Can we safely restrict transfusion in trauma patients?

Purpose of reviewTransfusion of red blood cells in the trauma patient can be lifesaving. The question is how much and when? It is important to weigh the risks and benefits of red blood cell transfusions, as well alternatives to transfusion as these products are not benign. Recent findingsWe explore the evidence, and provide the rationale for current and future red blood cell transfusion strategies within a framework of prehospital and hospital care of the trauma patient. We also describe how red blood cell transfusion trends are changing in trauma, discuss alternatives to red blood cell transfusion and present evidence from randomized controlled trials that support a lower transfusion trigger. SummaryOptimal transfusion practice and use of alternatives in trauma is a rapidly expanding and important area of research. Strong clinical evidence derived by future randomized controlled trials in the area of transfusion triggers as well as transfusion alternatives is required to determine their roles in clinical practice.

[1]  J. Minei,et al.  Inflammation and the host response to injury, a large-scale collaborative project: Patient-oriented research core-standard operating procedures for clinical care. IV. Guidelines for transfusion in the trauma patient. , 2006, The Journal of trauma.

[2]  J. Minei,et al.  Inflammation and the Host Response to Injury, a large-scale collaborative project: patient-oriented research core--standard operating procedures for clinical care. III. Guidelines for shock resuscitation. , 2006, The Journal of trauma.

[3]  E. Moore,et al.  Hemoglobin-Based Oxygen Carriers in Trauma Care: Scientific Rationale for the US Multicenter Prehosptial Trial , 2006, World Journal of Surgery.

[4]  M. Braun,et al.  Thromboembolic adverse events after use of recombinant human coagulation factor VIIa. , 2006, JAMA.

[5]  D. Spahn,et al.  Artificial O2 carriers: status in 2005. , 2005, Current pharmaceutical design.

[6]  A. Morey,et al.  Factor VIIa for correction of traumatic coagulopathy. , 2005, The Journal of urology.

[7]  Michael D Pasquale,et al.  "Low-dose" recombinant activated factor VII results in less blood and blood product use in traumatic hemorrhage. , 2005, The Journal of trauma.

[8]  R. Rossaint,et al.  Recombinant factor VIIa as adjunctive therapy for bleeding control in severely injured trauma patients: two parallel randomized, placebo-controlled, double-blind clinical trials. , 2005, The Journal of trauma.

[9]  J. Holcomb Use of recombinant activated factor VII to treat the acquired coagulopathy of trauma. , 2005, The Journal of trauma.

[10]  H. Corwin Blood conservation in the critically ill patient. , 2005, Anesthesiology clinics of North America.

[11]  R. Martineau,et al.  A Pilot Trial Evaluating the Clinical Effects of Prolonged Storage of Red Cells , 2005, Anesthesia and analgesia.

[12]  J. Barletta,et al.  A review of recombinant factor VII for refractory bleeding in nonhemophilic trauma patients. , 2005, The Journal of trauma.

[13]  P. Hebert,et al.  Avoiding a blood transfusion: How much is it worth? , 2005, Critical care medicine.

[14]  P. Pronovost,et al.  Number needed to treat and cost of recombinant human erythropoietin to avoid one transfusion-related adverse event in critically ill patients* , 2005, Critical care medicine.

[15]  D. Stather,et al.  Revisiting transfusion practices in critically ill patients* , 2005, Critical care medicine.

[16]  R. Winslow,et al.  RESUSCITATION FROM HEMORRHAGIC SHOCK WITH MalPEG-ALBUMIN: COMPARISON WITH MalPEG-HEMOGLOBIN , 2004, Shock.

[17]  James O'Connor,et al.  Factor VIIa for correction of traumatic coagulopathy. , 2004, The Journal of trauma.

[18]  George Wells,et al.  Is a restrictive transfusion strategy safe for resuscitated and critically ill trauma patients? , 2004, The Journal of trauma.

[19]  Ernest E Moore,et al.  The next generation in shock resuscitation , 2004, The Lancet.

