Critical Care Air Transport Team
The Critical Care Air Transport Team (CCATT) concept dates from 1988, when Col. P.K. Carlton and Maj. J. Chris Farmer originated the development of this program while stationed at U.S. Air Force Hospital Scott, Scott Air Force Base, Illinois.[1] Dr. Carlton was the Hospital Commander, and Dr. Farmer was a staff intensivist. The program was developed because of an inability to transport and care for a patient who became critically ill during a trans-Atlantic air evac mission in a C-141. They envisioned a highly portable intensive care unit (ICU) with sophisticated capabilities, carried in backpacks, that would match on-the-ground ICU functionality.[2]
This concept was further developed at Wilford Hall Medical Center in 1991–1992, when Dr. Carlton served as the 59th Medical Wing commander and the AETC/SG and Dr. Farmer, joined by Major Jay Johannigman, were intensivist colleagues at Wilford Hall. Together, they developed the first written concept of operations for this team, a table of allowances, and a plan of action for formalizing the CCATT program. The first table of allowances was developed on a Saturday, in an empty ICU room, by Drs. Johannigman and Farmer. They gathered various supplies, equipment, medical devices, and medications in this room. They agreed that this team should be able to care for 3 patients. Through the day, they bartered, added, and subtracted—ultimately limiting the supplies to a single grocery-sized cart. This became the first CCATT table of allowances.
Drs. Carlton, Johannigman, and Farmer traveled to AMC at Scott AFB and presented their concept of operations. They also presented the concept to the Joint Special Operations Command (JSOC). Ultimately, JSOC established a Unit Type Code (UTC) for CCATT, and the first deployment followed thereafter. Joined by then Lt. Col. Steve Derdak, Maj. Bill Beninati, Maj Tom Grissom, Maj. Mike Wall, Lt. Col. Rick Hersack, and many other key individuals the program developed during Joint Task Force (JTF) deployments in Cuba/Haiti, Eastern Europe, and Africa. In the late 1990’s the graduate medical programs at Wilford Hall USAF Medical Center (59th Medical Wing) began to incorporate cardiovascular and critical care fellows into the CCAT teams. Dr. Jonathan Sheinberg and Dr. Walter Rustmann were the first fellows to participate in the CCAT team rotation. In addition to these several deployments from 1994–1996, there were numerous field exercises with various Air Evac units in CONUS and OCONUS as the UTC was further refined. CCATT teams were also deployed for civil disaster ICU medical support, including a 747 KAL crash in Guam,[3] and a 707 cargo plane crash in Ecuador. The program fully realized its worth during the second Gulf War, when ICU casualty transport became a vital necessity. These ICU transport capabilities allowed trauma surgeons to perform far forward damage control surgery, knowing that these patients could be quickly transported rearward. Combined with other advances in field medical care, what resulted is the lowest died of wounds rate measured in modern times (testimony House Armed Services Committee, 2005, Lt.Gen. George "Peach" Taylor).[4]
Today, the CCATT is a three-person, highly specialized medical asset that can create and operate a portable intensive care unit (ICU) on board any transport aircraft during flight.[5] It is a limited, rapidly deployable resource and a primary component of the Air Force's aeromedical evacuation (AE) system. The CCATT team consists of a physician specializing in an area such as critical care, emergency medicine, anesthesiology, surgery, etc., along with a critical care nurse and a respiratory therapist.[6] The CCATT, with special medical equipment, can turn almost any airframe into a flying intensive care unit within minutes. The team is experienced in the care of critically ill or injured patients with multi-system trauma, shock, burns, respiratory failure, multiple organ failure, or other life-threatening complications. The complex, critical nature of patients in hemodynamic flux requires continual stabilization, advanced care, and may even require life-saving invasive interventions during transport.[7]
References
- Lenhart, M.K.; Savitsky, E.; Eastbridge, B.; Eastridge, B.; Borden Institute (U.S.) (2012). Combat Casualty Care: Lessons Learned from OEF and OIF. Office of the Surgeon General, Department of the Army. pp. 697–700. ISBN 978-0-16-091390-7. Retrieved 1 October 2018.
- Ecklund, J.M.; Moores, L.E. (2017). Neurotrauma Management for the Severely Injured Polytrauma Patient. Springer International Publishing. p. 24. ISBN 978-3-319-40208-6. Retrieved 1 October 2018.
