View clinical trials related to Shock, Hemorrhagic.
Filter by:The aim of this work was to investigate the effects of low dose of norepinephrine in preperiod of hypotensive resuscitation in hemorrhagic shock.
Management of post-traumatic severe hemorrhage remains a challenge to any trauma care system. Studying integrated and innovative tools designed to predict the risk of early severe hemorrhage (ESH) and resource needs could offer a promising option to improve clinical decisions and then shorten the time of intervention in the context of pre-hospital severe trauma. As evidence seems to be lacking to address this issue, this ambispective validation study proposes to assess on an independent cohort the predictive performance of a newly developed machine learning-based model, as well as the feasibility of its clinical deployment under real-time healthcare conditions.
This study is designed to evaluate the effect of early albumin transfusion within massive transfusion protocol on fluid balance and reduced requirement of transfusion.
The MATIC-2 is a multicenter clinical trial enrolling children who are less than 18 years of age with hemorrhagic shock potentially needing significant blood transfusion. The primary objective of the clinical trial is to determine the effectiveness of Low Titer Group O Whole Blood (LTOWB) compared to component therapy (CT), and Tranexamic Acid (TXA) compared to placebo in decreasing 24-hour all-cause mortality in children with traumatic life threatening hemorrhage.
Calcium helps blood to clot and thereby stop bleeding. Trauma patients who experience large volume blood loss often require blood transfusions and bleeding is the most common cause of death. The purpose of this study is to see if giving intravenous calcium immediately to patients who require large volume blood transfusion will decrease transfusion requirements, vasopressor use and mortality in bleeding trauma patients.
Resuscitative endovascular balloon occlusion of the aorta (REBOA) is a procedure that has the goal to stabilize trauma patients with non-compressible torso hemorrhage by temporarily occluding the aorta with a ballon catheter to increase central perfusion and stop uncontrollable bleeding from the diaphragm downwards. The investigators are planning to evaluate all patients who had a REBOA catheter placed at their clinic or in the pre-clinical setting from the start of 2019 to the 31.12.2022 who were transferred to their clinic, with basic demographic and clinical data, the procedural specifics, and their potential complications.
The goal of this clinical trial is to compare the effectiveness of unseparated whole blood (referred to as Low-Titer Group O Whole Blood) and the separate components of whole blood (including red cells, plasma, platelets, and cryoprecipitate) in critically injured patients who require large-volume blood transfusions.
Annually over 7000 Australians are treated for severe trauma. Haemorrhage secondary to severe trauma is a major cause of potentially preventable death and poor outcomes in Australian adults. Severe trauma may trigger changes in blood clotting mechanisms and factor levels leading to inhibition of clot formation and reduced clot strength. This results in the inability of the severely injured trauma patient to form adequate clots to help stop bleeding. There is good evidence to suggest the loss of clotting factors during haemorrhage is associated with worse outcomes and it is thought the early replacement of these factors may reduce bleeding and improve patient outcomes. Fibrinogen is a key clotting factor that helps bind clots together and early fibrinogen replacement may improve outcomes. Currently fibrinogen is replaced using cryoprecipitate, a blood product made from blood donated by healthy donors which is a precious resource. It can take a significant amount of time to administer as it is frozen and stored in the blood bank. Timely administration of cryoprecipitate is difficult as it requires thawing prior to transfusion. The large doses of cryoprecipitate used in traumatic haemorrhage can put strain on local blood banks in supplying requested units in a timely manner. Additionally, the widely dispersed population of Australia introduces logistic challenges to the maintenance of adequate cryoprecipitate stocks to individual hospital blood banks, especially in remote regions. However, cryoprecipitate contains a number of other coagulation factors (not just fibrinogen) that may be instrumental in clot formation and resistance to fibrinolysis. Fibrinogen concentrate is an alternative product used to assist in blood clotting. It is a dry powder form of fibrinogen and can be reconstituted at the bedside and given quickly. The use of a fibrinogen factor concentrate with a long shelf life that is easy to use has significant implications for both large urban metropolitan areas and remote isolated communities. The timing and mode of fibrinogen replacement in traumatic haemorrhage has implications for patient outcomes, blood product availability, costs and the national blood supply. Despite the importance of fibrinogen replacement in traumatic haemorrhage, there have been no clinical trials powered for clinical outcomes directly comparing fibrinogen concentrate and cryoprecipitate. FEISTY II will evaluate the efficacy, safety and cost-effectiveness of Fibrinogen Concentrate vs Cryoprecipitate in trauma patients with major haemorrhage. FEISTY II is a phase III randomised trial which will enrol 850 patients from Australian and New Zealand major trauma centres, with a primary patient outcome of days alive out of hospital at day 90 after injury. Severely injured trauma patients who require blood transfusion and have evidence of low fibrinogen levels will be randomised to receive either fibrinogen concentrate or standard care with cryoprecipitate
Adult male patients brought to the emergency department as Level A trauma activations who are receiving emergency blood transfusion. Objectives 1. Evaluate PRBC equivalents transfused in each group in the first 24 hours (Primary outcome) 2. Evaluate total transfusion in each group in the first 24 hours (Secondary Outcome) including breakdown by FFP equivalents, platelet units, and cryoprecipitate 3. Evaluate 6 hour, 24 hour, and hospital mortality (Secondary Outcome) 4. Evaluate ICU outcomes in each group
This prospective observational study aims to test the efficacy of the continuous measurement of exhaled methane levels in monitoring the hemodynamic state of severely injured, bleeding trauma patients.