[20]  D. Fergusson,et al.  Transfusion of leukoreduced red blood cells may decrease postoperative infections: two meta-analyses of randomized controlled trials , 2004, Canadian journal of anaesthesia = Journal canadien d'anesthesie.

[21]  R. Prescott,et al.  Does the storage time of transfused red blood cells influence regional or global indexes of tissue oxygenation in anemic critically ill patients?* , 2004, Critical care medicine.

[22]  M. Levy,et al.  The CRIT Study: Anemia and blood transfusion in the critically ill—Current clinical practice in the United States* , 2004, Critical care medicine.

[23]  R. Fowler,et al.  Blood conservation in the intensive care unit , 2003, Critical care medicine.

[24]  D. Coyle,et al.  Clinical outcomes following institution of the Canadian universal leukoreduction program for red blood cell transfusions. , 2003, JAMA.

[25]  S. Kleinman,et al.  Risks associated with transfusion of cellular blood components in Canada. , 2003, Transfusion medicine reviews.

[26]  D. Longrois,et al.  Volume Expansion with Modified Hemoglobin Solution, Colloids, or Crystalloid After Hemorrhagic Shock in Rabbits: Effects in Skeletal Muscle Oxygen Pressure and Use Versus Arterial Blood Velocity and Resistance , 2003, Shock.

[27]  C. Silliman,et al.  Transfusion-related acute lung injury: epidemiology and a prospective analysis of etiologic factors. , 2003, Blood.

[28]  M. Levy,et al.  Efficacy of recombinant human erythropoietin in critically ill patients: a randomized controlled trial. , 2002, JAMA.

[29]  J. Vincent,et al.  Anemia and blood transfusion in critically ill patients. , 2002, JAMA.

[30]  J. Minei,et al.  Allogeneic blood transfusion increases the risk of postoperative bacterial infection: a meta-analysis. , 2002, The Journal of trauma.

[31]  S. Stramer,et al.  Current prevalence and incidence of infectious disease markers and estimated window‐period risk in the American Red Cross blood donor population , 2002, Transfusion.

[32]  S. Hill,et al.  Transfusion triggers: a systematic review of the literature. , 2002, Transfusion medicine reviews.

[33]  T. Fabian,et al.  Resuscitation from Severe Hemorrhagic Shock After Traumatic Brain Injury Using Saline, Shed Blood, or a Blood Substitute , 2002, Shock.

[34]  D. Essex,et al.  Successful use of recombinant activated factor VII for trauma-associated hemorrhage in a patient without preexisting coagulopathy. , 2002, The Journal of trauma.

[35]  R. Bach,et al.  Anemia, transfusion, and mortality. , 2001, The New England journal of medicine.

[36]  E. Segal,et al.  Recombinant activated factor VII for adjunctive hemorrhage control in trauma. , 2001, The Journal of trauma.

[37]  K. Gubler,et al.  Efficacy of recombinant human erythropoietin in the critically ill patient: A randomized, double-blind, placebo-controlled trial* , 2001, Critical care medicine.

[38]  K. Marill,et al.  A current concept of trauma-induced multiorgan failure. , 2001, Annals of emergency medicine.

[39]  F. Brenneman,et al.  Advances in fluid resuscitation of hemorrhagic shock. , 2001, Canadian journal of surgery. Journal canadien de chirurgie.

[40]  I. Chin-Yee,et al.  The clinical consequences of the red cell storage lesion. , 2001, Transfusion medicine reviews.

[41]  E. Moore,et al.  Blood transfusion and the two-insult model of post-injury multiple organ failure. , 2001, Shock.

[42]  E. Moore,et al.  Plasma from aged stored red blood cells delays neutrophil apoptosis and primes for cytotoxicity: abrogation by poststorage washing but not prestorage leukoreduction. , 2001, The Journal of trauma.

[43]  K. Wareham,et al.  Intra‐operative blood salvage in abdominal trauma , 2001, Anaesthesia.

