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By European Space Agency
The Space Resources Challenge was launched last week, an opportunity for innovators to pioneer the technologies that will help humankind live and work sustainably on the Moon.
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By NASA
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Preparations for Next Moonwalk Simulations Underway (and Underwater)
Expedition 64 Flight Engineer Victor Glover of NASA sips on a water bag. The latest book marks our third effort to review available literature regarding the role of nutrition in astronaut health. In 2009, we reviewed the existing knowledge and history of human nutrition for spaceflight, with a key goal of identifying additional data that would be required before NASA could confidently reduce the risk of an inadequate food system or inadequate nutrition to as low as possible in support of human expeditions to the Moon or Mars. We used a nutrient-by-nutrient approach to address this effort, and we included a brief description of the space food systems during historical space programs.
In 2014, we published a second volume of the book, which was not so much a second edition, but rather a view of space nutrition from a different perspective. This volume updated research that had been published in the intervening 6 years and addressed space nutrition with a more physiological systems-based approach.
The current version is an expanded, updated version of that second book, providing both a systems approach overall, but also including details of nutrients and their roles within each system. As such, this book is divided into chapters based on physiological systems (e.g., bone, muscle, ocular); highlighted in each chapter are the nutrients associated with that particular system. We provide updated information on space food
systems and constraints of the same, and provide dietary intake data from International Space Station (ISS) astronauts.
We present data from ground-based analog studies, designed to mimic one or more conditions similar to those produced by spaceflight. Head-down tilt bed rest is a common analog of the general (and specifically musculoskeletal) disuse of spaceflight. Nutrition research from Antarctica relies on the associated confinement
and isolation, in addition to the lack of sunlight exposure during the winter months. Undersea habitats help expand our understanding of nutritional changes in a confined space with a hyperbaric atmosphere. We also review spaceflight research, including data from now “historical” flights on the Space Shuttle, data from the Russian space station Mir, and earlier space programs such as Apollo and Skylab. The ISS, now more than
20 years old, has provided (and continues to provide) a wealth of nutrition findings from extended-duration spaceflights of 4 to 12 months. We review findings from this platform as well, providing a comprehensive review of what is known regarding the role of human nutrition in keeping astronauts healthy.
With this latest book, we hope we have accurately captured the current state of the field of space food and nutrition, and that we have provided some guideposts for work that remains to be done to enable safe and successful human exploration beyond low-Earth orbit.
Human Adaptation to Spaceflight: The Role of Food and Nutrition – 2nd Edition
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Human Adaptation to Spaceflight: The Role of Food and Nutrition – 1st Edition
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Last Updated Oct 23, 2024 EditorRobert E. LewisLocationJohnson Space Center Related Terms
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By NASA
NASA canvases the areas impacted by Hurricane Milton using cloud-penetrating L-band radar providing responders insight into flooding across Florida.NASA In the wake of Hurricane Milton, NASA is deploying resources to support Federal Emergency Management Agency (FEMA) and state emergency management agencies to aid their response effort including satellite and aerial data collection.
The agency’s Disasters Response Coordination System and Airborne Science Program are began conducting flights Friday to provide emergency responders with better insight into flooding, damage in Florida, and debris.
“After the devastating impact from hurricanes Helene and Milton, NASA immediately sprang into action,” said Karen St. Germain, director, Earth Sciences Division at NASA Headquarters in Washington. “Whether it is through observations from space or from airplanes, NASA is ready to assist communities affected by severe storms. We are working together with our federal and state partners to provide a better understanding of what is happening on the ground, in real time. NASA’s Disasters Response Coordination System was designed with the goal of delivering trusted, actionable Earth science information, where and when people need it, to enable effective response when these events strike.”
NASA’s Uninhabited Aerial Synthetic Aperture Radar Vehicle (UAVSAR) instrument is gathering rapid wide area L-Band synthetic aperture radar data shared directly with FEMA and other organizations. Flights are coordinated directly with FEMA to augment their existing satellite and aerial data collection.
Since Hurricane Milton struck, persistent cloud cover over the State of Florida has made it challenging to obtain optical satellite observations of conditions in the region. Synthetic aperture radar instruments, such as those aboard UAVSAR, can see through the clouds to observe changes on the ground. This provides much-needed observations of flood inundation across communities in Florida, as well as the extent of inland river flooding and resource deployment.
The Disaster Response Coordination System has been working closely with FEMA and state emergency management agencies to aid response efforts as Hurricane Milton approached and impacted Florida. The team is actively sharing resources with other agency partners, the state of Florida, and disaster response non-profit organizations.
