Page 78 - JSOM Summer 2019

P. 78

limbs can greatly expand its uses to include peripheral proce- References
dures and potentially even serve as a makeshift REBOA trainer. 1. Beaubien J, Baker DP. The use of simulation for training team-
work skills in healthcare: how low can you go? Qual Saf Health
Care. 2004;13:i51–956.
Conclusion 2. Beekley AC, Martin MJ, Spinella PC, et al. Predicting resource
needs for multiple and mass casualty events in combat: lessons
The described vascular trauma simulator provides a field- learned from combat support hospital experiences in Operation
expedient method for teaching and training temporizing and Iraqi Freedom. J Trauma. 2009;66:S129–S137.
definitive treatment methods for life-threatening noncom- 3. Chambers LW, Green DJ, Sample K, et al. Tactical surgical inter-
pressible torso hemorrhage. By using readily available supplies vention with temporary shunting of peripheral vascular trauma
already found in the deployment environment, it eliminates sustained during Operation Iraqi Freedom: one unit’s experience.
J Trauma. 2006;61:824–830.
the necessity to carry extra supplies in a resource-limited 4. Deering SH, Rush RR Jr, Lesperance RN, et al. Perceived effects
environment. of deployments on surgeon and physician skills in the US Army
Medical Department. Am J Surg. 2011;201:666–672.
Disclaimer 5. Eastridge BJ, Mabry RL, Sequin P, et al. Death on the battlefield
The views expressed herein are those of the authors and do (2001-2011): implications for the future of combat casualty care.
not reflect the official policy or position of the US Army Med- J Trauma Acute Care Surg. 2012;73:S431–S437.
ical Department, Department of the Army, Department of De- 6. Edwards MJ, Edwards KD, White C, et al. Saving the military
fense, or the US Government. surgeon: maintaining critical clinical skills in a changing military
and medical environment. J Am Coll Surg. 2016;222:1258–1264.
7. Fisher A, Teeter W, Cordova C, et al. The Role I resuscitation
Disclosures team and resuscitative endovascular balloon occlusion of the
The authors have indicated they have no financial relation- aorta. J Spec Oper Med. 2017;17(2):65–73.
ships relevant to this article to disclose. 8. Jacobs N, Taylor DM, Parker PJ. Changes in surgical workload
at the JF Med Gp Role 3 Hospital, Camp Bastion, Afghanistan,
November 2008-November 2010. Injury. 2012;43:1037–1040.
9. King DR. Resuscitative endovascular balloon occlusion of the
aorta (REBOA): Introduction. J Spec Oper Med. 2018;18(1):32.
10. Manley JD, Mitchell BJ, DuBose JJ, et al. A modern case se-
ries of resuscitative endovascular balloon occlusion of the aorta
( REBOA) in an out-of-hospital, combat casualty care setting. J
Spec Oper Med. 2017;17(1):1–8.
11. Morrison JJ, Ross JD, Rasmussen TE, et al. Resuscitative endo-
vascular balloon occlusion of the aorta: a gap analysis of severely
injured UK combat casualties. Shock. 2014;41:388–393.
12. Rodriquez-Feo CL, Brophy CM, Sexton KW. Need cost effective
surgical simulation, send a resident to the hardware store. J Vas-
cular Med Surg. 2014;2:150.
13. Nessen SC, Cronk DR, Edens J, et al. US Army two-surgeon teams
operating in remote Afghanistan—an evaluation of split-based
Forward Surgical Team operations. J Trauma. 2009;66:S37–S47.
14. Peoples GE, Gerlinger T, Craig R, et al. Combat casualties in Af-
ghanistan cared for by a single Forward Surgical Team during
the initial phase of Operation Enduring Freedom. Mil Med.
2005;170:462–468.
15. Plackett TP, Cherry DC, Delk G, et al. Clinical practice guideline
adherence during Operation Inherent Resolve. J Trauma Acute
Care Surg. 2017;83:S66–S70.
16. Plackett TP, Nielsen JS, Hahn CD, et al. Accuracy and reliability
of triage at the point of injury during Operation Enduring Free-
dom. J Spec Oper Med. 2016;16(1):51–56.
17. Ramasamy A, Hinsley DE, Edwards DS, et al. Skill sets and compe-
tencies for the modern military surgeon: lessons from UK military
operations in Southern Afghanistan. Injury. 2010;41:453–459.
18. Rasmussen TE, Clouse WD, Jenkins DH, et al. The use of tempo-
rary vascular shunts as a damage control adjunct in the manage-
ment of wartime vascular injury. J Trauma. 2006;61:8–12.
19. Starnes BW, Beekley AC, Sebesta JA, et al. Extremity vascular
injuries on the battlefield: tips for surgeons deploying to war. J
Trauma. 2006;60:432–442.
20. Turner CA, Stockinger ZT, Gurney JM. Combat surgical work-
load in OIF/OEF: the definitive analysis. J Trauma Acute Care
Surg. 2017;83:77–83.
21. Tyler JA, Ritchie JD, Leas ML, et al. Combat readiness for the
modern military surgeon: data from a decade of combat opera-
tions. J Trauma Acute Care Surg. 2012;73:S64–S70.
22. von Dongen TT, Idenburg FJ, Tan EC, et al. Combat related vas-
cular injuries: Dutch experiences from role 2 MTF in Afghani-
stan. Injury. 2016;47:94–98.
23. White JM, Stannard A, Burkhardt GE, et al. The epidemiology
of vascular injury in the wars in Iraq and Afghanistan. Ann Surg.
2011;253:1184–1189.

76 | JSOM Volume 19, Edition 2 / Summer 2019

73 74 75 76 77 78 79 80 81 82 83