Members of the 59th Medical Wing Extracorporeal Membrane Oxygenation and Critical Care Air Transport Team adjust settings on a vital signs monitor at Lafayette General Medical Center April 20. The teams were preparing the patient for transport to San Antonio Military Medical Center, Joint Base San Antonio-Fort Sam Houston, Texas. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/members-of-the-59th-medical-wing-extracorporeal-membrane-oxygenation-and-critical-care-air-transport-team-adjust-settings-on-a-vital-signs-monitor-at-lafayette-general-medical-center-april-20-the-teams-were-preparing-the-patient-for-transport-to-san-antonio-military-medical-center-joint-base-san-antonio-fort-sam-houston-texas-image210311292.html
RMP64E5G–Members of the 59th Medical Wing Extracorporeal Membrane Oxygenation and Critical Care Air Transport Team adjust settings on a vital signs monitor at Lafayette General Medical Center April 20. The teams were preparing the patient for transport to San Antonio Military Medical Center, Joint Base San Antonio-Fort Sam Houston, Texas.
Maj. James Lantry (right), Extracorporeal Membrane Oxygenation transport team vice director, watches for stabilization on the ECMO system prior to transporting the patient to San Antonio Military Medical Center, Joint Base San Antonio-Fort Sam Houston, Texas, April 20. Prior to a patient being transferred to a new location, a patient’s vital must be stable for four hours. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/maj-james-lantry-right-extracorporeal-membrane-oxygenation-transport-team-vice-director-watches-for-stabilization-on-the-ecmo-system-prior-to-transporting-the-patient-to-san-antonio-military-medical-center-joint-base-san-antonio-fort-sam-houston-texas-april-20-prior-to-a-patient-being-transferred-to-a-new-location-a-patients-vital-must-be-stable-for-four-hours-image210311293.html
RMP64E5H–Maj. James Lantry (right), Extracorporeal Membrane Oxygenation transport team vice director, watches for stabilization on the ECMO system prior to transporting the patient to San Antonio Military Medical Center, Joint Base San Antonio-Fort Sam Houston, Texas, April 20. Prior to a patient being transferred to a new location, a patient’s vital must be stable for four hours.
Capt. Jeffrey Dellavolpe, 959th Medical Operations Squadron critical care physician, regulates the Extracorporeal Membrane Oxygenation system during a flight to San Antonio Military Medical Center, Joint Base San Antonio-Fort Sam Houston, Texas, April 20. ECMO is a heart-lung bypass system that circulates blood through an external artificial lung and sends it back into the patient’s bloodstream. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/capt-jeffrey-dellavolpe-959th-medical-operations-squadron-critical-care-physician-regulates-the-extracorporeal-membrane-oxygenation-system-during-a-flight-to-san-antonio-military-medical-center-joint-base-san-antonio-fort-sam-houston-texas-april-20-ecmo-is-a-heart-lung-bypass-system-that-circulates-blood-through-an-external-artificial-lung-and-sends-it-back-into-the-patients-bloodstream-image210311294.html
RMP64E5J–Capt. Jeffrey Dellavolpe, 959th Medical Operations Squadron critical care physician, regulates the Extracorporeal Membrane Oxygenation system during a flight to San Antonio Military Medical Center, Joint Base San Antonio-Fort Sam Houston, Texas, April 20. ECMO is a heart-lung bypass system that circulates blood through an external artificial lung and sends it back into the patient’s bloodstream.
Members of the 59th Medical Wing Extracorporeal Membrane Oxygenation transport team connect a patient to an ECMO system for transport from Lafayette General Medical Center to San Antonio Military Medical Center, Joint Base San Antonio-Fort Sam Houston, Texas, April 20. ECMO is a heart-lung bypass system that circulates blood through an external artificial lung and sends it back into the patient’s bloodstream. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/members-of-the-59th-medical-wing-extracorporeal-membrane-oxygenation-transport-team-connect-a-patient-to-an-ecmo-system-for-transport-from-lafayette-general-medical-center-to-san-antonio-military-medical-center-joint-base-san-antonio-fort-sam-houston-texas-april-20-ecmo-is-a-heart-lung-bypass-system-that-circulates-blood-through-an-external-artificial-lung-and-sends-it-back-into-the-patients-bloodstream-image210311291.html
RMP64E5F–Members of the 59th Medical Wing Extracorporeal Membrane Oxygenation transport team connect a patient to an ECMO system for transport from Lafayette General Medical Center to San Antonio Military Medical Center, Joint Base San Antonio-Fort Sam Houston, Texas, April 20. ECMO is a heart-lung bypass system that circulates blood through an external artificial lung and sends it back into the patient’s bloodstream.
