Translational Research Institute for Space Health: Difference between revisions

• Comment: Seems like it deserves an article. Please include some unaffiliated sources that demonstrate notability of this institute, and it would be suitable for an article. I am happy to be contacted directly when this occurs to speed things up. Tom (LT) (talk) 10:25, 5 December 2022 (UTC)

---

The Translational Research Institute for Space Health (TRISH) is a virtual, applied research consortium that pursues and funds translational research and technologies to keep astronauts healthy during space exploration,^[1] with the added benefit of potential applications on Earth.^[2] TRISH is specifically focused on human health in preparation for deep space exploration efforts, including National Aeronautics and Space Administration's (NASA) Artemis missions to the Moon, and future human missions to Mars.^[3] TRISH also supports research to collect and study biometric data gathered on commercial spaceflight missions to better understand the effects of space travel on the human body.^[4]

The consortium is led by Baylor College of Medicine, and includes Massachusetts Institute of Technology, and California Institute of Technology,^[1] with funding awarded to scientists and organizations around the United States.^[5] TRISH works directly with NASA’s Human Research Program (HRP) to establish and coordinate research efforts that align with NASA’s goal of safely furthering human exploration while mitigating risks to human health.^[1]

History

TRISH was founded in 2016,^[3] and Baylor College of Medicine was awarded $246 million from NASA to serve as the lead institution.^[6] TRISH succeeded the National Space Biomedical Research Institute (NSBRI), a similar research institute also led by Baylor College of Medicine.^[7]

In 2021, NASA opted to renew TRISH, granting additional funding of up to $134.6 million between 2022 and 2028.^[8] When NASA reviewed TRISH in December 2020, it found that “TRISH had developed and transitioned 34 completed astronaut health and protection projects to NASA and had connected 415 first-time NASA researchers with opportunities to develop space health solutions.”^[9]

TRISH supports NASA’s Human Research Program (HRP), founded in 2005, as outlined in TRISH’s strategic plan.^[10] The goals of the HRP are to provide knowledge and technology to mitigate risks to human health and performance and develop tools to enable safe and productive human space exploration.^[11]

Mission

“TRISH relentlessly pursues and funds novel research to deliver high-impact scientific and technological solutions that advance space health and help humans thrive wherever they explore, in space or on Earth.”^[2]

Effects of space on the human body

In January 2023, The Washington Post reported an interactive feature on the known effects of space travel to the human body, and noted TRISH’s work. In the article, TRISH Chief Medical Officer Emmanuel Urquieta stated “Space is just not very hospitable to the human body,” explaining that humans evolved on Earth with abundant gravity and low radiation, whereas space is characterized by minimal gravity and higher radiation exposure. ^[12]

This environment can lead astronauts to experience space adaptation syndrome, muscle atrophy, decreased blood volume, altered immunity and DNA damage from radiation exposure, loss of bone, sensory changes, psychological stress, and inflammation, among other potential complications. Interventions to prevent these outcomes include routine exercise while in space, as well as pharmaceutical and dietary supplements. ^[13] Additionally, changes in blood flow and digestion rate are likely to affect how the body processes and tolerates medications, an area requiring further study.^[14]

Trips to the Moon and Mars will require astronauts to spend more time in space than ever before, potentially exacerbating known deleterious effects of space travel to the human body. In April 2022, NPR’s Brendan Byrne described TRISH’s work as “to understand how and why the body changes while in space and prepar[e] future astronauts for those health effects. That's important to understand if space agencies like NASA want to send humans to places like the Moon or Mars. Those trips could be longer than Vande Hei[‘s] almost yearlong mission. And the environments on the lunar surface and the red planet will be harsh, with limited medical resources.”^[15]

Leadership

TRISH’s leadership includes executive director Dorit B. Donoviel, deputy director and chief innovation officer James Hury, chief scientific officer Jennifer Fogarty, and chief medical officer Emmanuel Urquieta.^[16]

TRISH’s board of directors includes chair Jeffrey P. Sutton, along with members Barbara Wold and Elazer Edelman.^[16]

Scientific advisory board

TRISH’s Scientific Advisory Board (SAB)^[17] and Diversity Advisory Board (DAB)^[18] are comprised of scientific experts from various disciplines as well as several retired NASA astronauts. The SAB and DAB provide strategic guidance to the Institute. ^[17]

• Lisa Suennen, M.A.
• Imran Alibhai, Ph.D.
• Susan Alpert, M.D., Ph.D.
• Catherine Coleman, Ph.D.
• Asha Collins, Ph.D.
• Catherine Davis-Takacs, Ph.D.
• Walter Greenleaf, Ph.D.
• Armen Kherlopian, Ph.D.
• Manish Kothari, Ph.D.
• Daniel H. Lowenstein, M.D.
• Ted Smith, Ph.D.
• Annette L. Sobel, M.D., M.S.
• Nicole Stott, M.S.
• Matthew Wagoner, Ph.D.
• Brian Zambrowicz, Ph.D.

Diversity advisory board

^[18]

• Asha Collins
• Cynthia Chapple
• Belen Hurle
• Ann-Gel Palermo
• Joseph T. Bonivel Jr.