- Cancio, Leopoldo C. (1 September 2006). "Airplane Crash in Guam, August 6, 1997: The Aeromedical Evacuation Response – Journal of Burn Care & Research". Journal of Burn Care & Research. 27 (5): 642–648. doi:10.1097/01.BCR.0000238097.10219.66. ISSN 1559-047X. PMID 16998396. S2CID 3666983.
- Beninati, William; Meyer, Michael T.; Carter, Todd E. (2008). "The critical care air transport program". Critical Care Medicine. Ovid Technologies (Wolters Kluwer Health). 36 (Suppl): S370–S376. doi:10.1097/ccm.0b013e31817e3143. ISSN 0090-3493. PMID 18594265. S2CID 6439109.
- CCATT (Critical Care Air Transport Team) – Nursing Departments – Wilford Hall Medical Center Archived 2007-07-03 at the Wayback Machine
- Urman, R.; Gross, W.; Philip, B. (2011). Anesthesia Outside of the Operating Room. Oxford University Press. p. 269. ISBN 978-0-19-984268-1. Retrieved 1 October 2018.
- Kellermann, A.L.; Elster, E.; Borden Institute (2018). Out of the Crucible: How the Us Military Transformed Combat Casualty Care in Iraq and Afghanistan. Textbooks of Military Medicine. DEPARTMENT OF THE ARMY. pp. 235–244. ISBN 978-0-16-094362-1. Retrieved 1 October 2018.
USAF reference video, CCATT, https://www.dvidshub.net/video/733686/afms-capability-critical-care-air-transport-team , accessed March 3, 2021.
Further reading
- Maddry Joseph K, Arana Allyson A, Perez Crystal A, Medellin Kimberly L, Paciocco Joni A, Mora Alejandra G, Holder William G, Davis William T, Herson Paco, Bebarta Vikhyat S (2019). "Influence of Time to Transport to a Higher Level Facility on the Clinical Outcomes of US Combat Casualties with TBI: A Multicenter 7-Year Study". Military Medicine. doi:10.1093/milmed/usz178. PMID 31334769.
{{cite journal}}
: CS1 maint: multiple names: authors list (link) - Savell Shelia C, Arana Allyson A, Medellin Kimberly L, Bebarta Vikhyat S, Perez Crystal A, Reeves Lauren K, Mora Alejandra G, Maddry Joseph K (2019). "Descriptive Analysis of Cardiac Patients Transported by Critical Care Air Transport Teams". Military Medicine. 184 (7–8): e288–e295. doi:10.1093/milmed/usy426. PMID 30811531.
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: CS1 maint: multiple names: authors list (link) - Maddry Joseph K., Arana Allyson A., Savell Shelia C., Reeves Lauren K., Perez Crystal A., Mora Alejandra G., Bebarta Vikhyat S. (2017). "Critical Care Air Transport Team Evacuation of Medical Patients Without Traumatic Injury". Military Medicine. 182 (11): e1874–e1880. doi:10.7205/MILMED-D-17-00091. PMID 29087856.
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: CS1 maint: multiple names: authors list (link) - Maddry JK, Mora AG, Savell SC, Perez CA, Mason PE, Aden JK, Bebarta VS (2018). "Impact of Critical Care Air Transport Team (CCATT) ventilator management on combat mortality". J Trauma Acute Care Surg. 84: 157–164. doi:10.1097/TA.0000000000001607. PMID 28570350. S2CID 27807750.
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: CS1 maint: multiple names: authors list (link) - Barnard Ed, Mora Alejandra G., Bebarta Vikhyat S. (2016). "Preflight Variables are Associated With Increased Ventilator Days and 30-Day Mortality in Trauma Casualties Evacuated by Critical Care Air Transport Teams: An Exploratory Retrospective Study". Military Medicine. 181 (5S): 132–137. doi:10.7205/MILMED-D-15-00134. PMID 27168563.
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: CS1 maint: multiple names: authors list (link) - Ingalls N, Zonies D, Bailey JA, Martin KD, Iddins BO, Carlton PK, Hanseman D, Branson R, Dorlac W, Johannigman J (2014). "A Review of the First 10 Years of Critical Care Aeromedical Transport during Operation iraqi freedom and Operation enduring freedom: the importance of evacuation timing". JAMA Surg. 149: 807–13. doi:10.1001/jamasurg.2014.621. PMID 25074327.
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: CS1 maint: multiple names: authors list (link)