PHILADELPHIA — A new sunrise takes place every 90 minutes. Docking maneuvers sometimes occur at odd hours. Then there’s that feeling of apparent weightlessness.
No wonder astronauts aboard the International Space Station can have a hard time getting a good night’s sleep.
Now, a neuroscientist at Thomas Jefferson University is among those working on a solution: light.
George C. Brainard is advising NASA as it prepares to replace the aging fluorescent lights on the station with high-tech LED fixtures. The lights, which received the agency’s goahead earlier this year, can be adjusted to enhance or relax an astronaut’s state of alertness at the appropriate time of day.
The plan is the outgrowth of research by Brainard and others that has established how light plays a powerful role in regulating our various biological clocks.
Changes in light exposure can affect sleep, digestion, cognitive performance and mood — a phenomenon known to people who experience jet lag, night-shift work or the seasonal blahs associated with the shorter days of winter.
Initially, NASA planned to replace the lights on the space station with LED fixtures purely because they last much longer than fluorescents and are energy efficient.
But when Brainard heard about the plan, he and a handful of other experts urged the agency to modify the specifications so that the lights could be a tool for maintaining astronaut health.
“Bud was instrumental” in making the case for the adjustable lights, said NASA flight surgeon Smith Johnston, referring to Brainard by his nickname.
Aboard the station, astronauts average as little as six hours of sleep during a 24-hour period, even though they are allotted 8.5 hours, Johnston said.
Sleep becomes even harder with disruptions, such as the occasional emergency or a docking procedure that may require the crew to get up in the middle of their sleep time. Some astronauts take short-acting sleeping pills, but the addition of adjustable lights will be welcome, Johnston said.
“If you’re chronically sleep-deprived, you don’t perform as well,” the NASA physician said. “You’re moody. You don’t have as good coping mechanisms.”
It’s a cause for concern during a six-month stay aboard the space station, let alone for an eventual Mars mission that could last three years, Brainard said.
“Every one of us has probably done an all-nighter or two in our lives,” Brainard said. “You feel crummy the next day, but you bounce back. And you also get your recovery sleep. They [the astronauts] are not getting their recovery sleep. That’s the problem. Day in, day out, they’re missing the ingredients for best health and best behavioral regulation.”
The specs call for the new fixtures to fit precisely into the 7-by-26-inch rectangular sockets now occupied by fluorescent bulbs, said Debbie Sharp, a senior manager at Boeing, which is overseeing the project. The first of 100 new LED lamps will be delivered to NASA in mid-2015, she said.
A variety of tests will be needed first, including an evaluation to ensure that the lights can handle the rigors of space travel.
The lights will have three “on” settings — one to boost alertness in the morning, one to help astronauts relax before bedtime, and a regular mode for midday. All of them appear white, more or less, but the morning setting is brighter and is “enriched” with cool, bluish tones, while the evening setting is heavier on warmer, reddish hues.
Some of the science behind these color choices was conducted by Brainard, a professor of neurology in Thomas Jefferson University’s medical college. He discovered more than a decade ago that a specific shade of blue light was most effective at tamping down the body’s production of the hormone melatonin, which helps regulate sleep.
His research continues, funded by NASA and by the National Space Biomedical Research Institute.
Brainard hired a carpenter to build replicas of the tiny sleeping quarters that the crew members use on the space station.
He hires research volunteers to spend hours at a time inside those quarters, which are about the size of a closet, and tests their melatonin levels after exposure to various hues of light.
Melatonin by itself is not a powerful sleep-inducer, contrary to what some marketers suggest in ads. But it does play a role in regulating the circadian rhythm. Echoing his original research, Brainard has found that pure blue light is more effective than white at suppressing melatonin levels.
But pure blue light won’t work on the space station because astronauts must be able to distinguish colors. When performing an electrical repair, for example, they need to distinguish among different colors of wires, Brainard said. So Brainard is conducting further study on white lights with an added boost in the blue spectrum, much like the lights that will go on the space station.
Astronaut Mike Fincke, who has spent a total of 381 days aboard the station, said he was looking forward to the new lights.
“It’ll help us to maintain our rhythm so we can maxperform every day,” said Fincke.
One reason it can be hard to sleep is pure excitement, fueled by the view of Earth’s blue sphere from 250 miles above, Fincke said.
Brainard said it wasn’t just the excitement keeping Fincke awake, but the sunlight reflected off the Earth’s surface.
Though it is a challenge for some to get enough sleep on the station, Fincke said he likes the floating sensation. And space holds one other advantage over sleeping on the ground.
“I have three little kids at home,” Fincke said. “I don’t get much sleep.”
Front Section, Pages 8 on 07/29/2012