HERA Campaign 4 Lifts off with 13th Crew

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Date: 05-05-17
Location: Bldg 220, HERA
Subject: HERA 13 Crew Photo
Photographer: James Blair

The fourth HERA (Human Exploration Research Analog) Campaign (C4) began on May 6 at NASA’s Johnson Space Center (JSC) in Houston. C4, one of several research analogs used by NASA’s Human Research Program (HRP) to prepare astronauts for deep space missions, will consist of four 45-day missions that simulate a real space exploration without actually leaving Earth. An analog is a situation on Earth that mimics physical and mental effects on the body experienced in space. The crewmembers are Timothy Evans, Andrew Mark Settles, James Titus, and John Kennard. This is an all-male crew – by chance, not by design.

HRP will require the crew to conduct the same experiments on all four C4 missions which will enable researchers to identify patterns and variances in the research data. Experiments will include testing hardware prototypes, creating equipment with a 3-D printer, testing out a new concept for space food, flying a simulated exploration vehicle and a virtual extravehicular activity (EVA) on an asteroid.

While the HERA crew conducts their tasks inside the analog, the HERA analog team and researchers will monitor them from the outside. They will collect crew data on the physiological and psychological effects of extended isolation and confinement, team dynamics and conflict resolution.

HRP’s Flight Analogs Project Manager, Lisa Spence said, “NASA’s astronaut selection process has had great success. We try to identify people for HERA missions who fit a similar profile as astronauts. We also make our analog campaigns emulate real space missions as much as possible, which includes 16-hour crew work days, six days a week, with a real-life timeline of scheduled activities from the HERA Mission Control Center.”

Campaign 4, Mission 1 (C4M1) marks the start of HERA’s 45-day missions. Campaign 1, in 2014, were seven-day missions; Campaign 2, in 2015, were 14-day missions; Campaign 3, in 2016, were 30-day missions. Longer mission length allows for more research studies and more data points relevant to longer duration spaceflight missions.

The other three Campaign 4 missions are scheduled as follows: Mission 2 is Aug. 5 – Sept. 18, Mission 3 is Oct. 21 – Dec. 4, and Mission 4 is Feb. 3 – Mar. 19, 2018.

The Test Subject Screening group is accepting curriculum vitaes (CV) for healthy, non-smoking volunteers, ages 30 to 55 for future missions. Volunteers will be compensated and must pass a physical and psychological assessment to qualify. Volunteers wishing to become test subjects should e-mail their CV to jsc-hera@mail.nasa.gov or call 281-212-1492.

For more information on NASA’s Human Research Program, visit: www.nasa.gov/hrp.

Monica Edwards
Laurie Abadie
NASA Human Research Engagement & Communications

Analog to Focus on Optic Health in Astronauts

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Optic health in astronauts is the focus of NASA’s upcoming campaign at :envihab at the DLR (Germany’s space agency) in Cologne, Germany. Twelve volunteers will spend 30 days in bed with a head-down tilt of negative six-degrees and will live in a five percent carbon dioxide atmosphere. This will mimic microgravity giving researchers a way to study the effects of pressure on astronauts’ eyes and optic nerve in space.

NASA has been concerned with astronaut’s vision since many (but not all) have returned from six-month stays in the International Space Station complaining of vision impairment that seems to be permanent.

For photographs and more information about :envihab, go to:

www.nasa.gov/analogs/envihab

Volunteer for a Space Simulation!

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 Types of Analogs

The high-fidelity space simulation HERA is recruiting participants for the remaining three missions of 2017. These missions are full-scale simulated mission to an asteroid lasting 45 days (68 days including training and debriefing). Information and requirements are posted below. For more details, or to apply, please:

email: jsc-hera@mail.nasa.gov or call: (281) 212-1492

 Mission Overview

Human Exploration Research Analog (HERA)
  • Location: Johnson Space Center
  • Environment: Closed Habitat
  • Hazards Tested: Isolation, light and dark cycles, distance from Earth
  • Description: HERA is a unique three-story habitat designed to serve as an analog for isolation, confinement, and remote conditions in exploration scenarios.
  • Research: Studies suitable for this analog include behavioral health and performance assessments, communication and autonomy studies, human factors evaluations, and medical capabilities assessments.

Mission Requirements

  • Age: 30-55
  • No medications or dietary restrictions
  • BMI of 29 or less
  • 74 inches in height, or less
  • No History of sleepwalking
  • A Masters Degree in a technical field such as science, engineering or mathematics, or the equivalent experience.