[44]  R. Lefering,et al.  Base deficit development and its prognostic significance in posttrauma critical illness: an analysis by the trauma registry of the Deutsche Gesellschaft für unfallchirurgie. , 2001, Shock.

[45]  D Stainsby,et al.  Management of massive blood loss: a template guideline. , 2000, British journal of anaesthesia.

[46]  R. McLeod,et al.  Allogeneic Red Blood Cell Transfusion Is an Independent Risk Factor for the Development of Postoperative Bacterial Infection , 2000, Vox Sanguinis.

[47]  E. Moore,et al.  Age of transfused blood is an independent risk factor for postinjury multiple organ failure. , 1999, American journal of surgery.

[48]  T. Scalea,et al.  Resuscitation in the new millennium. , 1999, The Surgical clinics of North America.

[49]  E. Deitch,et al.  Prevention of multiple organ failure. , 1999, The Surgical clinics of North America.

[50]  Gili Kenet,et al.  Treatment of traumatic bleeding with recombinant factor VIIa , 1999, The Lancet.

[51]  D. Gens,et al.  Diaspirin Cross-Linked Hemoglobin (DCLHb) in the Treatment of Severe Traumatic Hemorrhagic Shock: A Randomized Controlled Efficacy Trial , 1999 .

[52]  A. Laupacis,et al.  A meta-analysis of the effectiveness of cell salvage to minimize perioperative allogeneic blood transfusion in cardiac and orthopedic surgery. International Study of Perioperative Transfusion (ISPOT) Investigators. , 1999, Anesthesia and analgesia.

[53]  A. Laupacis,et al.  A Meta-analysis of the Effectiveness of Cell Salvage to Minimize Perioperative Allogeneic Blood Transfusion in Cardiac and Orthopedic Surgery , 1999 .

[54]  K. Proctor,et al.  Secondary neurologic injury resulting from nonhypotensive hemorrhage combined with mild traumatic brain injury. , 1999, Journal of neurotrauma.

[55]  E. Vamvakas,et al.  Transfusion and postoperative pneumonia in coronary artery bypass graft surgery: effect of the length of storage of transfused red cells , 1999, Transfusion.

[56]  M. Blajchman,et al.  Transfusion‐associated immunomodulation and universal white cell reduction: are we putting the cart before the horse? , 1999, Transfusion.

[57]  M. Schein,et al.  Multiple organ failure. How valid is the "two hit" model? , 1999, Journal of accident & emergency medicine.

[58]  J. Marshall,et al.  Variation in red cell transfusion practice in the intensive care unit: a multicentre cohort study , 1999, Critical care.

[59]  G. Wells,et al.  A multicenter, randomized, controlled clinical trial of transfusion requirements in critical care. Transfusion Requirements in Critical Care Investigators, Canadian Critical Care Trials Group. , 1999, The New England journal of medicine.

[60]  Lee,et al.  Economic analysis of erythropoietin use in orthopaedic surgery , 1999, Transfusion medicine.

[61]  E. Moore,et al.  Resuscitation of the injured patient with polymerized stroma-free hemoglobin does not produce systemic or pulmonary hypertension. , 1998, American journal of surgery.

[62]  Laupacis,et al.  Erythropoietin to minimize perioperative blood transfusion: a systematic review of randomized trials , 1998, Transfusion medicine.

[63]  G. Velmahos,et al.  Is there a limit to massive blood transfusion after severe trauma? , 1998, Archives of surgery.

[64]  E. Moore,et al.  The first randomized trial of human polymerized hemoglobin as a blood substitute in acute trauma and emergent surgery. , 1998, Journal of the American College of Surgeons.

[65]  T. Shimazu,et al.  Priming, second-hit priming, and apoptosis in leukocytes from trauma patients. , 1998, The Journal of trauma.

[66]  R. Chesnut,et al.  Neurogenic hypotension in patients with severe head injuries. , 1998, The Journal of trauma.