Dr. (Maj.) Jeffrey DellaVolpe, an Individual Mobilization Augmentee, works to place a Navy explosive ordnance disposal technician on extracorporeal membrane oxygenation therapy, or ECMO for short. The procedure, which artificially oxygenates the blood, stabilized the sailor's body, allowing him to be transported directly from Baghdad to the San Antonio Military Medical Center, Texas. (U.S. Air Force photo by Senior Airman Keifer Bowes) Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/dr-maj-jeffrey-dellavolpe-an-individual-mobilization-augmentee-works-to-place-a-navy-explosive-ordnance-disposal-technician-on-extracorporeal-membrane-oxygenation-therapy-or-ecmo-for-short-the-procedure-which-artificially-oxygenates-the-blood-stabilized-the-sailors-body-allowing-him-to-be-transported-directly-from-baghdad-to-the-san-antonio-military-medical-center-texas-us-air-force-photo-by-senior-airman-keifer-bowes-image184030669.html
RMMKB8YW–Dr. (Maj.) Jeffrey DellaVolpe, an Individual Mobilization Augmentee, works to place a Navy explosive ordnance disposal technician on extracorporeal membrane oxygenation therapy, or ECMO for short. The procedure, which artificially oxygenates the blood, stabilized the sailor's body, allowing him to be transported directly from Baghdad to the San Antonio Military Medical Center, Texas. (U.S. Air Force photo by Senior Airman Keifer Bowes)
Guillermo Herrera (right), Cook Children’s Hospital respiratory therapist and extracorporeal membrane oxygenation (ECMO) coordinator, explains to Rear Adm. Rebecca McCormick-Boyle, commander, Navy Medicine Education, Training and Logistics Command (NMTLC) (left); and Command Master Chief Petty Officer Mitchell Sepulveda, NMETLC Command Master Chief, how some of the hospital's medical simulation training equipment operates. McCormick-Boyle and Sepulveda visited Cook Children’s during Fort Worth Navy Week 2017. Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/guillermo-herrera-right-cook-childrens-hospital-respiratory-therapist-and-extracorporeal-membrane-oxygenation-ecmo-coordinator-explains-to-rear-adm-rebecca-mccormick-boyle-commander-navy-medicine-education-training-and-logistics-command-nmtlc-left-and-command-master-chief-petty-officer-mitchell-sepulveda-nmetlc-command-master-chief-how-some-of-the-hospitals-medical-simulation-training-equipment-operates-mccormick-boyle-and-sepulveda-visited-cook-childrens-during-fort-worth-navy-week-2017-image184767315.html
RMMMGTGK–Guillermo Herrera (right), Cook Children’s Hospital respiratory therapist and extracorporeal membrane oxygenation (ECMO) coordinator, explains to Rear Adm. Rebecca McCormick-Boyle, commander, Navy Medicine Education, Training and Logistics Command (NMTLC) (left); and Command Master Chief Petty Officer Mitchell Sepulveda, NMETLC Command Master Chief, how some of the hospital's medical simulation training equipment operates. McCormick-Boyle and Sepulveda visited Cook Children’s during Fort Worth Navy Week 2017.