NASA continues to determine the needs of its partners and is sharing maps and data on the NASA Disasters Mapping Portal as they become available.
Hurricane Milton caused significant wind, flooding, power outages, and damage across central Florida, from Sarasota and Tampa to Palm Springs and the Space Coast. Impacts are currently being assessed alongside lifesaving operations and emergency repairs. The Disasters Response Coordination System is collaborating directly with FEMA, the State of Florida Geospatial Information Office, U.S. Geological Survey, NOAA (National Oceanic and Atmospheric Administration), and the American Red Cross. The Disasters Response Coordination System is also sharing any available Earth observation data with NASA’s Kennedy Space Center emergency managers to support their damage assessment process.
By using tools like NASA’s Black Marble, and updating daily with differential analysis done to highlight areas with extended power outages, the agency provides FEMA, states, and non-profits the opportunity to distribute temporary generators, life-sustaining resources, and damage assessments.
The UAVSAR flights are being conducted with support from NASA’s Disasters Program, NASA’s Earth Action Program, and NASA’s Research and Analysis Program, and are being managed by NASA’s Armstrong Flight Research Center in Edwards, California, a NASA’s Jet Propulsion Laboratory in Southern and California, and the California Institute of Technology.
To learn more about NASA’s Disaster Response Coordination System, visit:
https://disastersresponsecoordinationsystem.gov
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By NASA
NASA’s SpaceX Crew-9 commander Nick Hague is pictured in his flight suit during training at SpaceX headquarters in Hawthorne, California. Hague will perform human health and performance research on the International Space Station as part of his mission.SpaceX NASA astronaut Nick Hague and Roscosmos cosmonaut Aleksandr Gorbunov will soon dock with the International Space Station as part of the agency’s SpaceX Crew-9 mission, a venture which will enhance scientific research and bolster the knowledge about how people can live and work in space.
During the planned five-month mission, Hague’s mission tasks will include participating in a variety of research projects for NASA’s Human Research Program. Each study is designed to help address the health challenges that astronauts may face during future long-duration missions to the Moon, Mars, and beyond.
“Hague’s experiences and research may potentially lead to scientific breakthroughs that may not be possible on Earth,” said Steven Platts, chief scientist for human research at NASA’s Johnson Space Center in Houston.
A major focus for Hague’s time aboard the station is to study the suite of space-related vision disorders called Spaceflight Associated Neuro-ocular Syndrome (SANS) which occur as body fluids shift toward the head in weightlessness. These shifts can cause changes to the eye: the optic nerve can swell, the retina may develop folds, and the back of the eye can even flatten. Earlier research suggests multiple factors contribute to the syndrome, so two vision-related studies on this mission will tackle different yet distinct approaches that may help address or even prevent such changes during future missions.
One project, called Thigh Cuff, will explore whether wearing fitted cuffs could counter the syndrome by keeping more bodily fluids in the legs. Thigh cuffs are compact, lightweight, and easy to use, which makes them appealing for potential use during long-duration, deep space missions.
For this study, Hague will wear the thigh cuffs for six hours during two sessions. To help researchers measure how well the cuffs work, he will record ultrasound images of blood flow in his legs and neck veins during the sessions. Researchers will also compare this data against ultrasounds taken without the cuff to examine flow differences.
“Thigh cuffs like these may allow researchers to better investigate medical conditions that result in extra fluid in the brain or too much blood returning to the heart,” said study leader Brandon Macias at NASA Johnson.
In another study, Hague will test if a vitamin regimen may help combat SANS. The study, led by Sara Zwart, a nutritional biochemist at NASA Johnson, seeks to examine if a daily vitamin B supplement—taken before, during, and after flight—can prevent or mitigate swelling at the back of the eye. The research will also assess how an individual’s genetics may influence the response.
“Earlier research suggests that some people are more susceptible to this ocular syndrome than others based on genetics that can influence B vitamin requirements, so taking daily vitamins may make all the difference,” Zwart said. “We think by giving the B vitamins, we could be taking that piece of genetic variability out of the equation.”
The work also may eventually improve care options for women on Earth with polycystic ovary syndrome, a condition that can cause eye changes and infertility in women. Researchers hope that patients may similarly benefit from targeting the same genetic pathways and vitamin supplementation as crew members in space.
Hague also will record data to study whether a new way of administering a common anti-nausea medicine can help alleviate motion sickness following launch and landing. In this study, Hague can self-administer a novel nasal gel formulation of the medication scopolamine. Hague will note his experiences using this medicine and any other motion sickness aides, including alternative medications or behavioral interventions like specific head movements.
