| P2093 | author name string | Anirban Banerjee | |
| | Christopher C Silliman | |
| | Ernest E Moore | |
| | Angela Sauaia | |
| | Hunter B Moore | |
| | Geoffrey R Nunns | |
| | Gregory R Stettler | |
| P2860 | cites work | Thrombelastography (TEG®): practical considerations on its clinical use in trauma resuscitation | Q27499191 |
| | Hyperfibrinolysis, physiologic fibrinolysis, and fibrinolysis shutdown: the spectrum of postinjury fibrinolysis and relevance to antifibrinolytic therapy | Q35207771 |
| | Postinjury fibrinolysis shutdown: Rationale for selective tranexamic acid | Q35646892 |
| | TEG® and ROTEM® in trauma: similar test but different results? | Q36181242 |
| | The "Death Diamond": Rapid thrombelastography identifies lethal hyperfibrinolysis | Q36387078 |
| | Overwhelming tPA release, not PAI-1 degradation, is responsible for hyperfibrinolysis in severely injured trauma patients | Q36396010 |
| | Acute Fibrinolysis Shutdown after Injury Occurs Frequently and Increases Mortality: A Multicenter Evaluation of 2,540 Severely Injured Patients | Q36807586 |
| | A path to precision in the ICU. | Q37733894 |
| | Rotational thromboelastometry (ROTEM)-based coagulation management in cardiac surgery and major trauma | Q38032051 |
| | Tranexamic acid is associated with increased mortality in patients with physiological fibrinolysis | Q38653755 |
| | Thrombelastography indicates limitations of animal models of trauma-induced coagulopathy | Q38742341 |
| | Viscoelastic Tissue Plasminogen Activator Challenge Predicts Massive Transfusion in 15 Minutes | Q38776292 |
| | The CRASH-2 trial: a randomised controlled trial and economic evaluation of the effects of tranexamic acid on death, vascular occlusive events and transfusion requirement in bleeding trauma patients | Q39401826 |
| | Persistent Fibrinolysis Shutdown Is Associated with Increased Mortality in Severely Injured Trauma Patients. | Q40407874 |
| | Effects of ethanol intoxication and gender on blood coagulation | Q43068683 |
| | Hyperfibrinolysis is common in out-of-hospital cardiac arrest: results from a prospective observational thromboelastometry study | Q44494788 |
| | The incidence and magnitude of fibrinolytic activation in trauma patients | Q44658013 |
| | Rationale for the selective administration of tranexamic acid to inhibit fibrinolysis in the severely injured patient | Q45375279 |
| | Fibrinolysis shutdown is associated with a fivefold increase in mortality in trauma patients lacking hypersensitivity to tissue plasminogen activator | Q47347417 |
| | The effects of alcohol on coagulation and fibrinolytic factors: a controlled trial. | Q48026472 |
| | The S100A10 Pathway Mediates an Occult Hyperfibrinolytic Subtype in Trauma Patients. | Q51737880 |
| | Thromboelastometry-guided administration of fibrinogen concentrate for the treatment of excessive intraoperative bleeding in thoracoabdominal aortic aneurysm surgery. | Q51799180 |
| | Harmful or Physiologic: Diagnosing Fibrinolysis Shutdown in a Trauma Cohort With Rotational Thromboelastometry. | Q52570198 |
| | Alcohol consumption and plasminogen activator inhibitor type 1: The national heart, lung, and blood Institute family heart study | Q57306796 |
| | Reference values for kaolin-activated thromboelastography in healthy children | Q80100445 |
| | Acute coagulopathy of trauma: hypoperfusion induces systemic anticoagulation and hyperfibrinolysis | Q81248493 |
| | Hyperfibrinolysis after major trauma: differential diagnosis of lysis patterns and prognostic value of thrombelastometry | Q84203363 |
| | Elevated tissue plasminogen activator and reduced plasminogen activator inhibitor promote hyperfibrinolysis in trauma patients | Q87517095 |
| | Empiric transfusion strategies during life-threatening hemorrhage | Q88514257 |
| | Rapid TEG efficiently guides hemostatic resuscitation in trauma patients | Q89106617 |
| P433 | issue | 4 | |
| P304 | page(s) | 679-685 | |
| P577 | publication date | 2019-04-01 | |
| P1433 | published in | The Journal of Trauma and Acute Care Surgery | Q20794951 |
| P1476 | title | Redefining postinjury fibrinolysis phenotypes using two viscoelastic assays | |
| P478 | volume | 86 | |