{"id":1845,"date":"2024-04-19T12:36:24","date_gmt":"2024-04-19T20:36:24","guid":{"rendered":"https:\/\/www.microsoft.com\/en-us\/startups\/blog\/?p=1845"},"modified":"2024-10-27T16:28:14","modified_gmt":"2024-10-28T00:28:14","slug":"space-h-technologies-final-frontier-of-healthcare","status":"publish","type":"post","link":"https:\/\/www.microsoft.com\/en-us\/startups\/blog\/space-h-technologies-final-frontier-of-healthcare\/","title":{"rendered":"Space-H: Technologies for the final frontier of healthcare"},"content":{"rendered":"\n

Embark on the frontier of space health innovation! Apply now<\/a><\/strong> for the inaugural year of the SPACE-H accelerator program. As humanity sets its sights on the Moon and Mars, NASA and industry leaders seek resilient, autonomous health and performance systems to support future missions. If you’re a healthcare startup ready to shape the future of space health, seize this opportunity to collaborate with NASA, gain mentorship from industry experts, and access cutting-edge technologies. Be part of the next generation of space pioneers!<\/p>\n\n\n\n

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We are entering a new era of space exploration, marked by unprecedented ambitions, advancements, collaborations, and challenges that significantly diverge from those of the past. With the advent of the commercial space industry, commercial players are poised to be a primary driver of human spaceflight activity, and NASA\u2019s focus on space exploration is taking on a new dimension: under the Artemis program, NASA is set to return humans to the Moon and establish sustainable lunar operations as a foundation for future deep space missions.<\/p>\n\n\n\n

Embarking on journeys into the vast expanse of space is not easy. There is a need for new ways of thinking, for new commercial partners to support NASA in the development of novel technologies to address the healthcare challenges associated with space exploration. There is a need to develop new tools and new systems to manage support for a more diverse pool of space travelers, accommodate more pre-existing conditions, and enable a wider range of in-space activities.<\/p>\n\n\n\n

Now is a pivotal moment, enabling new opportunities for collaboration between NASA, startups, corporations, and investors to define the future of human activity in space. The convergence of once-in-a-generation trends in commercial spaceflight, artificial intelligence, and bioscience technologies will unlock the potential for entrepreneurs working in BioTech and MedTech–who may not have ever considered space to be a market\u2014to launch high-impact, high-growth startups. To embark on the frontier of space health innovation is Space-H\u2019s mission.<\/p>\n\n\n\n

Starburst Aerospace<\/a> (Starburst) has launched a new space health accelerator program: SPACE-H. The program, designed in collaboration with NASA Human Research Program (HRP<\/a>), the Translational Research Institute for Space Health (TRISH<\/a>), and Microsoft Federal (Microsoft) will serve to drive innovation and investment in technologies that support NASA and the commercial space industry missions and advance the emerging industry of space health.<\/p>\n\n\n\n

Beyond Earth\u2019s atmosphere is among the harshest and least hospitable environments for humans, yet every human biological system is affected by it. The biological stress has a deleterious impact on health and physical capabilities, and the extreme conditions and isolation take a significant toll on mental performance and behavior. Long-term habitation in micro-gravity is known to cause muscle atrophy, bone density loss, immune dysfunction, cardiovascular issues, vision degradation, sleep disorders, and a range of other detrimental impacts to physical health. For space travelers going beyond Low Earth Orbit (LEO), cosmic radiation poses a significant threat; radiation damages DNA and leads to increased risk of contracting cancer.<\/p>\n\n\n\n

If that wasn\u2019t enough, life in space is simply uncomfortable. Many space travelers experience motion sickness: space-adaptation syndrome, or SAS. Without gravity, blood and other bodily fluids behave differently, leading to vision impairment, cognitive issues, and headaches. Astronauts wear uncomfortable sensors to monitor their bio-signs, eat pre-packaged\/pre-processed food, sleep restlessly in confined spaces, and forego any semblance of privacy.<\/p>\n\n\n\n

Space tourism, lunar exploration, and missions to Mars\u2014all technically challenging in their own right\u2014 greatly exacerbate health and performance challenges. Health and performance monitoring, management and mitigation systems need to be completely autonomous and each must account for a wider range of human genetics and behaviors. Our best understanding of the harsh effects of space on human health is severely limited by the quantity and availability of data gathered from the approximately 650 people who have been to space to date. Thus, new technologies for supporting a more medically diverse population of future astronauts are critically needed.
\nAs we venture into uncharted territory, there is a remarkable opportunity for healthcare startups to play a pivotal role in shaping the future of space health. The convergence of data, artificial intelligence, and other health and life science (HLS) technologies present an exciting frontier. Even companies that have never considered the space industry could find immense success and create entirely new markets. After all, space has always been a fertile ground for innovation and technological leaps.<\/p>\n\n\n\n

For the inaugural year of Space-H, the focus will be on resilient, autonomous health and performance systems. In support of Artemis and future deep space exploration, NASA is seeking commercial partners to support the development of fully autonomous, integrated medical systems to monitor and manage the health of individuals and teams. Solutions sought include but are not limited to:<\/p>\n\n\n\n