The Shock Index revisited – a fast guide to transfusion requirement? A retrospective analysis on 21,853 patients derived from the TraumaRegister DGU®

To define the terms "sepsis" and "organ failure" in a precise manner. Review of the medical literature and the use of expert testimony at a consensus conference. American College of Chest Physicians (ACCP) headquarters in Northbrook, IL. Leadership members of ACCP/Society of Critical Care Medicine (SCCM). An ACCP/SCCM Consensus Conference was held in August of 1991 with the goal of agreeing on a set of definitions that could be applied to patients with sepsis and its sequelae. New definitions were offered for some terms, while others were discarded. Broad definitions of sepsis and the systemic inflammatory response syndrome were proposed, along with detailed physiologic variables by which a patient could be categorized. Definitions for severe sepsis, septic shock, hypotension, and multiple organ dysfunction syndrome were also offered. The use of severity scoring methods were recommended when dealing with septic patients as an adjunctive tool to assess mortality. Appropriate methods and applications for the use and testing of new therapies were recommended. The use of these terms and techniques should assist clinicians and researchers who deal with sepsis and its sequelae.

The epidemiology of traumatic deaths was periodically described during the development of the American trauma system between 1977 and 1995. Recognizing the impact of aging populations and the potential changes in injury mechanisms, the purpose of this work was to provide a comprehensive, prospective, population-based study of Australian trauma-related deaths and compare the results with those of landmark studies. All prehospitalization and in-hospital trauma deaths occurring in an inclusive trauma system at a single Level 1 trauma center [400 patients with an injury severity score (ISS) >15/year] underwent autopsy and were prospectively evaluated during 2005. High-energy (HE) and low-energy (LE) deaths were categorized based on the mechanism of the injury, time frame (prehospitalization, 7 days), and cause [which was determined by an expert panel and included central nervous system-related (CNS), exsanguination, CNS + exsanguination, airway, multiple organ failure (MOF)]. Data are presented as a percent or the mean +/- SEM. There were 175 deaths during the 12-month period. For the 103 HE fatalities (age 43 +/- 2 years, ISS 49 +/- 2, male 63%), the predominant mechanisms were motor vehicle related (72%), falls (4%), gunshots (8%), stabs (6%), and burns (5%). In all, 66% of the patients died during the prehospital phase, 27% died after 7 days. CNS (33%) and exsanguination (33%) were the most common causes of deaths, followed by CNS + exsanguination (17%) and airway compromise 8%; MOF occurred in only 3%. Six percent of the deaths were undetermined. All LE deaths (n = 72, age 83 +/- 1 years, ISS 14 +/- 1, male 45%) were due to low falls. All LE patients died in hospital (20% <48 hours, 32% after 3-7 days, 48% after 7 days). The causes of deaths were head injury (26%) and complications of skeletal injuries (74%). The HE injury mechanisms, time frames, and causes in our study are different from those in the earlier, seminal reports. The classic trimodal death distribution is much more skewed to early death. Exsanguination became as frequent as lethal head injuries, but the incidence of fatal MOF is lower than reported earlier. LE trauma is responsible for 41% of the postinjury mortality, with distinct epidemiology. The LE group deserves more attention and further investigation.

Currently, specific triage criteria, such as blood pressure, respiratory status, Glasgow Coma Scale, and mechanism of injury are used to categorize trauma patients and prioritize emergency department (ED) and trauma team responses. It has been demonstrated in previous literature that an abnormal shock index (SI = heart rate [HR]/systolic blood pressure, >0.9) portends a worse outcome in critically ill patients. Our study looked to evaluate the SI calculated in the field, on arrival to the ED, and the change between field and ED values as a simple and early marker to predict mortality in traumatically injured patients. A retrospective chart review of the trauma registry of an urban level I trauma center. Analysis of 2,445 patients admitted over 5 years with records in the trauma registry of which 1,166 also had data for the field SI. An increase in SI from the field to the ED was defined as any increase in SI regardless of the level of the magnitude of change. Twenty-two percent of patients reviewed had an ED SI >0.9, with a mortality rate of 15.9% compared with 6.3% in patients with a normal ED SI. An increase in SI between the field and ED signaled a mortality rate of 9.3% versus 5.7% for patients with decreasing or unchanged SI. Patients with an increase in SI of >or=0.3 had a mortality rate of 27.6% versus 5.8% for patients with change in SI of 0.9 have higher mortality rates. An increase in SI from the field to the ED may predict higher mortality. The SI may be a valuable addition to other ED triage criteria currently used to activate trauma team responses.