[67]  G. Wells,et al.  A Canadian survey of transfusion practices in critically ill patients. Transfusion Requirements in Critical Care Investigators and the Canadian Critical Care Trials Group. , 1998, Critical care medicine.

[68]  T. Pittman,et al.  Early hypotension worsens neurological outcome in pediatric patients with moderately severe head trauma. , 1998, Journal of pediatric surgery.

[69]  B. Boulanger,et al.  Changes in red cell transfusion practice among adult trauma victims. , 1997, The Journal of trauma.

[70]  E. Moore,et al.  Clinical utility of human polymerized hemoglobin as a blood substitute after acute trauma and urgent surgery. , 1997, The Journal of trauma.

[71]  A. Sauaia,et al.  Multiple Organ Failure Can Be Predicted as Early as 12 Hours after Injury , 1997 .

[72]  A. Sauaia,et al.  Blood Transfusion: An Independent Risk Factor for Postinjury Multiple Organ Failure , 1997 .

[73]  P. Hebert,et al.  Review of published recommendations and guidelines for the transfusion of allogeneic red blood cells and plasma. , 1997 .

[74]  P. Hebert,et al.  Review of physiologic mechanisms in response to anemia , 1997 .

[75]  J. Ronco,et al.  Does increasing oxygen delivery improve outcome in the critically ill? No. , 1996, Critical care clinics.

[76]  N. Stocchetti,et al.  Hypoxemia and arterial hypotension at the accident scene in head injury. , 1996, The Journal of trauma.

[77]  D. Hoyt,et al.  Transient systolic hypotension. A serious problem in the management of head injury. , 1996, Archives of surgery.

[78]  A. Sauaia,et al.  Postinjury multiple organ failure: a bimodal phenomenon. , 1996, The Journal of trauma.

[79]  R. Chesnut,et al.  Secondary brain insults after head injury: clinical perspectives. , 1995, New horizons.

[80]  E. Moore,et al.  Postinjury neutrophil priming and activation: an early vulnerable window. , 1995, Surgery.

[81]  E. Moore,et al.  Postinjury multiple organ failure: role of extrathoracic injury and sepsis in adult respiratory distress syndrome. , 1993, New horizons.

[82]  F. Pigula,et al.  The effect of hypotension and hypoxia on children with severe head injuries. , 1993, Journal of pediatric surgery.

[83]  S. M. Hamilton The use of blood in resuscitation of the trauma patient. , 1993, Canadian journal of surgery. Journal canadien de chirurgie.

[84]  M A Foulkes,et al.  The role of secondary brain injury in determining outcome from severe head injury. , 1993, The Journal of trauma.

[85]  D. Prough,et al.  Regional cerebrovascular responses to progressive hypotension after traumatic brain injury in cats. , 1992, The American journal of physiology.

[86]  S. Grossman,et al.  Minimizing diagnostic blood loss in critically ill patients. , 1992, American journal of critical care : an official publication, American Association of Critical-Care Nurses.

[87]  Sung C. Choi,et al.  Impact of ICP instability and hypotension on outcome in patients with severe head trauma , 1991 .

[88]  B. Chernow,et al.  Bedside diagnostic blood testing. Its accuracy, rapidity, and utility in blood conservation. , 1991, JAMA.

[89]  S. Shackford,et al.  The effect of secondary insults on mortality and long-term disability after severe head injury in a rural region without a trauma system. , 1991, The Journal of trauma.

[90]  G. Foulke,et al.  Effective measures for reducing blood loss from diagnostic laboratory tests in intensive care unit patients. , 1989, Critical care medicine.

[91]  J. Nickel,et al.  Quantifying the Minimum Discard Sample Required for Accurate Arterial Blood Gases , 1989, Nursing research.

[92]  G. Horowitz,et al.  Reducing adult phlebotomy blood loss with the use of pediatric-sized blood collection tubes. , 1989, American journal of clinical pathology.