A team of Air Force Reserve rescue medics load a simulated patient connected to an extracorporeal membrane oxygenation machine onto an Army National Guard UH-60 Black Hawk helicopter March 4, 2017 at Patrick Air Force Base, Florida, as part of the 5th annual MEDBEACH joint medical response exercise. More than 250 military medics from 12 units across the country participated in this year's exercise. (U.S. Air Force photo/Capt. Leslie Forshaw) Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-team-of-air-force-reserve-rescue-medics-load-a-simulated-patient-connected-to-an-extracorporeal-membrane-oxygenation-machine-onto-an-army-national-guard-uh-60-black-hawk-helicopter-march-4-2017-at-patrick-air-force-base-florida-as-part-of-the-5th-annual-medbeach-joint-medical-response-exercise-more-than-250-military-medics-from-12-units-across-the-country-participated-in-this-years-exercise-us-air-force-photocapt-leslie-forshaw-image186009883.html
RMMPHDE3–A team of Air Force Reserve rescue medics load a simulated patient connected to an extracorporeal membrane oxygenation machine onto an Army National Guard UH-60 Black Hawk helicopter March 4, 2017 at Patrick Air Force Base, Florida, as part of the 5th annual MEDBEACH joint medical response exercise. More than 250 military medics from 12 units across the country participated in this year's exercise. (U.S. Air Force photo/Capt. Leslie Forshaw)
A team of Air Force Reserve rescue medics load a simulated patient connected to an extracorporeal membrane oxygenation machine onto an Army National Guard UH-60 Black Hawk helicopter March 4, 2017 at Patrick Air Force Base, Florida, as part of the 5th annual MEDBEACH joint medical response exercise. More than 250 military medics from 12 units across the country participated in this year's exercise. (U.S. Air Force photo/Capt. Leslie Forshaw) Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-team-of-air-force-reserve-rescue-medics-load-a-simulated-patient-connected-to-an-extracorporeal-membrane-oxygenation-machine-onto-an-army-national-guard-uh-60-black-hawk-helicopter-march-4-2017-at-patrick-air-force-base-florida-as-part-of-the-5th-annual-medbeach-joint-medical-response-exercise-more-than-250-military-medics-from-12-units-across-the-country-participated-in-this-years-exercise-us-air-force-photocapt-leslie-forshaw-image186009640.html
RMMPHD5C–A team of Air Force Reserve rescue medics load a simulated patient connected to an extracorporeal membrane oxygenation machine onto an Army National Guard UH-60 Black Hawk helicopter March 4, 2017 at Patrick Air Force Base, Florida, as part of the 5th annual MEDBEACH joint medical response exercise. More than 250 military medics from 12 units across the country participated in this year's exercise. (U.S. Air Force photo/Capt. Leslie Forshaw)
Air Force and Army medics stabilize a simulated patient connected to an extracorporeal membrane oxygenation machine (ECMO) upon boarding a C-17 Globemaster III for transport from Patrick Air Force Base, Florida, March 4, 2017 as part of the 5th annual MEDBEACH joint medical response exercise. ECMO is a treatment that uses a pump to circulate blood through an artificial lung back into the bloodstream of a patient. (U.S. Air Force photo/Tech. Sgt. Lindsey Maurice) Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/air-force-and-army-medics-stabilize-a-simulated-patient-connected-to-an-extracorporeal-membrane-oxygenation-machine-ecmo-upon-boarding-a-c-17-globemaster-iii-for-transport-from-patrick-air-force-base-florida-march-4-2017-as-part-of-the-5th-annual-medbeach-joint-medical-response-exercise-ecmo-is-a-treatment-that-uses-a-pump-to-circulate-blood-through-an-artificial-lung-back-into-the-bloodstream-of-a-patient-us-air-force-phototech-sgt-lindsey-maurice-image186009644.html
RMMPHD5G–Air Force and Army medics stabilize a simulated patient connected to an extracorporeal membrane oxygenation machine (ECMO) upon boarding a C-17 Globemaster III for transport from Patrick Air Force Base, Florida, March 4, 2017 as part of the 5th annual MEDBEACH joint medical response exercise. ECMO is a treatment that uses a pump to circulate blood through an artificial lung back into the bloodstream of a patient. (U.S. Air Force photo/Tech. Sgt. Lindsey Maurice)
