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Donning an aviator oxygen mask, Colombian, Maj. Alexandra Mejia, an aerospace medicine specialist,
is ready for a hypobaric chamber flight.(Photo by TSgt Samuel Bendet)
Hypobaric Chamber Therapy Treatment At Oxygen International is used to provide treatments at affordable prices. Visit us today or call us to know more about us.
Participants donned their masks to counteract the loss of oxygen as the chamber quickly decompresses.
Prior to the final Rocketry Experimental High Altitude Barosimulator (REHAB) hypobaric chamber tests, March 2014.
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Photograph physiological training and altitude runs in hypobaric chamber for Reduced Gravity Office's Education System Engineering participants. Photo Date: April 12, 2010. Location: SCTF-NBL/Hypobaric Chamber. Photographer: Robert Markowitz.
U.S. Air Force Airman 1st Class Christina Kamka, 20th Aerospace Medicine Squadron Aerospace and Operational Physiology technician (right), operates the hypobaric chamber as Senior Airman Paville Aldridge, 20th AMDS Aerospace and Operational Physiology technician (left), informs trainees on what to expect at that simulated altitude, Shaw Air Force Base, S.C., March 13, 2014. Trainees are taken to a simulated altitude of 25,000 feet to determine their hypoxia symptoms. (U.S. Air Force photo by Airman 1st Class Jonathan Bass/Released)
The first day, today for me, they put you into a pressure chamber and take it up to 5000m of pressure (about twice the altitude of Aspen, so I hoped I could ace it) and watch you for 30 minutes. They also put you in a bathrobe to keep warm - quite photogenic, eh? Underneath I'm full of wires.
The second day, they do it up to 10,000 meters...
photos courtesy of Marsel Gubaydullin
The chamber is rapidly decompressed to the equivalent of flying unpressurized at 18,000 feet. Mist fills the space as air pressure drops, and the need to put on potentially life-saving oxygen masks gets drilled into each participant.
Senior Airman Tamika Montgomery, 779th Aerospace Medicine Squadron aerospace physiology technician, ensures a student’s flight helmet and mask fit properly and is receiving oxygen during their chamber flight Nov. 2, 2011 at Joint Base Andrews, Md. The Aerospace and Operational Physiology Training Flight, uses the hypobaric chamber to train military, Department of Defense civilians and contractors on the effects of hypoxia how to recognize their personal symptoms of hypoxia, and make the necessary corrections to reverse the symptoms of the condition. (U.S. Air Force photo/Senior Airman Perry Aston) (Released)
Aerospace Physiology training students wait to begin their hypobaric chamber training, Shaw Air Force Base, S.C., March 13, 2014. The hypobaric chamber tests a person’s ability to think and reason while dealing with depleted oxygen levels. (U.S. Air Force photo by Airman 1st Class Jonathan Bass/Released)
U.S. Air Force Capt. Stuart Sauls, 20th Aerospace Medicine Squadron Aerospace and Operational Physiologist, briefs the Aerospace Physiology trainees on what symptoms to look for when dealing with hypoxia, Shaw Air Force Base, S.C., March 13, 2014. Symptoms of hypoxia range from a tingling sensation, hot and cold flashes, dizziness, headache, nausea, blurred vision, euphoria, and even belligerence. (U.S. Air Force photo by Airman 1st Class Jonathan Bass/Released)
An Aerospace Physiology training student reads a sheet of paper to determine his hypoxic symptoms, Shaw Air Force Base, S.C., March 13, 2014. The mission of the Aerospace and Operational Physiology training program is to optimize human performance and reduce human factor mishap risks. (U.S. Air Force photo by Airman 1st Class Jonathan Bass/Released)
Louis Deflice, retired Master Chief Navy Diver and diving research department head at Naval Submarine Medical Research Laboratory (NSMRL), stands in front of the hypobaric chamber during a tour of the lab by the U.S. Navy Surgeon General Rear Adm. Bruce Gillingham and Naval Medical Forces Pacific Commander Rear Adm. Tim Weber, June 30. Weber was a guest speaker at an event marking NSMRL’s 75th anniversary and their history of delivering evidence-based solutions to enhance the health, performance, and survivability of undersea warfighters. As the NMFP commander, Weber has oversight of Navy Medicine's research and development enterprise. U.S. Navy photo by Regena Kowitz/Released
Each trainee is instructed to flip their oxygen regulator to deliver emergency positive-pressure oxygen flow if they start to feel hypoxia symptoms.
