The Twins Study is NASA's first step to establish a foundation and methodology to integrate space-related omics with traditional scientific activities.
Breakthroughs in science and technology are providing researchers with additional data allowing for a more personalized approach to healthcare. NASA's Human Research Program (HRP) is releasing the video "Omics: Advancing Personalized Medicine from Space to Earth", to highlight its Twins Study, coinciding with National Twins Days. This is the last video in a series of eight which explores space through you by using omics to look more closely at the unique health of an individual.
‘NASA's Human Research Program enables space exploration by reducing the risks to human health and performance through a focused program of basic, applied, and operational research.’
Approach to medicine is slowly shifting to more personalized care for individuals or precision medicine. Omics integrates multiple biological disciplines to focus on measurements of a diverse array of biomolecules. It combines genomics, transcriptomics, proteomics, epigenomics, metabolomics and microbiomics to see a larger, more comprehensive picture of the human body at a fundamental, highly granular level. Twins Study Principal Investigators are using omics to compare molecular data of retired, identical twin astronauts Scott and Mark Kelly. It compares nearly identical genomes of one twin, Scott, on a defined diet, strict exercise regime, scripted daily work schedule, and space stressors, and Mark, the other twin, on Earth engaged in normal life. The identical genome comparison allows researchers to focus on the other molecular effects of the integrated spaceflight environment.
Researchers see more molecular reactions between biomolecules than ever before. This technological phenomenon is similar to the early 2000s when NASA-funded survey observatories discovered about 1,000 asteroids that were classified as near-Earth objects (NEO). Today, discoveries of NEOs have increased to more than 14,000 asteroids due to improved sensors and detection equipment and other technologies and search strategies that have been developed. As medical technologies improve, researchers are discovering that fluctuations in DNA, RNA, proteins, metabolites and microbiome biomolecules influence physiological and behavioral changes in an individual as well as the propensity to develop disease.
Human Research Program Chief Scientist John Charles, said, "I am confident omics will be part of upcoming International Space Station missions and the Mars missions. The potential for this research is valuable in terms of understanding what happens to astronauts in space flight. Additionally, new approaches and techniques we learn from the Twins Study can be used more directly with great benefit to NASA researchers and crews and hopefully to patients here on Earth."
Before omics profiles become common place in clinical settings, researchers will have to address the challenge of interpreting, storing and securing massive amounts of data. Perhaps, one day, omics profiles will be conducted not only on certain groups like astronauts but on a large scale for individuals in doctors' offices and hospitals.
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NASA's Human Research Program enables space exploration by reducing the risks to human health and performance through a focused program of basic, applied, and operational research. This leads to the development and delivery of: human health, performance, and habitability standards; countermeasures and risk mitigation solutions; and advanced habitability and medical support technologies.
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