J Trauma
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In general, the Canadian Forces follow widely accepted principles of fluid resuscitation. These are simply guidelines for fluid resuscitation, and the Canadian Forces currently do not have an absolute doctrine that the clinician in the field must follow. ⋯ Ringer's lactate is the primary resuscitation fluid that is used. Emphasis is placed on attempting to control ongoing hemorrhage specifically either with direct pressure, surgical control, or splinting of long bone or pelvic fractures at the earliest possible stage.
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Comparative Study
Complications of preinjury warfarin use in the trauma patient.
The frequency of use of warfarin anticoagulation increases significantly in the elderly population. It remains controversial whether this puts these patients at increased risk for hemorrhagic complications after trauma. ⋯ We conclude that the preinjury use of warfarin does not place the trauma patient at increased risk for fatal hemorrhagic complications in the absence of head trauma. Furthermore, the presence of a head trauma alone is not predictive of mortality. However, the presence of intracranial injury is strongly associated with a mortality rate that is significantly higher than patients with head trauma who are not taking warfarin. LOC is also associated with mortality, but the absence of loss of consciousness does not reliably indicate the absence of intracranial injury or risk of death.
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Hemorrhage remains the primary cause of death on the battlefield in conventional warfare. With modern combat operations leading to the likelihood of significant time delays in air evacuation of casualties and long transport times, the immediate goals of the Army's Science and Technology Objectives in Resuscitation are to develop limited- or small-volume fluid resuscitation strategies, including permissive hypotension, for the treatment of severe hemorrhage to improve battlefield survival and prevent early and late deleterious sequelae. As an example, the U. ⋯ In addition, preliminary studies have used HSD under hypotensive resuscitation conditions, and it has been administered through intraosseous infusion devices for vascular access. This research suggests that many of the difficulties and concerns associated with fluid resuscitation for treating significant hemorrhage in the field can be overcome. For the military, such observations have important implications toward the development of optimal fluid resuscitation strategies under austere battlefield conditions for stabilization of the combat casualty.
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Good Level I scientific evidence supporting the efficacy (decreased morbidity and mortality) of prehospital fluid administration by civilian Emergency Medical Services personnel is lacking. The efficacy of this procedure in the hands of army Combat Lifesavers is even less well substantiated. ⋯ A method is described to assist medical educators in making decisions as to which skills should be taught to health care providers, and this method is loosely applied in the following discussion about whether Combat Lifesavers should receive training to start and administer intravenous fluids. Good scientific studies, based on valid data, need to be performed to determine the efficacy of intravenous fluid administration and other combat medical skills.
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Hypertonic saline solutions, with or without added colloid, have received extensive evaluation as volume expanders in both animal studies and clinical trials. Most studies have used 7.5% NaCl/6% dextran 70 (HSD). HSD's primary mechanism of action is rapid osmotic mobilization of cellular water into the blood volume. ⋯ Animal studies of immune function suggest that increased osmolarity prevents T-cell depression and decreases neutrophil activation. Several perioperative and eight randomized, blinded trauma trials have shown safety and reduced volume needs and suggest increased survival, particularly in head- and penetrating-injury patients. Infusion rates for HSD of 10 to 20 minutes may be recommended for the initial resuscitation of hypotensive trauma.