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  • [♩INTRO]

  • Humans have been traveling to space for almost sixty years now,

  • so, you know, we've seen some stuff.

  • But every once in a while, NASA still runs up against something

  • totally new and even scary.

  • One such incident was published last week

  • in the New England Journal of Medicine.

  • The article describes the time scientists discovered a dangerous blood clot

  • in an astronaut on board the International Space Station

  • and then treated it from Earth...to space!

  • To protect the astronaut's privacy, the paper doesn't mention who it was

  • or even when this happened.

  • All we know is that it was two months into a six-month mission.

  • Blood clots most often form in the legs

  • of people who have been sitting for a long time, like on a plane.

  • But this one was found in the astronaut's jugular vein,

  • which connects the heart to the brain.

  • Which is...pretty important stuff.

  • The biggest risk with a clot is that it breaks free,

  • travels through the bloodstream, and ends up in the lungs.

  • There it can block blood flow to the lungs, a condition called pulmonary embolism.

  • About a third of people with untreated pulmonary embolism die.

  • Amazingly, this particular clot was discovered totally by accident.

  • Astronauts on board the ISS were taking ultrasounds of their own necks

  • as part of an unrelated study on how the body's fluids flow in microgravity.

  • Someone happened to look at the picture and make an extremely lucky diagnosis.

  • Then, doctors were able to treat the astronaut from the ground.

  • The normal treatment for a clot like this is blood thinners,

  • and fortunately the ISS happened to have a small supply on board.

  • After consulting with an expert from the University of North Carolina,

  • NASA doctors rationed the medicine for around six weeks

  • before more could go up on the next resupply mission.

  • In the end, everything turned out fine,

  • but NASA plans to study how clots might affect astronauts in the future.

  • And what if this had happened somewhere other than on the ISS?

  • Like, say, during a years-long Mars mission?

  • Events like this one highlight how difficult it will be

  • to keep the crew safe and healthy on long space flights.

  • There's just no way to stock months and months of every possible medication,

  • and with no quick resupplies from Earth,

  • it'll be important to figure out what's likely to go wrong.

  • For now, let's switch gears to something much, much farther from home.

  • Last week, scientists writing in the journal Nature described what might be

  • the discovery of some of the very first stars.

  • Astronomers have wondered for a long time about

  • when and how the earliest stars formed.

  • We know today that the universe is about 13.8 billion years old,

  • and we also know that it looked pretty different when things first got started.

  • For the first few hundred millions of years,

  • the universe was in what astronomers call the cosmic dark ages.

  • At that point, there were basically only three kinds of stuff:

  • dark matter, hydrogen atoms, and helium atoms.

  • Over time, those ingredients clumped together

  • to form the first stars and the earliest galaxies.

  • Then, little by little, the universe started to look

  • like the place we know and love today.

  • But one of the big goals in cosmology

  • is to understand the time around when stars first came about.

  • And the astronomers in the Nature study had a unique chance to do that.

  • In a previous study, they'd used Europe's XMM Newton radio telescope,

  • which is in orbit around Earth,

  • to zoom in on one of the farthest-known galaxy clusters.

  • Because of the amount of time its light has taken to reach us,

  • we're seeing the cluster as it looked around 10.4 billion years ago.

  • At this distance, the galaxies don't look like much more

  • than a bunch of blurry smudges,

  • but that's okay, because what the team was really interested in was their color.

  • Galaxies take on the color of all their individual stars,

  • which go from relatively blue to redder as they age.

  • And using computer models, astronomers can estimate the age of a star

  • based on its color.

  • In this case, the team used NASA's Hubble Space Telescope

  • to peer inside and study the cluster's individual galaxies.

  • And they found that the stars in the cluster all seemed to be

  • around three billion years old.

  • Once they added the stars' age to the 10.4 billion years

  • they were looking back in time, the team estimated that these stars formed

  • just 370 million years after the Big Bang.

  • That would place them right at the tail-end of the cosmic dark ages,

  • making them some of the first stars to ever exist in the universe.

  • And that makes them prime targets for future observation.

  • Now, dating by color is a pretty imprecise technique, but even so, these first hints

  • at the universe's oldest stars have already started to raise new questions.

  • For one, the researchers cataloged at least 19 galaxies that seem to have almost

  • exactly that same age.

  • Astronomers wonder if they all responded to some sudden change

  • in cosmic conditions, or if the formation of one galaxy

  • could have triggered some kind of chain reaction across a huge region of space.

  • Either way, we're going to need more and better observations to sort it all out.

  • And once NASA's upcoming James Webb Space Telescope launches,

  • we'll be able to get a better look at these distant regions of the universe.

  • In the meantime, though, we've got blood clots to study!

  • [♩OUTRO]

[♩INTRO]

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