A 455th Expeditionary Medical Group team prepares to load the remaining equipment used to save the life of a NATO ally, who required Extracorporeal Membrane Oxygenation team support, onto an aeromedical evacuation transport at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-455th-expeditionary-medical-group-team-prepares-to-load-the-remaining-equipment-used-to-save-the-life-of-a-nato-ally-who-required-extracorporeal-membrane-oxygenation-team-support-onto-an-aeromedical-evacuation-transport-at-bagram-air-field-afghanistan-on-feb-18-2016-the-ecmo-team-dispatched-from-san-antonio-military-medical-center-uses-technology-that-bypasses-the-lungs-and-infuses-the-blood-directly-with-oxygen-while-removing-the-harmful-carbon-dioxide-from-the-blood-stream-the-patient-was-airlifted-to-landstuhl-regional-medical-center-germany-where-he-will-receive-7-to-14-days-image215735654.html
RMPEYH0P–A 455th Expeditionary Medical Group team prepares to load the remaining equipment used to save the life of a NATO ally, who required Extracorporeal Membrane Oxygenation team support, onto an aeromedical evacuation transport at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days
A 455th Expeditionary Medical Group team loads the remaining equipment used to save the life of a NATO ally, who required Extracorporeal Membrane Oxygenation team support, onto an aeromedical evacuation transport at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additio Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-455th-expeditionary-medical-group-team-loads-the-remaining-equipment-used-to-save-the-life-of-a-nato-ally-who-required-extracorporeal-membrane-oxygenation-team-support-onto-an-aeromedical-evacuation-transport-at-bagram-air-field-afghanistan-on-feb-18-2016-the-ecmo-team-dispatched-from-san-antonio-military-medical-center-uses-technology-that-bypasses-the-lungs-and-infuses-the-blood-directly-with-oxygen-while-removing-the-harmful-carbon-dioxide-from-the-blood-stream-the-patient-was-airlifted-to-landstuhl-regional-medical-center-germany-where-he-will-receive-7-to-14-days-of-additio-image215735655.html
RMPEYH0R–A 455th Expeditionary Medical Group team loads the remaining equipment used to save the life of a NATO ally, who required Extracorporeal Membrane Oxygenation team support, onto an aeromedical evacuation transport at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additio
A 455th Expeditionary Medical Group team combines efforts with the Extracorporeal Membrane Oxygenation team to save the life of a NATO ally at the Craig Joint-Theater Hospital at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force p Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-455th-expeditionary-medical-group-team-combines-efforts-with-the-extracorporeal-membrane-oxygenation-team-to-save-the-life-of-a-nato-ally-at-the-craig-joint-theater-hospital-at-bagram-air-field-afghanistan-on-feb-18-2016-the-ecmo-team-dispatched-from-san-antonio-military-medical-center-uses-technology-that-bypasses-the-lungs-and-infuses-the-blood-directly-with-oxygen-while-removing-the-harmful-carbon-dioxide-from-the-blood-stream-the-patient-was-airlifted-to-landstuhl-regional-medical-center-germany-where-he-will-receive-7-to-14-days-of-additional-ecmo-treatment-us-air-force-p-image215735633.html
RMPEYH01–A 455th Expeditionary Medical Group team combines efforts with the Extracorporeal Membrane Oxygenation team to save the life of a NATO ally at the Craig Joint-Theater Hospital at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force p
A 455th Expeditionary Medical Group team combines efforts with the Extracorporeal Membrane Oxygenation team to transport a NATO ally at the Craig Joint-Theater Hospital at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force photo by Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-455th-expeditionary-medical-group-team-combines-efforts-with-the-extracorporeal-membrane-oxygenation-team-to-transport-a-nato-ally-at-the-craig-joint-theater-hospital-at-bagram-air-field-afghanistan-on-feb-18-2016-the-ecmo-team-dispatched-from-san-antonio-military-medical-center-uses-technology-that-bypasses-the-lungs-and-infuses-the-blood-directly-with-oxygen-while-removing-the-harmful-carbon-dioxide-from-the-blood-stream-the-patient-was-airlifted-to-landstuhl-regional-medical-center-germany-where-he-will-receive-7-to-14-days-of-additional-ecmo-treatment-us-air-force-photo-by-image215735648.html