Consortium members

• Baylor College of Medicine
• Massachusetts Institute of Technology
• California Institute of Technology

Research areas

TRISH researchers pursue scientific research in several fields, including:

• Cellular and Molecular Biology
• Behavioral Health
• Environment, Food and Medication
• Medical Technology
• Radiation

Involvement with private spaceflight missions

As part of its EXPAND (Enhancing eXploration Platforms and Analog Definition) Program, TRISH has partnered with several commercial space providers on private spaceflight missions to gather spaceflight participant health data before, during, and after space travel.^[19][20] These may include tests on motor function, eye health, motion sickness, and cognitive wellbeing, among others.

TRISH-funded researchers have collected biomedical data from spaceflight participants aboard the Inspiration4 mission, the Axiom Mission 1, and Space Adventures’ MZ Mission.^[21][22] TRISH researchers will also collect biomedical data from astronauts on the upcoming Polaris Dawn and Ax-2 missions.^[23]

Biomedical data gathered from private spaceflight participants adds to the diversity and volume of data available for space health researchers.^[24] TRISH maintains a centralized research database, the EXPAND Program, which hosts pre-, in-, and post-flight health data from multiple commercial space flights.^[25][26]

Outreach

TRISH leadership regularly appears at conferences and workshops, including SXSW,^[27] HRP’s annual Investigator’s Workshop, and conferences and meetings hosted by the Committee on Space Research (COSPAR), Aerospace Medical Association (AsMA), International Astronautical Congress, and others.^[28]

Funding for researchers and companies

TRISH offers funding for innovative research and technology projects through several mechanisms. Funding opportunities include the Biomedical Research Advances for Space Health (BRASH) solicitation, Industry solicitation, Postdoctoral Fellowship Program, and Catalyst Grant Program. TRISH’s open solicitations are housed on the Institute’s Grant Research Integrated Dashboard (GRID), an online portal, or the NASA NSPIRES portal.^[29] Previous solicitation topics have requested proposals on topics such as endogenous repair,^[30] metabolic manipulation,^[31] microphysiological systems,^[32] such as “Tissue-on-a-Chip”, and technologies in support of autonomous health care.^[33]

External Links

• Translational Research Institute for Space Health
• The Human Body in Space
• Open Funding Opportunities With TRISH

References

1. "The Translational Research Institute for Space Health (TRISH)". NASA.
2. "Translational Research Institute for Space Health". Baylor College of Medicine.
3. Furr Mericas, Laura. "Houston research organization receives renewal from NASA and millions in funding for space health projects". Innovation Map.
4. https://www.npr.org/2022/04/08/1091569087/4-astronauts-will-help-scientists-learn-how-space-travel-affects-the-human-body
5. "TRISH Funding Award Announcements". Baylor College of Medicine.
6. "NASA Establishes Institute to Explore New Ways to Protect Astronauts". NASA.
7. "New Releases: NASA Extends Cooperative Agreement With NSBRI". NASA.
8. https://houston.innovationmap.com/nasa-renews-support-for-bcm-trish-2650492620.html
9. https://houston.innovationmap.com/nasa-renews-support-for-bcm-trish-2650492620.html
10. "NASA'S TRANSLATIONAL RESEARCH INSTITUTE FOR SPACE HEALTH 2016-2028 STRATEGIC PLAN" (PDF). Baylor College of Medicine.
11. "Human Research Program Architecture". NASA.
12. https://www.washingtonpost.com/technology/interactive/2023/how-space-affects-human-body/?tid=ss_tw
13. https://www.washingtonpost.com/technology/interactive/2023/how-space-affects-human-body/?tid=ss_tw
14. https://www.clinicaltrialsarena.com/features/medicine-in-space/
15. https://www.npr.org/2022/04/08/1091569087/4-astronauts-will-help-scientists-learn-how-space-travel-affects-the-human-body
16. "Meet the TRISH Team". Baylor College of Medicine.
17. "TRISH Scientific Advisory Board". Baylor College of Medicine.
18. "Diversity Advisory Board". Baylor College of Medicine.
19. Dusang, Kaylee. "Space Health Institute launches first commercial spaceflight medical research program". Baylor College of Medicine.
20. Byrne, Brendan. "A new era of space science takes flight thanks to private civilian missions". NPR.
21. "Commercial Spaceflight". Baylor College of Medicine.
22. "Axiom Mission 1 is a research-focused mission, setting the standard for future private astronaut crews". Axiom Space.
23. "Polaris Program will Undertake a Series of Pioneering SpaceX Dragon Missions, Demonstrating New Technologies and Culminating in the First Human Spaceflight on Starship". Polaris Program.
24. Harms, Natalie. "Houston organization launches the first commercial spaceflight medical research program". Innovation Map.
25. Dusang, Kaylee. "Space Health Institute launches first commercial spaceflight medical research program". Baylor College of Medicine.
26. https://www.nature.com/articles/s41591-022-01761-y
27. "Space Health: Surviving in the Final Frontier". SXSW Schedule. SXSW.
28. "Translational Research Institute for Space Health Events". Baylor College of Medicine.
29. "Grant Research Integrated Dashboard". Baylor College of Medicine.
30. https://nspires.nasaprs.com/external/solicitations/summary!init.do?solId=%7b3E1F7812-4338-DB96-0C18-F100DBC7E96B%7d&path=open
31. https://nspires.nasaprs.com/external/solicitations/summary!init.do?solId=%7b300C06B4-8C30-4C42-1139-1A6ECB334F67%7d&path=open
32. https://nspires.nasaprs.com/external/solicitations/summary!init.do?solId=%7b59D9B829-8089-A5D9-16BF-D75F6BAFA3CC%7d&path=open
33. https://spacehealth.bcm.edu/prog/industry_program_2022/