers of NASA and commercial space craft, including ways to help optimize human performance.

What we do today

• Keeping the crew healthy - Maintaining fitness
  • Develop and assess medical standards, exercise devices, vehicle and spacesuit requirements, and countermeasures, using our biomedical expertise
  • Develop and assess physiologic adaptation devices for ground-based studies
  • Provide expert technical solutions, guidance, and support
    • Help with weightless physical fitness, operation of medical and research equipment, study-unique hardware/software, and training protocols

How we enable tomorrow

• Use our immediately accessible research analog (our Navy sailor health research) for low-risk insights into human factors and countermeasure inspiration
• Design simple, effective exercise machines—essential for long-duration, deep-space missions, where replacement parts are few and crew performs all maintenance

What we do today

• Providing knowledge and insight, from defining requirements, to integrating spaceflight systems, to delivering the data
  • Keeping experiments running
    • Support on-orbit research, on console, through the JSC Telescience Support Center
    • Supported 20,000 hours of on-orbit research on the ISS—73 ISS biomedical experiments; 89 Principal Investigators
• Finding the subjects—Recruiting participants for research and NASA studies

• 24/7 support—Providing on-mission support through a 24/7 Mission Control Center for NASA’s Human Exploration Research Analog

How we enable tomorrow

• Knowing what’s ahead—Use virtual reality for training, remote support, and simulation—easily adaptable for deep space support
• Watching over their health—Building earth-analogs for submariners to study wellness, psychological factors, and undersea warfighter health and performance, working with the Naval Submarine Medical Research Laboratory 
• Seeing the details
  • Provide unique insight into astronaut-centric and analogous environments, using our sensor technology
  • Autonomous operations and submarine design (through our Maritime group and Gibbs & Cox subsidiary)

What we do today

• Illuminating cancer and other health risks
  • Investigating and experimenting
    • Implemented 73 space-centered biomedical investigations
    • Support 21 ongoing investigations to address risks to human spaceflight
• Analyzing the information
  • Delivered the Information Management Platform for Data Analytics and Aggregation (IMPALA) for the NASA Human Health and Performance Directorate
• Linking the studies to find a cure
  • Support researchers from the Frederick National Laboratory for Cancer Research (FNLCR) and leverage the ISS National Lab
  • Crystalize a protein linking to several of the deadliest cancers, including pancreatic, lung, and colon cancers

How we enable tomorrow

• Reinventing diagnostics
  • Developed technology to represent organs digitally (digital twining) with a team of over 1,000 researchers at FNLCR
    • Leverage for future spaceflight diagnostics
• Addressing health in remote environments
  • Provide access to over 12,000 medical partners nation-wide to support astronaut health examinations and diagnostic testing with our mobile clinics (through our QTC subsidiary)
  • Provide accurate health records and liberate clinician time and money through our electronic health record system (DoD GENESIS)

What we do today 

• Manage laboratories and facilities through our NASA JSC HHPC team
  • Feeding the crew—Research, develop, and provide food on the ISS and future deep Space Missions (NASA Space Food Research Laboratory)
  • Training—Train the crew for biomedical space flight research in an ISS mockup facility (NASA Human Research Program Payload Development Laboratory)
  • Lowering radiation risk—Develop and produce radiation monitoring devices (NASA Space Radiation Hardware Laboratory)
  • Sound Engineering—Study spaceflight hardware acoustics (NASA Acoustics Laboratory)
  • Collecting samples—Provide space hardware and kits to collect blood, urine, and fecal samples in space and Earthside data analysis (Metabolic Laboratory)

How we enable tomorrow

• Supporting drug discovery and development—Produce pharmaceuticals for first-in-human clinical trials
• Protecting the astronaut—building and deploying a Personal Protection Biosystem that lets pathogens out of a protective suit, and preventing them from coming in

What we do today

• Leidos scientists and engineers support every crewed mission to the International Space Station
• Coordinate all pre-flight biomedical data collection including over 22,000 hours of testing for 70+ completed ISS experiments and 21 on-going experiments
• Provide certified training services for Astronauts participating in human and animal space research studies and coordinate with principal investigators to ensure proper execution
• Provide turnkey space flight analog facility management, engineering, and project execution for human subjects in the US, Germany and Russia
• Exercise professional, end-to-end project management discipline for Space Research Missions and individual biomedical space research experiments

How we enable tomorrow

• Over 1,100 Leidos employees with PhDs and 50 distinguished technical fellows with a wide variety of scientific expertise to augment research, improve laboratory management, advance engineering processes, and deliver integration tools
• Tools and capabilities such as compute-at-the-edge, artificial intelligence, and autonomous technology for astronauts and space research as space missions move further from earth and require sophisticated support for critical decision-making with minimal or no guidance support from Earth

What we do today 

• Coordinated  22,000+ hours of post-flight biomedical data collection for 70+ completed ISS biomedical experiments
  • Also completed recovery, handling, and distribution of 5,000+ samples for those same 70+ ISS biomedical experiments
• After validating the integrity of both the experiments and the corresponding data, we expedite the transfer of all materials to the PIs to enable post-flight analytics.
• Disseminate shared research data to ISS biomedical researchers and select data to NASA Flight Surgeons

How we enable tomorrow

• Lessons learned routine after each mission provides a robust library for reference as new missions and experiments are conceived and designed
• Our team of 400+ research personnel including epidemiologists, statisticians, psychologists, physiologists, neuroscientists, biomechanists, clinical researchers, and engineers conduct human subject research and data-driven research to drive decision making and improve the health, performance, and readiness of our nation’s warfighters that readily extends to the astronaut.