RMPEYH0G–A 455th Expeditionary Medical Group team combines efforts with the Extracorporeal Membrane Oxygenation team to transport a NATO ally at the Craig Joint-Theater Hospital at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force photo by
A 455th Expeditionary Medical Group team prepares to load a NATO ally, who required Extracorporeal Membrane Oxygenation team support, onto an aeromedical evacuation transport at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force ph Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-455th-expeditionary-medical-group-team-prepares-to-load-a-nato-ally-who-required-extracorporeal-membrane-oxygenation-team-support-onto-an-aeromedical-evacuation-transport-at-bagram-air-field-afghanistan-on-feb-18-2016-the-ecmo-team-dispatched-from-san-antonio-military-medical-center-uses-technology-that-bypasses-the-lungs-and-infuses-the-blood-directly-with-oxygen-while-removing-the-harmful-carbon-dioxide-from-the-blood-stream-the-patient-was-airlifted-to-landstuhl-regional-medical-center-germany-where-he-will-receive-7-to-14-days-of-additional-ecmo-treatment-us-air-force-ph-image215735650.html
RMPEYH0J–A 455th Expeditionary Medical Group team prepares to load a NATO ally, who required Extracorporeal Membrane Oxygenation team support, onto an aeromedical evacuation transport at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force ph
A 455th Expeditionary Medical Group team combines efforts with the Extracorporeal Membrane Oxygenation team to save the life of a NATO ally at the Craig Joint-Theater Hospital at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force p Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-455th-expeditionary-medical-group-team-combines-efforts-with-the-extracorporeal-membrane-oxygenation-team-to-save-the-life-of-a-nato-ally-at-the-craig-joint-theater-hospital-at-bagram-air-field-afghanistan-on-feb-18-2016-the-ecmo-team-dispatched-from-san-antonio-military-medical-center-uses-technology-that-bypasses-the-lungs-and-infuses-the-blood-directly-with-oxygen-while-removing-the-harmful-carbon-dioxide-from-the-blood-stream-the-patient-was-airlifted-to-landstuhl-regional-medical-center-germany-where-he-will-receive-7-to-14-days-of-additional-ecmo-treatment-us-air-force-p-image215735634.html
RMPEYH02–A 455th Expeditionary Medical Group team combines efforts with the Extracorporeal Membrane Oxygenation team to save the life of a NATO ally at the Craig Joint-Theater Hospital at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force p
A 455th Expeditionary Medical Group team combines efforts with the Extracorporeal Membrane Oxygenation team to save the life of a NATO ally at the Craig Joint-Theater Hospital at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force p Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-455th-expeditionary-medical-group-team-combines-efforts-with-the-extracorporeal-membrane-oxygenation-team-to-save-the-life-of-a-nato-ally-at-the-craig-joint-theater-hospital-at-bagram-air-field-afghanistan-on-feb-18-2016-the-ecmo-team-dispatched-from-san-antonio-military-medical-center-uses-technology-that-bypasses-the-lungs-and-infuses-the-blood-directly-with-oxygen-while-removing-the-harmful-carbon-dioxide-from-the-blood-stream-the-patient-was-airlifted-to-landstuhl-regional-medical-center-germany-where-he-will-receive-7-to-14-days-of-additional-ecmo-treatment-us-air-force-p-image215735649.html
RMPEYH0H–A 455th Expeditionary Medical Group team combines efforts with the Extracorporeal Membrane Oxygenation team to save the life of a NATO ally at the Craig Joint-Theater Hospital at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force p
A 455th Expeditionary Medical Group team loads a NATO ally, who required Extracorporeal Membrane Oxygenation team support, onto an aeromedical evacuation transport at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force photo by Tech Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-455th-expeditionary-medical-group-team-loads-a-nato-ally-who-required-extracorporeal-membrane-oxygenation-team-support-onto-an-aeromedical-evacuation-transport-at-bagram-air-field-afghanistan-on-feb-18-2016-the-ecmo-team-dispatched-from-san-antonio-military-medical-center-uses-technology-that-bypasses-the-lungs-and-infuses-the-blood-directly-with-oxygen-while-removing-the-harmful-carbon-dioxide-from-the-blood-stream-the-patient-was-airlifted-to-landstuhl-regional-medical-center-germany-where-he-will-receive-7-to-14-days-of-additional-ecmo-treatment-us-air-force-photo-by-tech-image215735653.html
