Annals of surgery
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Most patients who require emergency airway control receive drugs to induce rapidly sufficient anesthesia for direct laryngoscopy and endotracheal intubation, but there are no protocols that outline the use of specific drugs in general use. Drugs should safely and rapidly produce (1) unconsciousness; (2) paralysis; and (3) blunt intracranial pressure (ICP) responses to airway procedures. Consequences to be considered include increased ICP, hemorrhagic shock, and a full stomach. ⋯ In two of 11 instances (18.3%) where succinylcholine was administered, no prior nondepolarizing agent was used. Complications of a full stomach at the time of emergency endotracheal intubation became evident in 10 patients (16.7%) who vomited during procedures to control the airway. Two patients (3.3%) aspirated.(ABSTRACT TRUNCATED AT 400 WORDS)
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The authors have reported previously that small-volume resuscitation (1.8 x bled volume) with 0.9% NaCl restores blood volume and attenuates hormonal responses after large hemorrhage without correction of arterial hypotension. The authors studied the role of rate of infusion in this observation in chronically prepared dogs (aortic flow probe, right atrial pressure and volume, and arterial catheters) after 30% hemorrhage (24.1 +/- 0.4 mL/kg). After 30 minutes, subjects were observed either without treatment (no resuscitation) or with infusion of 43 mL/kg 0.9% NaCl over 3 hours by one of three protocols: (1) impulse infusion over 10 minutes, (2) variable rate infusion, bolus with tapering infusion, or (3) constant rate infusion. ⋯ Thus, early resuscitation after trauma could aid patients even if arterial pressure is unchanged. This benefit might be even greater in patients with uncontrolled bleeding because arterial pressure, and hence bleeding, may not be increased by resuscitation of this type. A reassessment of the value of prehospital fluid resuscitation in the injured patient is warranted.
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Multiple organ failure (MOF) has reached epidemic proportions in most intensive care units and is fast becoming the most common cause of death in the surgical intensive care unit. Furthermore, in spite of the development of successive generations of new and more powerful antibiotics and increasing sophisticated techniques of organ support, our ability to salvage patients once MOF has become established has not appreciably improved over the last two decades. ⋯ To effectively use these new therapeutic options as they become available, it is necessary to have a clear understanding of the pathophysiology of MOF. Thus, the goals of this review are to integrate the vast amount of new information on the basic biology of MOF and to focus special attention on the potential therapeutic consequences of these recent advances in our understanding of this complex and perplexing syndrome.