8 Amazing Places You Can Visit ‘Mars’ on Earth

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PHOTOGRAPH BY V.CROBU, ESA

Astronauts from five space agencies explore caves in Sardinia as part of a training course designed to teach them how to work effectively in multicultural teams when safety is critical.

A handful of faux space missions exist around the world, and scientists are using them to study various aspects of how humans respond to the challenges of traveling and living in deep space environments. In the space investigation world, these places are called “analogs.” An Analog is a situation on Earth that produces effects on the body similar to those experienced in space, both physical and mental/emotional. These studies help prepare us for long duration missions.

This National Geographic article highlights eight such places around the world with rich descriptions of the analog environment and what the research seeks to accomplish to get us one step closer to Mars.

http://news.nationalgeographic.com/2016/12/exploring-mars-utah-mock-mission-simulation-space-science/

 

Antarctica Provides ICE to Study Behavior Effects in Astronauts

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Christina Koch in AntarcticaNASA Astronaut Christina Koch takes a frozen selfie at the South Pole on the continent of Antarctica.Credits: Christina Koch

A trip to the Red Planet begins long in advance of liftoff. NASA’s journey to Mars includes preparing astronauts to cope with several months of isolation, confinement, and in an extreme environment (identified with the acronym ICE). One of the best ways to study this on Earth is by observing others who also spend several months on actual ice in Antarctica.

NASA and the National Science Foundation (NSF), which manages the U.S. Antarctic Program, have a new collaborative agreement to study the effects of living in the polar environment.

In an initial research collaboration, a study developed and led by Dr. Candice Alfano, a clinical psychologist and associate professor at the University of Houston, will analyze people who work in Antarctica for long periods of time.

It’s relatively simple to place subjects in isolation or confinement for the purpose of studying mood and behavior, but the extreme environment element is harder to find.

Sometimes called “White Mars,” Antarctica is perfect because “you can’t walk off the ice. That goes for whether you’re having a health, behavioral health or a personal issue, you’re not going anywhere,” said Lisa Spence, project manager for NASA flight analogs in the Human Research Program. “That is very similar to spaceflight. It changes your mindset about how you are going to respond when you know you can’t leave.”

Training camp set up on the foot hills of Mt. Erebus near McMurdo Station in the Antarctic.

Training camp set up on the foot hills of Mt. Erebus near McMurdo Station in the Antarctic.Credits: NASA

Just how extreme is the extreme environment of Antarctica at the South Pole? Not only is 98 percent of the continent covered in ice, but it also has extreme winds and an average temperature range of minus 49 to 26 degrees, making it the coldest place on Earth. At the South Pole, the sun disappears for months at a time. Known as “The Polar Night,” the sun goes behind the horizon in late April and is not seen again until mid-September.

Once the sun is down, you could be stuck there. It is unsafe for airplanes or ships to travel to most parts of Antarctica during the winter because of the extremely cold temperatures and sea ice.

NASA astronaut Christina Hammock Koch has spent many seasons at various Antarctic and Arctic stations helping scientists conduct research remotely, including a year at the South Pole. “[This] means going months without seeing the sun, with the same crew, and without shipments of mail or fresh food,” she said. “The isolation, absence of family and friends, and lack of new sensory inputs are all conditions that you must find a strategy to thrive within.”

While certainly a difficult situation, Koch found ways to cope. She exercised, found hobbies, socialized with others in the station, and saved care packages to open at later times. She also said, “The most helpful strategy I developed was to avoid thinking about all the things I was missing out on and instead focused on the unique things in the moment that I would never get to experience again.”

These factors combine to create an atmosphere suitable for the NASA, NSF and UH study. The study, scheduled to begin in February 2017, will include approximately 110 U.S. Antarctic program volunteers located at the McMurdo and South Pole stations.

Map showing the locations of McMurdo and South Pole Stations on the continent of Antarctica.
Map showing the locations of McMurdo and South Pole Stations on the continent of Antarctica.

“McMurdo is a coastal station with a population of around 250 people during the winter, or the Northern Hemisphere’s summer. Evacuation, though difficult, is possible. In contrast, the South Pole is far inland near the center of the continent and can have temperatures of -100°F. Evacuation is simply not possible in winter,” Dr. Alfano said.

By studying volunteers from both stations, researchers hope to more precisely understand the greatest sources of stress. Volunteers will complete periodic computer-based questionnaires, provide saliva samples, and wear a monitor that records sleep and wake cycles. Researchers will use these collective tools to look for signs of stress and changes in psychological health of the volunteers during their time in Antarctica.

