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Aeromedical Consultation Service critical to “Fly, Fight, Win”
WRIGHT-PATTERSON AIR FORCE BASE, Ohio – Aeromedical Consultation Service Deputy Chief Dr. Daniel Van Syoc (left in blue) oversees a case review session with flight surgeons and other medical professionals, some of which are the world experts in their fields. The ACS has screened new pilots and made waiver recommendations for existing air crews since the early 1950s. (U.S. Air Force photo/John Harrington)
MSgt. Michael Stevens, 1 of the 12 Outstanding Airmen of the Year.
Master Sgt. Michael J. Stevens, United States Air Force School of Aerospace Medicine Military Training Flight chief, talks with a group of students on Wright-Patterson Air Force Base, Ohio, July 7, 2017. Stevens, was named as one of the Air Force’s 12 Outstanding Airmen of the Year. (U.S. Air Force photo by R.J. Oriez)
MSgt. Michael Stevens, 1 of the 12 Outstanding Airmen of the Year.
Master Sgt. Michael J. Stevens, United States Air Force School of Aerospace Medicine Military Training Flight chief, pins on Airman Chiara Washington the black rope signifying her as a member of the school’s drill team July 7, 2017 on Wright-Patterson Air Force Base, Ohio. Stevens, was named as one of the Air Force’s 12 Outstanding Airmen of the Year. (U.S. Air Force photo by R.J. Oriez)
MSgt. Michael Stevens, 1 of the 12 Outstanding Airmen of the Year.
Master Sgt. Michael J. Stevens, United States Air Force School of Aerospace Medicine Military Training Flight chief, briefs a new arrival, Airman Andre Cade, checking into USAFSAM July 6, 2017, at Wright-Patterson Air Force Base, Ohio. Stevens, was named one of the Air Force’s 12 Outstanding Airmen of the Year. (U.S. Air Force photo by R.J. Oriez)
MSgt. Michael Stevens, 1 of the 12 Outstanding Airmen of the Year.
Airmen 1st Class Sierra Wahl, foreground, and Grethel Arbelo, United States Air Force School of Aerospace Medicine students, talk with Master Sgt. Michael J. Stevens, USAFSAM Military Training Flight chief, July 6, 2017, at Wright-Patterson Air Force Base, Ohio, about their hopes for their Air Force careers. Stevens, was named as one of the Air Force’s 12 Outstanding Airmen of the Year. (U.S. Air Force photo by R.J. Oriez)
USAFSAM aerospace physiology training optimizes airmen’s performance
U.S. Air Force Airman 1st Class Agnes Cattaneo, USAF School of Aerospace Medicine operational physiology technician, addresses a group of USAFSAM aircrew students about the Barany chair inside a USAFSAM classroom at Wright-Patterson Air Force Base, Ohio, April 26, 2017. The Barany chair is used as introductory spatial disorientation demonstrator and for rotational training as part of the airsickness management program. (U.S. Air Force photo/Michelle Gigante)
USAFSAM aerospace physiology training optimizes airmen’s performance
U.S. Air Force Tech. Sgt. Duane Thompson, USAF School of Aerospace Medicine operational physiology technician, gives the thumbs-up to Airman 1st Class Agnes Cattaneo, USAF School of Aerospace Medicine operational physiology technician, to start the Graveyard Spiral, as part of the Barany chair training for airsickness management program inside USAFSAM classroom at Wright-Patterson Air Force Base, Ohio, April 26, 2017. The Barany chair is used as introductory spatial disorientation demonstrator and for rotational training as part of the airsickness management program. (U.S. Air Force photo/Michelle Gigante)
USAFSAM aerospace physiology training optimizes airmen’s performance
U.S. Air Force Tech. Sgt. Duane Thompson, USAF School of Aerospace Medicine operational physiology technician, spins during a Graveyard Spiral, as part of the Barany chair training for airsickness management program, while Airman 1st Class Agnes Cattaneo, USAF School of Aerospace Medicine operational physiology technician stands-by inside USAFSAM classroom at Wright-Patterson Air Force Base, Ohio, April 26, 2017. The Barany chair is used as introductory spatial disorientation demonstrator and for rotational training as part of the airsickness management program. (U.S. Air Force photo/Michelle Gigante)
USAFSAM aerospace physiology training optimizes airmen’s performance
