Annals of emergency medicine
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As a result of experimental data and favorable clinical impressions, the pneumatic antishock garment (PASG) has gained widespread acceptance as a reasonable standard of care in emergency medical services (EMS) systems. It is currently legislated as required equipment for medical rescue vehicles in two-thirds of the United States. But despite a decade of widespread use, prospective, randomized, controlled trials that demonstrate the efficacy of the PASG have not been published. ⋯ All victims of injury whose systolic blood pressure was 90 mm Hg or less when they initially presented to paramedics in the field were entered into the study. All patients received the identical treatment protocol, with the sole exception of PASG application and inflation to full pressure prior to intravenous catheterization on an alternate day basis. Prospectively collected demographic data have demonstrated that the two resulting groups of PASG and no-PASG patients are well matched in terms of age, sex, injury type, anatomic location of the injury, initial field trauma score, injury severity score and probabilities of survival, as well as the amounts of IV fluids infused in the prehospital setting and the response, scene, and transport times.(ABSTRACT TRUNCATED AT 250 WORDS)
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Resuscitation of the trauma patient: restoration of hemodynamic functions using clinical algorithms.
Two algorithms were developed for immediate fluid resuscitation and subsequent management of emergency trauma patients and critically ill postoperative patients. These algorithms were developed from decision rules based on objective physiologic values attained in patients surviving life-threatening shock and trauma. ⋯ Therapy that supports these compensations and produces the survivor pattern was found to improve survival rates and reduce post-resuscitation complications. These prospective studies confirm the validity of an organized, coherent physiologic approach that has as its goal the achievement of optimal physiologic patterns in contrast to simple restoration of hemodynamic and chemical abnormalities to the normal range, as has been the endpoint of the traditional approach.
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The development of perfluorocarbon (PFC) solutions as clinically useful oxygen-carrying agents has been a slow process because PFC is immiscible in aqueous solutions, including blood. Therefore, it has been necessary to develop emulsions for IV infusions. One such emulsion (fluosol) has been the most extensively studied and has been clinically tested. ⋯ PFC solutions thus remain experimental. Their greatest future use may be not as a blood substitute for treatment of anemia, but rather as an agent to improve microcirculatory oxygen delivery for treatment of ischemic tissues (ie, in stroke, myocardial infarction, burns, ischemic extremities). Further development of PFC emulsions is ongoing.
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Injury severity determination serves multiple purposes in trauma care systems by aiding prehospital triage, assisting clinical management, and facilitating outcome evaluation. Numerous authors have described methods for quantifying injury severity, most of which use physiologic status or anatomic injury. ⋯ For clinical management, it provides essential information on initial condition and eventual course, including response to therapy. Finally, for outcome evaluation, it enables objective assessment of care quality, using techniques that determine appropriateness of disability, morbidity, mortality, and reimbursement, based on case mix.