Time to early resuscitative intervention association with mortality in trauma patients at risk for hemorrhage

Increasing time to early resuscitative intervention in hemorrhagic shock after injury assoc w/ increasing 30d & 24h mortality–suggests early resuscitation initiation is key & crucial to start in the field if prehospital time prolonged. @Pitttrauma @PittTTMRC @PittEMSDocs. BACKGROUND Hemorrhage is the leading cause of preventable death after injury. Others have shown that delays in massive transfusion cooler arrival increase mortality, while prehospital blood product resuscitation can reduce mortality. Our objective was to evaluate if time to resuscitation initiation impacts mortality. METHODS We combined data from the Prehospital Air Medical Plasma (PAMPer) trial in which patients received prehospital plasma or standard care and the Study of Tranexamic Acid during Air and ground Medical Prehospital transport (STAAMP) trial in which patients received prehospital tranexamic acid or placebo. We evaluated the time to early resuscitative intervention (TERI) as time from emergency medical services arrival to packed red blood cells, plasma, or tranexamic acid initiation in the field or within 90 minutes of trauma center arrival. For patients not receiving an early resuscitative intervention, the TERI was calculated based on trauma center arrival as earliest opportunity to receive a resuscitative intervention and were propensity matched to those that did to account for selection bias. Mixed-effects logistic regression assessed the association of 30-day and 24-hour mortality with TERI adjusting for confounders. We also evaluated a subgroup of only patients receiving an early resuscitative intervention as defined above. RESULTS Among the 1,504 propensity-matched patients, every 1-minute delay in TERI was associated with 2% increase in the odds of 30-day mortality (adjusted odds ratio [aOR], 1.020; 95% confidence interval [CI], 1.006–1.033; p < 0.01) and 1.5% increase in odds of 24-hour mortality (aOR, 1.015; 95% CI, 1.001–1.029; p = 0.03). Among the 799 patients receiving an early resuscitative intervention, every 1-minute increase in TERI was associated with a 2% increase in the odds of 30-day mortality (aOR, 1.021; 95% CI, 1.005–1.038; p = 0.01) and 24-hour mortality (aOR, 1.023; 95% CI, 1.005–1.042; p = 0.01). CONCLUSION Time to early resuscitative intervention is associated with morality in trauma patients with hemorrhagic shock. Bleeding patients need resuscitation initiated early, whether at the trauma center in systems with short prehospital times or in the field when prehospital time is prolonged. LEVEL OF EVIDENCE Therapeutic/Care Management; Level III.

[1]  Upendra K. Kar,et al.  High Dimensional Multiomics Reveals Unique Characteristics of Early Plasma Administration in Polytrauma Patients With TBI , 2022, Annals of surgery.

[2]  F. Guyette,et al.  Prehospital synergy: Tranexamic acid and blood transfusion in patients at risk for hemorrhage , 2022, The journal of trauma and acute care surgery.

[3]  G. Gerosa,et al.  Oversampling and replacement strategies in propensity score matching: a critical review focused on small sample size in clinical settings , 2021, BMC Medical Research Methodology.

[4]  F. Guyette,et al.  Early Prehospital Tranexamic Acid Following Injury Is Associated With a 30-day Survival Benefit , 2021, Annals of surgery.

[5]  C. Callaway,et al.  Tranexamic Acid During Prehospital Transport in Patients at Risk for Hemorrhage After Injury: A Double-blind, Placebo-Controlled, Randomized Clinical Trial. , 2020, JAMA surgery.

[6]  F. Guyette,et al.  Association of Prehospital Plasma With Survival in Patients With Traumatic Brain Injury , 2020, JAMA network open.

[7]  L. Morrison,et al.  Effect of Out-of-Hospital Tranexamic Acid vs Placebo on 6-Month Functional Neurologic Outcomes in Patients With Moderate or Severe Traumatic Brain Injury. , 2020, JAMA.

[8]  F. Guyette,et al.  Prehospital plasma is associated with distinct biomarker expression following injury. , 2020, JCI insight.

[9]  James G. Chandler,et al.  Association of Prehospital Plasma Transfusion With Survival in Trauma Patients With Hemorrhagic Shock When Transport Times Are Longer Than 20 Minutes: A Post Hoc Analysis of the PAMPer and COMBAT Clinical Trials. , 2019, JAMA surgery.

[10]  R. Matthews,et al.  Effects of tranexamic acid on death, disability, vascular occlusive events and other morbidities in patients with acute traumatic brain injury (CRASH-3): a randomised, placebo-controlled trial , 2019, The Lancet.

