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  • Most of you probably know the name Scott Kelly.

  • He’s a retired astronaut who holds the current U.S. record for the longest ever single spaceflight,

  • clocking in at 342 consecutive days in space.

  • Some of you may also know that he has an identical twin...who is ALSO an astronaut.

  • What are the chances of that?!

  • Mark and Scott Kelly were the central figures in a brand new, totally unique twin study.

  • NASA just published the results that let us know, in unprecedented detail, what happens

  • to our bodies during long-term spaceflightand were here to give you the rundown.

  • In the decades since first sending humans into space, weve been monitoring spaceflight-induced

  • physiological changes in hundreds of astronauts.

  • We can compare an individual to themselves before, during, and after a missionallowing

  • NASA to develop countermeasures against issues like decreased bone density and decreased

  • muscle mass.

  • But so far, were most familiar with the results of 1-4 months of spaceflight, and

  • comparing an individual to themselves doesn’t clearly let us know what could be caused by

  • spaceflight vs. something that may have happened to that individual anyway.

  • If were expecting humans to survive years for something like transport to Mars, how

  • do we prep for that?

  • How do we know what’s going to happen to our bodies?

  • Well, Scott and Mark Kelly presented an incredibly exciting opportunity for NASA.

  • While Scott spent a year in space, Mark served as hisgenetically matched ground control’.

  • Both twins were monitored closely before, throughout, and after the missionphysiologically,

  • genetically, and cognitivelycreating a massive amount of data in the first twin study

  • of its kind.

  • Some things changed during spaceflight that, while SUPER interesting and important to keep

  • measuring in future studies, don’t seem to pose a significant health risk.

  • For example, body mass decreased, gut microbiome composition changed, and inflammation increasedall

  • temporarily.

  • Plus the flu vaccine works just as well on someone in space as it does for someone on

  • earth, which is a relief.

  • Then weve got the medium-risk stuff, stuff we may need to be careful about.

  • Urine sample metabolites indicated that spaceflight could interrupt collagen regulation in the

  • body.

  • While we may most often hear about collagen in the context of our skin, it’s also part

  • of all our veins and arteries and valves, and disturbance in its production and incorporation

  • could result in issues like blood pooling at the bottom of our legs or issues with blood

  • pressure regulation.

  • And don’t even get me started on the telomeresthese are the caps on the end of your chromosomes

  • that protect your DNA from damage and that deteriorate as we age.

  • Scott Kelly’s telomeres actually lengthened during his year on the ISSbut then shortened

  • rapidly and significantly when he returned to Earth.

  • Theyve since recovered to around pre-spaceflight length, but given the essential nature of

  • telomeres in protecting genomic integrity and the role we think they play in aging,

  • further research into this aspect of space-induced genetic changes could be really fruitful,

  • not only for spaceflight, but for other areas of science and medicine.

  • And now for the high-risk stuff, the stuff we really need to work on solutions for.

  • A comprehensive suite of computerized tests indicated that while some measures of cognitive

  • function increased, especially early in the mission, other cognitive functionslike

  • emotion recognition and abstract matching accuracyactually declined during spaceflight,

  • along with cognitive speed.

  • And these declines persisted for about 6 months after return to Earth.

  • In a weightless environment, our veins and arteries can also get a little...confused.

  • Usually, they have to work with or against Earth’s gravity to move blood around our

  • body, but in microgravity, we see thickening of vascular walls, an increase in vascular

  • stiffness, and a ballooning effect in the vasculature of the upper body.

  • Were actually still not sure if all of this is reversible after an astronaut comes

  • back to earththat remains to be seen.

  • We also confirmed observations made in many other astronauts: spaceflight is associated

  • with altered optical function.

  • .We see swelling of the optical disc, a flattening of the actual globe of the eye, along with

  • other structural changes, which can lead to onset of blurry vision, blind spots, and more.

  • We haven’t been able to pinpoint what causes these changes but theyre obviously not

  • good for your eyesight, and may be permanent.

  • And lastly, blood samples pre-, during, and post- flight determined that spaceflight can

  • significantly increase genotoxic stress.

  • Space is highly radioactive, and while galactic cosmic rays may sound awesome, they can really

  • do a number on your DNA.

  • Cytogenetic analysis, which means looking at changes in your chromosomes, revealed higher

  • levels of genomic instability for the spaceflight twin.

  • This comes in the form of increased chromosomal translocations and inversions, which can be

  • linked to disorders like infertility and cancer.

  • Genetic analysis also revealed dysregulation of genes, especially those associated with

  • immune function and DNA repair, and these changes did not return to normal when they

  • got back to Earth.

  • All this talk of DNA changing may make it easy to ask the question, “Are they still

  • twins?”.

  • The answer is YES.

  • Media outlets a while back went a little overboard with thenewsthat 7% of Scott Kelly’s

  • DNA was different.

  • If 7% of Scott’s genes were completely different, not only would he not be Mark’s twin anymore,

  • he would be an entirely different species.

  • The real way to think about it is that yes, some genetic mutation occurred, but most of

  • the change was epigenetic change.

  • This means that something like DNA methylation, or a little add-on unit to a gene, changed

  • the expression of the gene, not the actual makeup of the DNA itself.

  • This can result in upregulation or downregulation of the genes in charge of things like immune

  • function and bone growth..So yeah.

  • Theyre still related.

  • All of this data represents, as the researchers put it, “a uniquely controlled and integrated

  • framework for comprehensively quantifying astronaut biology in space”.

  • And opens up so many exciting questions that are going to be fascinating to build on.

  • Even though NASA doesn’t currently have any more twins in the pipeline, this kind

  • of research can continue with those who take on longer and longer spaceflights.

  • Building a better understanding of the effects of long-term spaceflight on the body and the

  • mind will prepare us to test even more spaceflight boundaries that no human has ever broken beforewhile

  • hopefully keeping us all in one piece.

  • We're working on a new series that we're stoked to share with you that's all about what goes

  • on in your body when you get sick.

  • And it’s called...well...Sick.

  • And here's our sneak peak of our first

  • episode

  • Beyond treatments and symptoms, we're curious about how exactly viruses, parasites, and

  • other invaders wreak havoc on our health.

  • Is there a disease or illness you want us to cover?

  • Let us know down in the comments and make sure you subscribe to catch the first episode.

  • Thanks for watching Seeker.

Most of you probably know the name Scott Kelly.

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美國宇航局的雙胞胎研究結果就這樣永遠地改變了太空飛行嗎? (Did NASA’s Twin Study Results Just Change Spaceflight Forever?)

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    林宜悉 發佈於 2021 年 01 月 14 日
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