This research, led by neuroscientist Scott Wood of NASA Johnson, eventually will include 48 people.
“Our goal is to understand how to help future space travelers adapt to motion sickness when living and working in space,” Wood said. “Crew members must stay healthy and perform key tasks, including landing on the Moon and other destinations.”
To help NASA plan future missions, Hague also will participate in human research studies that tackle other space challenges, such as avoiding injury upon landing back on Earth and learning how space travel affects the human body on a molecular level.
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NASA’s Human Research Program pursues the best methods and technologies to support safe, productive human space travel. The program studies how spaceflight affects human bodies and behaviors through science conducted in laboratories, ground-based analogs, commercial missions, and the International Space Station. Such research continues to drive NASA’s mission to innovate ways that keep astronauts healthy and mission-ready as space exploration expands to the Moon, Mars, and beyond.
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By NASA
The Pride Progress Flag is seen waving in the wind following a flag raising ceremony in recognition and celebration of LGBTQI+ Pride Month at the Mary W. Jackson NASA Headquarters building in Washington on June 1, 2023.Credits: NASA/Keegan Barber Two new resources are available for businesses that provide products and services to support NASA’s missions, from supersonic flight to lunar exploration, as well as companies that aim to engage the agency as a customer.
While NASA practices transparency in its procurement processes to ensure access and participation by all businesses, we recognize that barriers to participation remain for smaller, less experienced companies. In addition, new federal-wide policy and guidance has increased focus on NASA’s small and minority business goals.
“NASA’s dedication to fostering collaboration with small and disadvantaged businesses remains at the forefront of our mission,” said NASA Deputy Administrator Pam Melroy. “By implementing innovative practices and refining our procurement processes, we aim to not only drive forward our key mission objectives but also to stimulate industry-wide innovation and inclusivity. These efforts are vital as we seek to leverage the full spectrum of talent and creativity available, ensuring that all voices have a chance to contribute to our groundbreaking work in space exploration.”
To assess the agency’s best practices and biggest barriers, Deputy Administrator Melroy established a multi-disciplinary team that included the Offices of Procurement and Small Business Programs. One of the outcomes was the creation of a communication plan for the small and minority business enterprise alongside NASA’s annual vendor communication plan.
“Inherent in NASA’s commitment to innovation and ingenuity, is the recognition that a diverse and broad supply chain is essential for mission success,” said Karla Smith Jackson, assistant administrator for NASA’s Office of Procurement. “The updated Vendor Communication and the new Small and Minority Business Enterprise Communication plans are the next logical step in NASA’s continuous effort to foster an inclusive acquisition environment. By broadening our communication and outreach, we are strengthening our industrial base and empowering businesses of all sizes to contribute to the future of space exploration.”
In the NASA Small and Minority Business Enterprise Communication Plan, the agency outlines its goals for enhancing its outreach efforts and increasing spending with these businesses to reduce obstacles to participation in NASA’s missions and more intentionally engage companies throughout the procurement process.
Engagement activities outlined in these plans support more robust communication with potential vendors. As an example, the NASA Acquisition Innovation Launchpad (NAIL) encourages one-on-one conversations with small and minority-owned businesses to improve participation, drive innovation, identify and remove barriers as well as collaboration to share best practices and methods across the agency. Further, by publishing annual forecasts we give industry insight as early as possible to promote maximum competition.
“Our commitment to small and minority businesses is unwavering,” said Dwight Deneal, assistant administrator for NASA’s Office of Small Business Programs. “This communication plan is not just about outreach; it’s about building lasting partnerships that drive innovation and inclusion across NASA’s missions.”
The Vendor Communication Plan goes into more depth on how NASA engages with all businesses before, during, and after contract awards are given, providing various examples of events and methods of communication the agency uses to remain in contact with award recipients. This includes holding webinars with award applicants and recipients, providing email support throughout the award process, and reviewing final performance and financial reports. NASA also provides information about how the agency promotes diversity throughout the contracting process, including a dedicated equity action plan and increased subcontracting opportunities.
In the spirit of exploration, NASA is expanding its reach to new entrants and businesses that have not traditionally done business with the agency. NASA is committed to increasing its small business prime and subcontract awards, with an emphasis on innovative barrier reducing procurement practices and transparent contracting methods.
Learn more about how NASA is improving its acquisition process at:
https://www.nasa.gov/procurement
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Last Updated Sep 23, 2024 LocationNASA Headquarters Related Terms
NASA Headquarters General Get Involved Office of Small Business Programs (OSBP) Opportunities to Contribute to NASA Missions & Get Involved Partner With Us Small Business Innovation Research / Small Business View the full article
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