The plan is to refine and finalize a checklist to be used to “provide an efficient means of monitoring signs and symptoms that a behavioral condition may be developing. Therefore, allowing early detection and early intervention,” Lauren Leveton, Ph.D., of NASA’s Behavioral Performance team said.

This checklist will be useful to NASA in relation to future space travel, but Alfano points out it will have other applications as well, such as among deployed military personnel.

Simultaneously to Alfano’s study, the NASA and NSF partnership will deploy NASA clinical staff to Antarctica, which will give NASA’s medical personnel (flight surgeons) a unique chance to treat individuals in the extreme environment. Participating flight surgeons will be on rotation during summer or winter-over stays.

At the Johnson Space Center, NASA flight surgeons are on call around the clock for remote consultations with astronauts who are on International Space Station missions. Allowing these doctors to work in the Antarctic environment will give them additional training to call upon when consulting with the astronauts during future long duration, deep space missions, including the journey to Mars.

“The first-hand experience of living and working at McMurdo and the South Pole will be invaluable for the flight surgeons’ grasp of what astronauts encounter during long duration spaceflight,” Dr. Terrance Taddeo, Johnson Space Center Chief Medical Officer, said.

“This is a win-win,” Spence said. “Not only are NASA’s flight surgeons gaining a better understanding of the ICE environment of the astronauts they work with, but NSF’s Antarctic clinics will have additional onsite medical expertise.”

Alfano’s project, formally called “Characterizations of Psychological Risk, Overlap with Physical Health, and Associated Performance in Isolated, Confined, and Extreme (ICE) Environments,” will conclude following data collection during the 2017 winter season.

As NASA prepares for future human missions to Mars, keeping the astronauts safe on the journey is a top priority. The southernmost continent on Earth will provide researchers with the perfect analog for studying the behavioral health effects of an extreme environment.

Monica Edwards
Charles Lloyd
NASA Human Research Engagement and Communications

https://www.nasa.gov/feature/antarctica-provides-ice-to-study-behavior-effects-in-astronauts

 

See ya in 30-days: HERA XII Mission begins

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WJS_1966

It is a jovial evening with family, friends, children, laughter, and of course…cake! The pizza sized countdown clock looms large in the background. In moments, four crew members will voluntarily lock themselves away in a modest two-floored habitat for 30-days, all in the name of advancing the science of space exploration.

The four of them are easy to spot amongst the 50 people in Building 220 at JSC who are there to watch the ingress. They are wearing black flight suits with name and mission patches. I find Todd Huhn, introduce myself, and ask him how he is feeling about the mission. “I’m excited and ready. The time away isn’t as concerning to me as completing all of the assignments scheduled for us. There are a lot of research investigations during this mission,” he said.

We continue our conversation when his wife walks by with a three-year-old in her arms. “I’m going to find a corner,” she tells him. He nods and explains to me that its time-out time for the little one. Then he points out to me his two other daughters who are running around with other children they met, all of whom are exploring this unusual place in which they find themselves.

I wish him safe travels and quickly find Mark Kerr, the other male of the two male/two female crew. Mark tells me he really likes the HERA website our Human Research Engagement and Communications team created, and explained how he used it to explain to his daughter’s class what he will be doing for the next month.

With twenty minutes left on the countdown clock we are summoned to the cake room for some last words of wisdom. Kraig Keith, Flight Analogs Deputy, declares the crew fully trained and qualified for the mission at hand. Flight Commander Ulyana Horodyskyj cuts the cake which depicts the Mission XII patch.

With less than five minutes to go, the crowd gathers near the habitat and makes a human pathway reminiscent of the parent tunnels formed at the end of soccer games. That’s when I notice one of the crew is missing. I scan the room to find Todd leading his wife and three daughters over to the side of the habitat. He squats to their eye-level and speaks to each one before giving them a hug and a kiss. Then he held his wife. The journalist in me was inclined to snap a photo. The human in me won out and decided to leave their private moment private.

Todd joins his fellow crewmembers and as the clock races down to 0:00, they jog through our makeshift tunnel and stop at the door to the vessel. With a traditional ringing of the bell, the HERA vessel is officially turned over to the crew by Patrice Yarbrough, HERA Principal Investigator, for their mission. She rings the bell three times for Campaign 3 and then another four times for Mission 4. Ulyana, Todd, Jonna, and Mark step inside the habitat. They wave one last time and the door is close.

There is an instant drop in the atmosphere of the room once the door closes. A sound absorbing padding is placed over the door and Building 220 seems silent and empty. “See yain 30 days,” I thought to myself.