[93]  J. Newell,et al.  Influence of hematocrit on cardiopulmonary function after acute hemorrhage. , 1987, Current surgery.

[94]  K. Messmer Acceptable hematocrit levels in surgical patients , 1987, World Journal of Surgery.

[95]  J. Adamson,et al.  Correction of the anemia of end-stage renal disease with recombinant human erythropoietin. Results of a combined phase I and II clinical trial. , 1987, The New England journal of medicine.

[96]  J. Newell,et al.  Influence of hematocrit on cardiopulmonary function after acute hemorrhage. , 1986, The Journal of trauma.

[97]  J. Selhorst,et al.  Further experience in the management of severe head injury. , 1981, Journal of neurosurgery.

[98]  G. Moss,et al.  Progressive hypovolemia leading to shock after continuous hemorrhage and 3:1 crystalloid replacement. , 1975, American journal of surgery.

[99]  N. O'connor,et al.  Acute hemodilution: its effect of hemodynamics and oxygen transport in anesthetized man. , 1975, Annals of surgery.

[100]  N. O'connor,et al.  Acute Hernodilution: Its Effect on Hernodynamics and Oxygen Transport in Anesthetized Man , 1974 .

[101]  D. Price,et al.  The influence of hypoxia and hypotension on recovery from head injury. , 1972, Injury.

[102]  C. Moyer,et al.  A bioassay of treatment of hemorrhagic shock. I. The roles of blood, Ringer's solution with lactate, and macromolecules (dextran and hydroxyethyl starch) in the treatment of hemorrhagic shock in the anesthetized dog. , 1966, Archives of surgery.

[103]  D. Coln,et al.  FLUID THERAPY IN HEMORRHAGIC SHOCK. , 1964, Archives of surgery.

[104]  E. Topley,et al.  The Illness of Trauma , 1956, The British journal of clinical practice.

[105]  J. Marshall,et al.  Effect of a liberal versus restrictive transfusion strategy on mortality in patients with moderate to severe head injury , 2006, Neurocritical care.

[106]  H. Corwin The role of erythropoietin therapy in the critically ill. , 2006, Transfusion medicine reviews.

[107]  M. Imamura,et al.  Changing Treatment Strategy for Gastrinoma in Patients with Zollinger-Ellison Syndrome , 2005, World Journal of Surgery.

[108]  I Roberts,et al.  Antifibrinolytic drugs for acute traumatic injury. , 2004, The Cochrane database of systematic reviews.

[109]  M. Blajchman Incidence and significance of the bacterial contamination of blood components. , 2002, Developments in biologicals.

[110]  J. Garland,et al.  Clinical utility of a bedside blood analyzer for measuring blood chemistry values in neonates. , 1998, Journal of perinatology : official journal of the California Perinatal Association.

[111]  K. Gubler,et al.  Efficacy of recombinant human erythropoietin in the critically ill patient: A randomized, double-blind, placebo-controlled trial , 1998 .

[112]  D. Kauder,et al.  Massive blood loss in trauma patients. The benefits and dangers of transfusion therapy. , 1994, Postgraduate medicine.

[113]  A. Sauaia,et al.  Early predictors of postinjury multiple organ failure. , 1994, Archives of surgery.

[114]  J L Tocher,et al.  Measuring the burden of secondary insults in head-injured patients during intensive care. , 1994, Journal of neurosurgical anesthesiology.

[115]  R. Chesnut,et al.  Early and late systemic hypotension as a frequent and fundamental source of cerebral ischemia following severe brain injury in the Traumatic Coma Data Bank. , 1993, Acta neurochirurgica. Supplementum.

[116]  M. Fearnside,et al.  The Westmead Head Injury Project outcome in severe head injury. A comparative analysis of pre-hospital, clinical and CT variables. , 1993, British journal of neurosurgery.

[117]  A. Rosenzweig Iatrogenic anemia. , 1978, Archives of internal medicine.

[118]  W. Wolfe,et al.  Oxygen toxicity. , 1975, Annual review of medicine.