The New York TimesMar 31, 2021 13:42:49 IST
In space, your heart gets smaller. In a study published on Monday in the journal Circulation, scientists reported that the largest chamber of the heart of Scott Kelly, who spent nearly a year on the International Space Station in 2015 and 2016, shrank in mass by more than one-quarter by the time he returned to Earth. That just adds to the litany of transformations that the human body undergoes without the steady downward pull of gravity. Astronauts also tend to have swelled heads, squashed eyeballs, shriveled legs and bones that become more brittle.
But a smaller heart did not appear to have any ill effects on Kelly.
“He did remarkably well over one year,” said Dr. Benjamin D. Levine, the senior author of the Circulation paper and a professor of internal medicine at the University of Texas Southwestern Medical Center and Texas Health Presbyterian Dallas.
“His heart adapted to the reduced gravity,” Levine said. “It didn’t become dysfunctional, the excess capacity didn’t get reduced to a critical level. He remained reasonably fit. His heart shrank and atrophied kind of as you’d expect from going into space.”
Without the pull of gravity, the heart does not have to pump as hard, and like any other muscle, it loses some fitness from less strenuous use. For Kelly, the shrinkage occurred even though he exercised almost every day on the space station, a regimen that has proved effective at limiting the brittling of bone and loss of muscle overall.
But a smaller heart could be a concern for future missions to Mars.
Based on the experience of Kelly and other astronauts on the space station, “They’ll probably be OK,” Levine said. But problems could arise if an astronaut were injured or fell sick and could not exercise. Or if the exercise equipment broke. With weaker hearts, they could become lightheaded and faint when stepping foot on the red planet after months of weightless travel.
In the paper, Levine and his colleagues also compared Kelly’s heart to that of Benoît Lecomte, a long-distance endurance swimmer, when he attempted to cross the Pacific in 2018. Buoyancy in water has many of the same effects on the body as weightlessness. Lecomte was horizontal most of the time — up to eight hours of swimming and eight hours of sleeping on an accompanying support boat.
Scientists thought that the hours of swimming would be strenuous enough to maintain Lecomte’s heart, which was observed by periodic echocardiograms. Instead it shrank, almost as quickly as Kelly’s had in space.
Over 159 days — Lecomte had to abandon the swim less than a third of the way into a planned 5,650-mile journey after the boat was damaged in a storm — the left ventricle of his heart lightened from an estimated 6 ounces to 5 ounces. The left ventricle is the biggest and strongest chamber of the heart, pumping blood into the aorta and through the body.
“I was just shocked,” Levine said. “I really thought that his heart was going to get bigger. This was a lot of exercise that he’s doing.”
In an interview, Lecomte estimated that his heart rate was “maybe in the low hundreds” as he swam and described the intensity of long-distance swimming as “more like a fast walking, maybe, or a very slow running.”
NASA may now be able to design better exercise programs for astronauts. “There’s a big question as to the appropriate intensity and duration of exercise,” said Dr. James MacNamara, a cardiology fellow at the University of Texas Southwestern Medical Center and another author of the paper. “Mr. Lecomte’s swimming gave us an opportunity to look at someone who did a whole lot” of low-intensity exercise.
On the space station, Kelly exercised six days a week, jogging on a treadmill for about 30 to 40 minutes or working out on a stationary bicycle. In addition, he used a resistance machine that mimicked the lifting of weights.
“It’s pretty strenuous,” Kelly, now retired from NASA, said in an interview. “You push it pretty hard, more weight than I would lift at home here certainly.”
And yet, over his 340 days in space, Kelly’s heart mass shrank to 4.9 ounces from 6.7 ounces, a decline of about 27%.
The hearts of both Kelly and Lecomte slimmed at a rate of about 1/40th of an ounce a week.
Kelly joked that he found the study interesting because it found “my heart acted similar to an elite athlete.”
Levine said another study looked at the hearts of 13 astronauts before and after six-month stays at the space station. That study, not yet published, provides a broader range of data that appears reassuring.
“What’s really interesting,” Levine said, “is that it kind of depended on what they did before they flew.”
For the most athletic astronauts, their hearts lost mass in space, just as Kelly’s had. But for those who were couch potatoes on Earth but then had to exercise regularly on the space station, their hearts, like the Grinch’s in the Dr. Seuss story, grew in size.
That was not because they were experiencing newfound kindness and generosity but simply increased exertion.
“The heart is like any other muscle, and it responds to the load that’s placed on it,” Levine said.
NASA has provided financing to study the heart health of the next 10 astronauts who spend a year in space.
Kelly said that his body, which experienced other changes, including bone loss, has almost returned to normal.
“I don’t have any symptoms from being in space, at least no physical ones,” he said. “Today, if you let me, I’d go do it all over again.”
Kenneth Chang. c.2021 The New York Times Company
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