Chronicles from Concordia with Beth Healey – Part 5: Dark Mars (continued)

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DSC_4109-CustomFollow Beth Healey, a 28-year-old medical doctor from London, through her 14-months at the Concordia Station ending in January 2016 as a European Space Station researcher. Here is an excerpt from her blog and a link to Part 5: Chronicles from Concordia.

One of the most hostile environments for an analog is Concordia located more than 600 miles from the coastal stations of Antarctica. Many researchers use this facility to study psychology, physiology, and medicine. Some mission crewmembers perform a winter-over where they are part of research lasting the entire winter, which in Antarctica is nine months.

Part 5: Dark Mars (continued)

Looking up towards such a plethora of stars – many of them with planets of their own we know today – I could not help wondering what worlds might be out there, and whether there could be anyone or anything looking back in our direction. It felt strange and exciting to run experiments preparing for humans to stay on moons and planets, with the Milky Way in all its vastness and splendor right above our heads. Would humankind one day even take that real step to the stars and travel beyond our Solar System?

We did not see the sun for 105 days at Concordia during this polar night. Much like me, I am sure everyone was affected, but the crew reacted in different ways and people were affected more at different times. It was difficult to predict how people would feel and behave on different days.

Chronicles from Concordia with Beth Healey, Part 4: Dark Mars

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IMG_3378a1280Follow Beth Healey, a 28-year-old medical doctor from London, through her 14-months at the Concordia Station ending in January 2016 as a European Space Station researcher. Here is an excerpt from her blog and a link to Part 4: Chronicles from Concordia.

One of the most hostile environments for an analog is Concordia located more than 600 miles from the coastal stations of Antarctica. Many researchers use this facility to study psychology, physiology, and medicine. Some mission crewmembers perform a winter-over where they are part of research lasting the entire winter, which in Antarctica is nine months.

Part 4: Dark Mars:

My best way of dealing with the suspenseful waiting for winter was to focus on my work. The days quickly got shorter and shorter, the light itself was failing as the sun was slipping away. The scenic beauty of the landscape around the station faded as the season steadily and inexorably turned from intimidating to deadly. More and more I actually wanted winter to start. The sooner it starts, the sooner it finishes. And soon enough we looked out of the window towards that last sliver of sun on the horizon, knowing that this was the last sunset – or sunrise – we would see in four months’ time. Not only winter was here, but night as well.

Without the sun, Concordia really did feel like a different planet. “White Mars” as it is often called, or perhaps one should say “Dark Mars”. In some way the sun had made me feel connected to the outside world. The sun, at least, was the same as back home, and this gave me a sense of familiarity. Losing that made me feel cut off, in a different world. The sun also gives you energy, especially in the morning. Without it I felt like I was working on a continual night shift.

I worried I had become someone different.

Midwinter-crew

Chronicles from Concordia with Beth Healey – Part 3: White Mars

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Converted-photos_48Follow Beth Healey, a 28-year-old medical doctor from London, through her 14-months at the Concordia Station ending in January 2016 as a European Space Station researcher. Here is an excerpt from her blog and a link to Part 3: Chronicles from Concordia.

Part 3: White Mars:

At a few points during the summer period I did consider my decision to come there, and if it was indeed the right choice for me. The approaching day of “no return”, when the last plane would leave and I would be facing nine months with just twelve other people, gave me some anxiety. What if I had made the wrong decision? The most frightening aspect was not the lethal cold outside, but the isolation inside and how we would react to it – me included.

Chronicles from Concordia with Beth Healey – Part 2: The Arrival

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Epica-Core-LargeFollow Beth Healey, a 28-year-old medical doctor from London, through her 14-months at the Concordia Station ending in January 2016 as a European Space Station researcher. Here is an excerpt from her blog and a link to Part 2: Chronicles from Concordia.

One of the most hostile environments for an analog is Concordia located more than 600 miles from the coastal stations of Antarctica. Many researchers use this facility to study psychology, physiology, and medicine. Some mission crewmembers perform a winter-over where they are part of research lasting the entire winter, which in Antarctica is nine months.

Part 2: The Arrival:

I was lucky enough to be allowed to stay in the cockpit for the landing at the coastal station and watched in awe as we touched down smoothly onto the ice runway. We had arrived at the entrance to this frigid world… As we flew in over the mainland, the full magnificence of the place became obvious. As Scott, the polar explorer long before me, had put it in his journals, Antarctica “satisfies every claim of scenic magnificence.” He was right.

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