Journal of special operations medicine : a peer reviewed journal for SOF medical professionals
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Current guidelines for mass-casualty triage do not explicitly use information about resource availability. Even though this limitation has been widely recognized, how it should be addressed remains largely unexplored. The authors present a novel framework developed using operations research methods to account for resource limitations when determining priorities for transportation of critically injured patients. To illustrate how this framework can be used, they also develop two specific example methods, named ReSTART and Simple-ReSTART, both of which extend the widely adopted triage protocol Simple Triage and Rapid Treatment (START) by using a simple calculation to determine priorities based on the relative scarcity of transportation resources. ⋯ Taking resource limitations into account in mass-casualty situations, triage has the potential to increase the expected number of survivors. Further validation is required before field implementation; however, the framework proposed in here can serve as the foundation for future work in this area.
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Hemorrhage remains the leading cause of combat death and a major cause of death from potentially survivable injuries. Great strides have been made in controlling extremity hemorrhage with tourniquets, but not all injuries are amenable to tourniquet application. Topical hemostatic agents and dressings have also contributed to success in controlling extremity and compressible junctional hemorrhage, and their efficacy continues to increase as enhanced products are developed. ⋯ Consequently, after a decade of clinical use, there is added benefit and a good safety record for using chitosan-based gauze dressings. For these reasons, many specific US military Special Operations Forces, NATO militaries, and emergency medical services (EMS) and law enforcement agencies have already implemented the widespread use of these new recommended chitosan-based hemostatic dressings. Based on the past battlefield success, this report proposes to keep Combat Gauze as the hemostatic dressing of choice along with the new addition of Celox™ Gauze (Medtrade Products Ltd., Crewe, UK; http://www.celoxmedical.com/usa/products /celox-gauze/) and ChitoGauze® (HemCon Medical Technologies, Portland, OR, USA; http://www.hemcon.com/) to the TCCC Guidelines.
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Pressure distribution over tourniquet width is a determinant of pressure needed for arterial occlusion. Different width tensioning systems could result in arterial occlusion pressure differences among nonelastic strap designs of equal width. ⋯ The narrower tensioning system Tactical RMT has better performance characteristics than the Mass Casualty RMT. The 3.8 cm-wide RMTs have some pressure and effectiveness similarities and differences compared with the CAT. Clinically significant pressure changes occur under nonelastic strap tourniquets with muscle tension changes and over time periods as short as 1 minute. An examination of pressure and occlusion changes beyond 1 minute would be of interest.
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Comparative Study
Management of open chest wounds in tactical emergency casualty care: application of vented versus nonvented chest seals.
The 2014 midyear, full meeting of the Committee for Tactical Emergency Combat Care (C-TECC) was hosted by the Johns Hopkins University Center for Law Enforcement Medicine on June 9 and 10 in Baltimore, Maryland. As the C-TECC guidelines are increasingly recognized as the best-practice recommendations for civilian, high-threat, prehospital trauma response, a focused guidelines discussion occurred to develop best-practice recommendations for the management of open chest wounds, specifically regarding the application of vented and nonvented chest seals.
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Case Reports
Tactical Hemorrhage Control Case Studies Using a Point-of-Care Mechanical Direct Pressure Device.
In 2012, a new hemorrhage control device entered the market, and by May 2013, the iTClamp 50 had acquired US Food and Drug Administration approval. The authors describe the use of the iTClamp 50 and present two case studies in which the iTClamp 50 was successfully used in the military environment to control potentially fatal hemorrhage.