[11]  A. Peitzman,et al.  Identifying patients with time-sensitive injuries: Association of mortality with increasing prehospital time , 2019, The journal of trauma and acute care surgery.

[12]  A. Peitzman,et al.  Prehospital Blood Product and Crystalloid Resuscitation in the Severely Injured Patient: A Secondary Analysis of the Prehospital Air Medical Plasma Trial. , 2019, Annals of surgery.

[13]  L. Kao,et al.  Establishing a Regional Trauma Preventable/Potentially Preventable Death Rate. , 2020, Annals of surgery.

[14]  C. Callaway,et al.  Prehospital Plasma during Air Medical Transport in Trauma Patients at Risk for Hemorrhagic Shock , 2018, The New England journal of medicine.

[15]  James G. Chandler,et al.  Plasma-first resuscitation to treat haemorrhagic shock during emergency ground transportation in an urban area: a randomised trial , 2018, The Lancet.

[16]  E. Bulger,et al.  Every minute counts: Time to delivery of initial massive transfusion cooler and its impact on mortality , 2017, The journal of trauma and acute care surgery.

[17]  D. Lockey,et al.  Prehospital Resuscitation. , 2017, International anesthesiology clinics.

[18]  A. Peitzman,et al.  Not all prehospital time is equal: Influence of scene time on mortality , 2016, The journal of trauma and acute care surgery.

[19]  A. Peitzman,et al.  Taking the Blood Bank to the Field: The Design and Rationale of the Prehospital Air Medical Plasma (PAMPer) Trial , 2015, Prehospital emergency care : official journal of the National Association of EMS Physicians and the National Association of State EMS Directors.

[20]  A. Peitzman,et al.  Pre-trauma center red blood cell transfusion is associated with improved early outcomes in air medical trauma patients. , 2015, Journal of the American College of Surgeons.

[21]  A. Peitzman,et al.  Red Blood Cell Transfusion Is Associated With Reduced Mortality and Coagulopathy in Severely Injured Patients With Blunt Trauma , 2014 .

[22]  A. Peitzman,et al.  Design of the Study of Tranexamic Acid during Air Medical Prehospital Transport (STAAMP) Trial: Addressing the Knowledge Gaps , 2015, Prehospital Emergency Care.

[23]  C. Wade,et al.  Prehospital Transfusion of Plasma and Red Blood Cells in Trauma Patients , 2015, Prehospital emergency care : official journal of the National Association of EMS Physicians and the National Association of State EMS Directors.

[24]  C. Schulman,et al.  Featured articles for CME credit August 2014 , 2014 .

[25]  F. Butler,et al.  Performance improvement evaluation of forward aeromedical evacuation platforms in Operation Enduring Freedom , 2013, The journal of trauma and acute care surgery.

[26]  L. Blackbourne,et al.  En-Route Care Capability From Point of Injury Impacts Mortality After Severe Wartime Injury , 2013, Annals of surgery.

[27]  A. Blom,et al.  Early Complementopathy After Multiple Injuries in Humans , 2012, Shock.

[28]  B. Allaouchiche,et al.  Early coagulopathy in trauma patients: an on-scene and hospital admission study. , 2012, Injury.

[29]  Lorne H Blackbourne,et al.  Died of wounds on the battlefield: causation and implications for improving combat casualty care. , 2011, The Journal of trauma.

[30]  A. McDonald,et al.  Effects of tranexamic acid on death, vascular occlusive events, and blood transfusion in trauma patients with significant haemorrhage (CRASH-2): a randomised, placebo-controlled trial , 2010, The Lancet.

[31]  Elizabeth A Stuart,et al.  Matching methods for causal inference: A review and a look forward. , 2010, Statistical science : a review journal of the Institute of Mathematical Statistics.

[32]  Peter C. Austin,et al.  Using the Standardized Difference to Compare the Prevalence of a Binary Variable Between Two Groups in Observational Research , 2009, Commun. Stat. Simul. Comput..

[33]  J. L. Iribarren,et al.  Tranexamic acid attenuates inflammatory response in cardiopulmonary bypass surgery through blockade of fibrinolysis: a case control study followed by a randomized double-blind controlled trial , 2007, Critical care.

[34]  H. Gerlach,et al.  Early detection of increased tumour necrosis factor alpha (TNFα) and soluble TNF receptor protein plasma levels after trauma reveals associations with the clinical course , 2001, Acta anaesthesiologica Scandinavica.