U.S. Air Force Senior Airman Paville Aldridge, 20th Aerospace Medicine Squadron Aerospace and Operational Physiology technician, instructs students on the symptoms of hypoxia, Shaw Air Force Base, S.C., March 13, 2014. Hypoxia is caused by the lack of oxygen in the blood. (U.S. Air Force photo by Airman 1st Class Jonathan Bass/Released)
U.S. Air Force Airman 1st Class Cameron Chisholm, 20th Aerospace Medicine Squadron Aerospace and Operational Physiology technician, records data from the hypobaric chamber training, Shaw Air Force Base, S.C., March 13, 2014. The hypobaric chamber creates the effect of climbing up in altitude to simulate changes in pressure. (U.S. Air Force photo by Airman 1st Class Jonathan Bass/Released)
The ejection seat trainer is adjacent to the hypobaric chamber, but it won’t be fired up (with participants on-board) until later in the week.
The rapid decompression flight profile is initiated, where participants begin with masks off to simulate conditions in a pressurized cabin.
The participants move to the adjacent module for the next phase of the sim — rapid decompression training.
After the sim, mannequin "Bob" was flown past the Armstrong line at 63,000 feet — close enough to the vacuum of space to cause Bob’s blood to literally boil — as the training participants look on.
Senior Airman Shanna Thomas, 779th aerospace Medicine Squadron Aerospace physiology technician, performs an operation check on life support equipment in the hypobaric chamber Nov. 2, 2011 at Joint Base Andrews, Md. The Aerospace and operational physiology training flight, uses the hypobaric chamber to train military, DoD civilians, and contractors on the effects of hypoxia, how to recognize their personal symptoms of hypoxia, and make the necessary corrections to reverse the symptoms. (U.S. Air Force photo/Senior Airman Perry Aston) (Released)
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Waiting their turns, participants stand between the ejection seat trainer (foreground) and Day 1’s hypobaric chamber.
Outside the chamber, the lead operator monitors equipment while keeping an eye on those inside the chamber via video.
Participants and staffers conduct equipment and procedure checks in the main module of the hypobaric chamber.
Photograph physiological training and altitude runs in hypobaric chamber for Reduced Gravity Office's Education System Engineering participants. Photo Date: April 12, 2010. Location: SCTF-NBL/Hypobaric Chamber. Photographer: Robert Markowitz.
Photograph physiological training and altitude runs in hypobaric chamber for Reduced Gravity Office's Education System Engineering participants. Photo Date: April 12, 2010. Location: SCTF-NBL/Hypobaric Chamber. Photographer: Robert Markowitz.
Photograph physiological training and altitude runs in hypobaric chamber for Reduced Gravity Office's Education System Engineering participants. Photo Date: April 12, 2010. Location: SCTF-NBL/Hypobaric Chamber. Photographer: Robert Markowitz.
Photograph physiological training and altitude runs in hypobaric chamber for Reduced Gravity Office's Education System Engineering participants. Photo Date: April 12, 2010. Location: SCTF-NBL/Hypobaric Chamber. Photographer: Robert Markowitz.
Photograph physiological training and altitude runs in hypobaric chamber for Reduced Gravity Office's Education System Engineering participants. Photo Date: April 12, 2010. Location: SCTF-NBL/Hypobaric Chamber. Photographer: Robert Markowitz.
Photograph physiological training and altitude runs in hypobaric chamber for Reduced Gravity Office's Education System Engineering participants. Photo Date: April 12, 2010. Location: SCTF-NBL/Hypobaric Chamber. Photographer: Robert Markowitz.
Photograph physiological training and altitude runs in hypobaric chamber for Reduced Gravity Office's Education System Engineering participants. Photo Date: April 12, 2010. Location: SCTF-NBL/Hypobaric Chamber. Photographer: Robert Markowitz.
Photograph physiological training and altitude runs in hypobaric chamber for Reduced Gravity Office's Education System Engineering participants. Photo Date: April 12, 2010. Location: SCTF-NBL/Hypobaric Chamber. Photographer: Robert Markowitz.