The research team proposes a prospective, observational study to better understand how TEG can be useful in guiding clinical practice in the Main OR for subject's undergoing high transfusion risk surgeries. Intraoperatively, transfusion of blood products is frequently required to restore oxygen carrying capacity, perfusion and improve coagulation. Both under and over transfusion pose significant risks, particularly to pediatric patients with small starting intravascular volumes. Thromboelastography (TEG) is a validated method of dynamically assessing intraoperative coagulopathy via functional assay. However, while FDA approved and widely used in the adult setting, TEG is not commonly utilized in the setting of bleeding pediatric patients. Recently, TEG has been made available at BCH for clinical purposes and is being used solely in the cardiac surgery setting. The investigators aim to provide TEG data for non-cardiac pediatric surgical cases with a high risk of intraoperative blood loss in order to assess the impact of this tool on intraoperative management.
Intraoperatively, transfusion of blood products is frequently required to restore oxygen carrying capacity, perfusion and improve coagulation. Both under and over transfusion pose significant risks, particularly to pediatric patients with small starting intravascular volumes. Thromboelastography (TEG) is a type of Viscoelastic testing (ROTEM is another example) and is a validated point of care method of dynamically assessing intraoperative coagulopathy via functional assay. It provides more useful information than the commonly used laboratory values of INR, PT, PTT and Fibrinogen. However, while FDA approved and widely used in the adult setting, TEG is not commonly utilized in the setting of bleeding pediatric patients. Recently, TEG has been made available at Boston Children's Hospital (BCH) for clinical purposes exclusively in the cardiac surgery setting. The investigators aim to provide TEG data for general main operating room (MOR) pediatric surgical cases with a high risk of intraoperative blood loss in order to assess the impact of this tool on intraoperative management of the bleeding patient. Primary Aim: Assess the efficacy of providing real time viscoelastic testing (TEG) to anesthesiologists managing of pediatric patients with hemostatic bleeding undergoing procedures with high historical rates of blood transfusions. The outcome will be perioperative (intraoperative and within 24 H postoperative) hemostatic blood product transfusion (type of blood product and volume mL/g) within specific high blood loss surgical procedures. Data will be compared to matched cohorts using historical data from the same surgery types available in the Department of Anesthesia Blood Management Database. Secondary Aim: Assess the feasibility of providing real time and interpreting TEG data in a busy, academic, pediatric main OR at relevant clinical time points. Pre-operative and post-operative surveys will be administered to clinicians to gauge interest and knowledge in using TEG. Hypothesis The hypothesis is that the availability of TEG to help the management of pediatric surgical patients at a high risk for blood loss will improve targeted transfusion management, decrease overall intraoperative blood product utilization, and decrease variability in care. This data may ultimately yield future BCH viscoelastic test-guided (VET) transfusion protocols allowing a goal-directed approach. Benefits from this approach might translate into: I. less exposure of the pediatric patient to blood products, thereby reducing the inherent risks of transfusion such as transfusion reactions, blood product associated infections and TRALI/TACO II. a reduction in costs, and III. Identification of clinical processes, such as fibrinolysis, that might otherwise be missed, leading to specific interventions (e.g. use of antifibrinolytics). Although different blood product transfusion algorithms have been described in different clinical settings, there are no current VET (TEG or ROTEM) protocols in use for pediatric MOR surgical patients at this single center. See Appendix A for both existing BCH massive hemorrhage guidelines (MHG) and a massive hemorrhage protocol (MHP) including VET guided care - published as a supplement to the 2019 Society for the advancement of blood management administrative and clinical standards for patient blood management programs publication6. These VET MHG will be available to the providers to help diagnosis and guide hemostatic blood product transfusion management intraoperatively.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
SUPPORTIVE_CARE
Masking
NONE
Enrollment
60
Thromboelastography (TEG) is a type of Viscoelastic testing (ROTEM is another example) and is a validated point of care method of dynamically assessing intraoperative coagulopathy via functional assay.
Pre-operative and post-operative provider surveys will be distributed to anesthesiologists caring for study subjects to assess knowledge, practice, and attitudes about TEG.
Efficacy of utilizing Viscoelastic testing (Thromboelastography;TEG) to diagnose and guide management as measured by type of hemostatic blood products transfused.
Assess the efficacy of utilizing Viscoelastic testing (TEG) in the diagnosis and management of hemostatic bleeding intraoperatively and compare to the current standard hemostatic product transfusion practice on the management of pediatric patients undergoing specific non-cardiac surgical procedures with high historical rates of transfusions at a single center. The efficacy of TEG will be measured in types of hemostatic blood products (fresh frozen plasma, platelets, cryoprecipitate) transfused within specific high blood loss surgical procedures as compared to historical matches controls which is available in the Department of Anesthesiology Patient Blood Management Database.
Time frame: 1 year
Efficacy of utilizing Viscoelastic testing (TEG) to diagnose and guide intraoperative management as measured by amount (mL/kg) hemostatic blood products transfused.
Assess the efficacy of utilizing Viscoelastic testing (TEG) in the diagnosis and management of hemostatic bleeding in specific surgical cohorts and compare to the current standard hemostatic product transfusion practice on the management of pediatric patients undergoing specific non-cardiac surgical procedures with high historical rates of transfusions at BCH. The efficacy of TEG will be measured in amount (mL/kg) of hemostatic blood products (fresh frozen plasma, platelets, cryoprecipitate) transfused within specific high blood loss surgical procedures as compared to historical transfusion data ( and standard laboratory data including PT, PTT, INR and fibrinogen and platelets) for the same surgery types available in the Department of Anesthesiology Patient Blood Management Database.
Time frame: 1 year
Assess the feasibility of providing and interpreting TEG data in a busy, academic, pediatric non-cardiac operating room
Assess the feasibility of providing and interpreting TEG data in a busy, academic, pediatric non-cardiac operating room at relevant clinical time points. Pre-operative and post-operative provider surveys will be distributed to assess knowledge, practice, and attitudes. Surveys responses will be free-form and multiple choice.
Time frame: 1 year
Red blood cell transfusion amounts
The investigators will also compare red blood cell transfusion (mL/kg) amounts within the specific surgical cohorts between the TEG group and historical matched transfusion data.
Time frame: 1 year
Tranexamic acid (TXA) use
The investigators will compare tranexamic (TXA) use within specific cohorts between the TEG group and historical matched transfusion data.
Time frame: 1 year
Cell salvage use
The investigators will compare cell salvage use within specific cohorts between the TEG group and historical matched transfusion data.
Time frame: 1 year
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