Prehospital serum lactate as a predictor of outcomes in trauma patients: a retrospective observational study.

BACKGROUND Lactate is associated with morbidity and mortality; however, the value of prehospital lactate (pLA) is unknown. Our objective was to determine whether pLA improves identification of mortality and morbidity independent of vital signs. METHODS We measured pLA in 1,168 patients transported by rotorcraft to a Level I trauma center over 18 months. The primary outcome was in-hospital mortality; secondary outcomes were emergent surgery and multiple organ dysfunction syndrome (MODS). Covariates include age, sex, prehospital vital signs, and mental status. We created multivariable logistic regression models and tested them for interaction terms and goodness of fit. Cutoff values were established for reporting operating characteristics using shock (defined as shock index >0.8, heart rate >110, and systolic blood pressure <100), tachypnea (RR ≥30), and altered sensorium (Glasgow Coma Scale score <15). RESULTS In-hospital mortality was 5.6%, 7.4% required surgery and 5.7% developed MODS. Median lactate was 2.4 mmol/L. Lactate was associated with mortality (odds ratio [OR], 1.23; p < 0.0001), surgery (OR, 1.13; p < 0.001), and MODS (OR, 1.14; p < 0.0001). Inclusion of pLA into a logistic model significantly improved the area under the receiver operator curves from 0.85 to 0.89 for death (p < 0.001), 0.68 to 0.71 for surgery (p = 0.02), and 0.78 to 0.81 for MODS (p = 0.002). When a threshold lactate value of >2 mmol/L was added to a predictive model of shock, respiratory distress, or altered sensorium, it improved sensitivity from 88% to 97% for death, 64% to 86% for surgery, and 94% to 99% for MODS. CONCLUSION The pLA measurements improve prediction of mortality, surgery, and MODS. Lactate may improve the identification of patients who require monitoring, resources, and resuscitation.

[1]  Can Ince,et al.  The impact of fluid therapy on microcirculation and tissue oxygenation in hypovolemic patients: a review , 2010, Intensive Care Medicine.

[2]  D. Davis,et al.  A critical assessment of the out-of-hospital trauma triage guidelines for physiologic abnormality. , 2010, The Journal of trauma.

[3]  M. Jacob,et al.  The 'third space'--fact or fiction? , 2009, Best practice & research. Clinical anaesthesiology.

[4]  Munish Goyal,et al.  Serum lactate is associated with mortality in severe sepsis independent of organ failure and shock* , 2009, Critical care medicine.

[5]  M. Westphal,et al.  The impact of the glycocalyx on microcirculatory oxygen distribution in critical illness , 2009, Current opinion in anaesthesiology.

[6]  J. Bakker,et al.  The prognostic value of blood lactate levels relative to that of vital signs in the pre-hospital setting: a pilot study , 2008, Critical care.

[7]  A. Beekley Damage control resuscitation: a sensible approach to the exsanguinating surgical patient. , 2008, Critical care medicine.

[8]  S. C. Spalding,et al.  Heart rate: is it truly a vital sign? , 2007, The Journal of trauma.

[9]  S. C. Spalding Prehospital Hypotension is a Predictor of the Need for an Emergent, Therapeutic Operation in Trauma Patients With Normal Systolic Blood Pressure in the Emergency Department , 2007 .

[10]  J. Parrillo,et al.  Serum lactate as a predictor of mortality in patients with infection , 2007, Intensive Care Medicine.

[11]  Michael A Dubick,et al.  Damage control resuscitation: directly addressing the early coagulopathy of trauma. , 2007, The Journal of trauma.

[12]  J. Kellum,et al.  Lactate versus non-lactate metabolic acidosis: a retrospective outcome evaluation of critically ill patients , 2006, Critical care.

[13]  Larry A Nathanson,et al.  Serum lactate as a predictor of mortality in emergency department patients with infection. , 2005, Annals of emergency medicine.

[14]  K. Mattox,et al.  Timing of transfusion in trauma , 2004, Vox sanguinis.

[15]  O. Cerović,et al.  Relationship between injury severity and lactate levels in severely injured patients , 2003, Intensive Care Medicine.

[16]  J. Marx,et al.  Value of point-of-care blood testing in emergent trauma management. , 2000, The Journal of trauma.

[17]  B J Tortella,et al.  The utility of venous lactate to triage injured patients in the trauma center. , 2000, Journal of the American College of Surgeons.

[18]  J. Young,et al.  Occult hypoperfusion is associated with increased morbidity in patients undergoing early femur fracture fixation. , 2000, The Journal of trauma.

[19]  Jeffrey S. Young,et al.  Persistent occult hypoperfusion is associated with a significant increase in infection rate and mortality in major trauma patients. , 1999, The Journal of trauma.

[20]  D. Simel,et al.  Is This Patient Hypovolemic , 1999 .

[21]  H. Thode,et al.  Incremental benefit of individual American College of Surgeons trauma triage criteria. , 1996, Academic emergency medicine : official journal of the Society for Academic Emergency Medicine.

[22]  J. Vincent,et al.  Serial blood lactate levels can predict the development of multiple organ failure following septic shock. , 1996, American journal of surgery.

[23]  C. Sprung,et al.  Multiple organ dysfunction score: a reliable descriptor of a complex clinical outcome. , 1995, Critical care medicine.

[24]  B. Chernow,et al.  The use and clinical importance of a substrate-specific electrode for rapid determination of blood lactate concentrations. , 1994, JAMA.

[25]  T. Scalea,et al.  Lactate clearance and survival following injury. , 1993, The Journal of trauma.

[26]  D. Dries Hypotension Begins at 110 mm Hg: Redefining “Hypotension” With Data , 2008 .

[27]  D. Simel,et al.  The rational clinical examination. Is this patient hypovolemic? , 1999, JAMA.