RMPEYH0N–A 455th Expeditionary Medical Group team loads a NATO ally, who required Extracorporeal Membrane Oxygenation team support, onto an aeromedical evacuation transport at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force photo by Tech
A 455th Expeditionary Medical Group team handles the Extracorporeal Membrane Oxygenation team’s equipment during a patient transfer at the Craig Joint-Theater Hospital at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force photo by Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-455th-expeditionary-medical-group-team-handles-the-extracorporeal-membrane-oxygenation-teams-equipment-during-a-patient-transfer-at-the-craig-joint-theater-hospital-at-bagram-air-field-afghanistan-on-feb-18-2016-the-ecmo-team-dispatched-from-san-antonio-military-medical-center-uses-technology-that-bypasses-the-lungs-and-infuses-the-blood-directly-with-oxygen-while-removing-the-harmful-carbon-dioxide-from-the-blood-stream-the-patient-was-airlifted-to-landstuhl-regional-medical-center-germany-where-he-will-receive-7-to-14-days-of-additional-ecmo-treatment-us-air-force-photo-by-image215735639.html
RMPEYH07–A 455th Expeditionary Medical Group team handles the Extracorporeal Membrane Oxygenation team’s equipment during a patient transfer at the Craig Joint-Theater Hospital at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force photo by
A 455th Expeditionary Medical Group team combines efforts with the Extracorporeal Membrane Oxygenation team to save the life of a NATO ally at the Craig Joint-Theater Hospital at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force p Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-455th-expeditionary-medical-group-team-combines-efforts-with-the-extracorporeal-membrane-oxygenation-team-to-save-the-life-of-a-nato-ally-at-the-craig-joint-theater-hospital-at-bagram-air-field-afghanistan-on-feb-18-2016-the-ecmo-team-dispatched-from-san-antonio-military-medical-center-uses-technology-that-bypasses-the-lungs-and-infuses-the-blood-directly-with-oxygen-while-removing-the-harmful-carbon-dioxide-from-the-blood-stream-the-patient-was-airlifted-to-landstuhl-regional-medical-center-germany-where-he-will-receive-7-to-14-days-of-additional-ecmo-treatment-us-air-force-p-image215735627.html
RMPEYGYR–A 455th Expeditionary Medical Group team combines efforts with the Extracorporeal Membrane Oxygenation team to save the life of a NATO ally at the Craig Joint-Theater Hospital at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force p
A 455th Expeditionary Medical Group team loads the Extracorporeal Membrane Oxygenation team’s equipment during a patient transfer at the Craig Joint-Theater Hospital at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force photo by Te Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/a-455th-expeditionary-medical-group-team-loads-the-extracorporeal-membrane-oxygenation-teams-equipment-during-a-patient-transfer-at-the-craig-joint-theater-hospital-at-bagram-air-field-afghanistan-on-feb-18-2016-the-ecmo-team-dispatched-from-san-antonio-military-medical-center-uses-technology-that-bypasses-the-lungs-and-infuses-the-blood-directly-with-oxygen-while-removing-the-harmful-carbon-dioxide-from-the-blood-stream-the-patient-was-airlifted-to-landstuhl-regional-medical-center-germany-where-he-will-receive-7-to-14-days-of-additional-ecmo-treatment-us-air-force-photo-by-te-image215735644.html
RMPEYH0C–A 455th Expeditionary Medical Group team loads the Extracorporeal Membrane Oxygenation team’s equipment during a patient transfer at the Craig Joint-Theater Hospital at Bagram Air Field, Afghanistan, on Feb. 18, 2016. The ECMO team, dispatched from San Antonio Military Medical Center, uses technology that bypasses the lungs and infuses the blood directly with oxygen, while removing the harmful carbon dioxide from the blood stream. The patient was airlifted to Landstuhl Regional Medical Center, Germany, where he will receive 7 to 14 days of additional ECMO treatment. (U.S. Air Force photo by Te
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