U.S. Air Force Tech. Sgt. Adam Tyler, USAF School of Aerospace Medicine operational physiology technician, enters preflight configurations for the school’s Centrifuge from the control room as part of a training program at Wright-Patterson Air Force Base, Ohio, April 26, 2017. The centrifuge simulates a high-G environment used for training and evaluating aircrew on a properly performed anti-G straining maneuver, in a controlled environment. (U.S. Air Force photo/Michelle Gigante)
USAFSAM aerospace physiology training optimizes airmen’s performance
U.S. Air Force School of Aerospace Medicine operational physiology technicians, Staff Sgt. Mary Longbrake (left), Tech. Sgt. Adam Tyler (middle) and Senior Airman Luciano Cattaneo (right), operate the movements of the Centrifuge from inside the control room as part of USAFSAM training at Wright-Patterson Air Force Base, Ohio, April 26, 2017. Centrifuge training enhances combat capability and safety by optimizing aircrew defense against G-induced loss of consciousness. (U.S. Air Force photo/Michelle Gigante)
USAFSAM aerospace physiology training optimizes airmen’s performance
U.S. Air Force School of Aerospace Medicine operational physiology technicians, Senior Airman Luciano Cattaneo and Tech. Sgt. Adam Tyler, prepare to climb into the training centrifuge at Wright-Patterson Air Force Base, Ohio, April 26, 2017. The purpose of the centrifuge is to provide optimum physical conditioning, appropriate functioning of anti-G equipment, and adequate G-oriented situational awareness for aircrew G-tolerance. (U.S. Air Force photo/Michelle Gigante)
USAFSAM aerospace physiology training optimizes airmen’s performance
U.S. Air Force Senior Airman Luciano Cattaneo, School of Aerospace Medicine operational physiology technician, performs a foreign object debris inspection around the centrifuge in USAF School of Aerospace Medicine at Wright-Patterson Air Force Base, Ohio, April 26, 2017. Centrifuge training teaches proper anti-G straining maneuver, physiology of high-G flight and awareness factors that affect an aircrew’s G-tolerance.(U.S. Air Force photo/Michelle Gigante)
USAFSAM aerospace physiology training optimizes airmen’s performance
U.S. Air Force Senior Master Sgt. Paul Johal, School of Aerospace Medicine operational physiology superintendent, briefs students in the altitude hypobaric chamber about familiarizing themselves with the oxygen equipment for USAFSAM hypoxia demo training at Wright-Patterson Air Force Base, Ohio, April 26, 2017. The hypobaric chamber provides a training system which replicates the effects of barometric pressure change on the human body. (U.S. Air Force photo/Michelle Gigante)
USAFSAM aerospace physiology training optimizes airmen’s performance
U.S. Air Force Senior Airman Darrian Caskey, School of Aerospace Medicine operational physiology technician, performs a seal check on the mask of 1st Lt. Alex Medina, USAFSAM student in the altitude hypobaric chamber for USAFSAM hypoxia demo training at Wright-Patterson Air Force Base, Ohio, April 26, 2017. The exposure to a low barometric pressure environment helps students recognize personal hypoxia symptoms as well as physical effects of pressure change at various training altitudes. (U.S. Air Force photo/Michelle Gigante)
USAFSAM aerospace physiology training optimizes airmen’s performance
U.S. Air Force Airman 1st Class Jenna Dotson, USAF School of Aerospace Medicine operational physiology technician, monitors the altitude hypobaric chamber prior to the start of hypoxia demo training at Wright-Patterson Air Force Base, Ohio, April 26, 2017. The ability to simulate an aircraft rapid decompression provides valuable training experience for aircrew and parachutists. (U.S. Air Force photo/Michelle Gigante)
USAFSAM aerospace physiology training optimizes airmen’s performance
U.S. Air Force Tech. Sgt. Daniel Zerbe, (left) School of Aerospace Medicine operational physiology technician and Senior Master Sgt. Paul Johal (right), USAFSAM operational physiology superintendent, observe hypoxia demo training from the outside of the altitude hypobaric chamber during training at Wright-Patterson Air Force Base, Ohio, April 26, 2017. The hypobaric chamber provides a training system which replicates the effects of barometric pressure change on the human body. (U.S. Air Force photo/Michelle Gigante)