Journal of special operations medicine : a peer reviewed journal for SOF medical professionals
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Novel aortic catheter-based resuscitation interventions aimed at control of noncompressible torso hemorrhage and resuscitative perfusion are undergoing active research and development. These methods have been reported as resuscitative endovascular balloon occlusion of the aorta, selective aortic arch perfusion, and profound hypothermia (emergency preservation and resuscitation). ⋯ This means that these advanced interventions should be adapted for use in austere military treatment facilities and, when feasible, initiated at the point of injury. This report argues for the feasibility of advanced endovascular resuscitation interventions in the austere military theater.
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Increases in intracranial pressure (ICP) may damage the brain by compression of its structures or restriction of its blood flow, and medical providers my encounter elevated ICP in conventional and non-conventional medical settings. Early identification of elevated ICP is critical to ensuring timely and appropriate management. However, few diagnostic methods are available for detecting increased ICP in an acutely ill patient, which can be performed quickly and noninvasively at the bedside. ⋯ In this review, we discuss the use of ocular ultrasound to evaluate for the presence of elevated ICP via assessment of optic nerve sheath diameter, and describe critical aspects of this valuable diagnostic procedure. Ultrasound is increasingly becoming a medical fixture in the modern battlefield where other diagnostic modalities can be unavailable or impractical to employ. As Special Forces and other austere medical providers become increasingly familiar with ultrasound, ocular ultrasound for the assessment of increased intracranial pressure may help optimize their ability to provide the most effective medical management for their patients.
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Randomized Controlled Trial
Effect of hetastarch bolus in trauma patients requiring emergency surgery.
If blood products are not available, current military guidelines recommend a hetastarch bolus (HEX, Hextend 6% hetastarch in lactated electrolyte buffer, www. hospira.com) for initial treatment of hypovolemic shock in the field. We previously reported that a HEX bolus plus standard of care (SOC = crystalloid plus blood products) was safe during initial resuscitation in 1714 trauma patients. This study tests the hypothesis that HEX+SOC is more effective than SOC alone for volume expansion in trauma patients requiring urgent operation. ⋯ HEX is safe for initial resuscitation in young patients who required urgent operation after penetrating trauma, but there was no apparent effect after blunt trauma. A bolus of HEX reduced transfusion requirements without inducing coagulopathy or causing renal dysfunction, but a randomized controlled trial is necessary to eliminate the possibility of selection bias.
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Junctional hemorrhage control device use on the battlefield might be lifesaving, but little experience is reported. The purpose of the present case report is to detail prehospital use of the Combat Ready Clamp (called the CRoC by its users, Combat Medical Systems, Fayetteville, NC; Instructions for Use, 2010) in casualty care in order to increase awareness of junctional hemorrhage control. ⋯ The CRoC, a new junctional hemorrhage control device, was used as indicated on the battlefield with mechanical and physiologic success and without device problems. By controlling difficult inguinal bleeding resulting from battlefield trauma, the device facilitated casualty stabilization and delivery to a surgical facility. The device facilitated the ability of a new flight medic to focus his expertise on a critically injured battlefield casualty with demonstrable success.
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Trauma care in the tactical environment is complex; it requires a unique blend of situational awareness, foresight, medical skill, multitasking, and physical strength. Rescue is a critical, but often over-looked, component of nearly all tactical trauma casualty management. Successful full spectrum casualty management requires proficiency in four areas: casualty access, assessment, stabilization, and extraction. ⋯ Advanced Trauma Life Support) (ATLS)) to an evidence-based, tactical-specific guideline (Tactical Combat Casualty Care (TCCC)), an evolution is required within the rescue paradigm. This shift from civilian-based technical rescue guidelines towards an Operational Rescue? capability allows tactical variables such as minimal equipment, low light/night vision goggles (NVG) considerations, enemy threats, and variable evacuation times to permeate through the individual rescue skill set. Just as with TCCC, in which the principles of casualty care remain consistent, the practices must be adapted to end-users environment, so it is with rescue.