View clinical trials related to Shock, Hemorrhagic.
Filter by: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
The Cold Stored Platelet Early Intervention in Hemorrhagic Shock (CriSP-HS) trial is a proposed 3 year, open label, multi-center, randomized trial designed to determine the feasibility, efficacy, and safety of urgent release cold stored platelets (CSP) in patients in hemorrhagic shock. Patients will be randomized to receive either standard care or early infusion of urgent release cold stored platelets (CSP). The proposed pilot study will utilize 5 level-1 trauma centers from within the LITES network and will enroll approximately 200 patients. The primary outcome for the pilot trial is feasibility, with principal secondary clinical outcome of 24 hour mortality.
Since the 2000s, many prognostic scores were developed to predict traumatic haemorrhage. Most of these studies were retrospectives based on registers. Due to missing data on death due to bleeding, these studies chose to predict the massive transfusion risk as a surrogate of haemorrhagic death. These scores include clinical parameters (vital signs), laboratory values (Haemoglobin, lactate, Base excess) and/or imaging (CT or ultrasound) values. The scores showing best performance are the Trauma Associated Severe Haemorrhage (TASH) score, developed and validated on the German register (DGU-Register) and the ABC score developed and validated in the United States of America. However, the majority of these scores cannot be applied at the trauma scene due to the unavailability of laboratory and imaging values. Therefore, their clinical utility remains unclear. To overcome the need for diagnostic tests, authors have developed and recently validated a clinical prognostic score in identifying trauma patients with, or at risk of, significant haemorrhage based on predicted probabilities of death due to bleeding: BATT score. This score was developed from an international cohort using data from 271 Trauma Centres in 41 countries on 5 continents and uses first clinical parameters at initial assessment. The BATT score predicts death due to bleeding and has been validated on a large population in England and Wales. It could also predict massive transfusion, as a surrogate of haemorrhagic death, earlier at the trauma scene. Its feasibility and external validation would make its clinical utility superior to other scores while identifying a greater number of patients requiring early management. Our study is an external validation of pre-existing prognostic scores of traumatic haemorrhages (TASH , ABC and BATT score) at different times of care (Scene of Injury, admission at the trauma room) in order to assess their overall performance, discrimination and calibration in the prediction of massive transfusion, and haemorrhagic death. The objective of the study is to assess a comparison of score performances (Overall performance, discrimination and calibration). Due to the study population (STR), which is partly integrated into the German DGU-Register, the investigators expect good transportability of the TASH score to the Swiss Trauma Registry in terms of overall performance, discrimination and calibration. The ABC score should show lowers results in terms of discrimination due to its validation on small cohorts exclusively in North America. The new BATT score predicting death due to bleeding has been validated on a large English cohort of more than 100,000 patients. It identifies all patients with haemorrhage and not only patients who have received a massive transfusion subject to survival bias. In this context, the BATT score provides good discrimination with only simple physiological variables available at the trauma scene. In case of its external validation on the STR as part of our study, its feasibility would make its clinical utility superior to other pre-existing scores, while identifying a greater number of patients requiring early management. Its application would activate a massive transfusion plan directly at the trauma scene and save precious time.
The effect of early, prehospital norepinephrine use in patients with traumatic shock on mortality is unknown. Recent existing observational evidence from single system data (US, France, Japan) are conflicting. The investigators hypothesize that prehospital norepinephrine is associated with decreased mortality when used in patients with traumatic shock.
Study Design: Single-center, not-randomized, open-label, two-arms controlled pilot clinical trial. Health Condition: Patients with severe trauma with a need for transfusion and categorized as priority 0 or 1 according to the Catalan Health Service (CatSalut) Polytrauma Code (PPT)
A multicenter, randomized (1:1, iloprost: placebo), placebo controlled, blinded, investigator-initiated phase 2b trial in trauma patients with haemorrhagic shock and shock induced endotheliopathy (SHINE), investigating the efficacy and safety of continuous intravenous administrating of iloprost (1 ng/kg/min) versus placebo for 72-hours, in a total of 220 patients. The study hypothesis is that iloprost may be beneficial as an endothelial rescue treatment as it is anticipated to deactivate the endothelium and restore vascular integrity in trauma patients with haemorrhagic shock (SHINE) suffering from organ failure caused by endothelial breakdown, ultimately improving survival.
It is reported that high mobility group box 1 (HMGB1), a non-histone nuclear protein, can serve as an alarmin with damage associated molecular patterns to activate immune responses in the early stages of hemorrhagic shock (HS). However, the origin of HMGB1 and how it is released following HS is poorly understood. In this study, we teased out this mechanism. We try to record the concentration of serum HMGB1 protein following HS in clinical patients.
In this study, we will explore the feasibility of a randomized controlled trial that will compare high protein dose from ICU day 6 to 14 with moderate protein intake.
The LITES Network is an operational trauma center consortium which has the expertise, track record and confirmed capabilities to conduct prospective, multicenter, injury care and outcomes research of relevance to the Department of Defense (DoD). Hemorrhage and Traumatic Brain Injury (TBI) are responsible for the largest proportion of all trauma-related deaths. It is the poly-trauma patient who suffers both hemorrhagic shock and traumatic brain injury where a paucity of evidence exists to direct treatment, limiting the development of beneficial trauma practice guidelines. The use of Whole Blood (WB) for early trauma resuscitation has been touted as the 'essential next step' in the evolution of trauma resuscitation. Despite its historical and more recent use, little is known regarding WB's benefit relative to the 'current practice' ratio-based blood component therapy in the acutely bleeding patient, and even less is known regarding its effects in patients with TBI. AIM#1: Evaluate patient centered outcomes associated with early whole blood resuscitation practice as compared to component resuscitation in poly-trauma patients with hemorrhagic shock and further characterize outcome benefits in those with traumatic brain injury. AIM#2: Characterize blood pressure and resuscitation endpoints during the acute resuscitation phase of care and the associated/attributable outcomes for traumatic brain injury in patients with hemorrhagic shock. General Hypothesis #1: Whole blood resuscitation will be associated with improved mortality and resuscitation outcomes in poly-trauma patients and long term neurological outcome in those patients with traumatic brain injury as compared to those resuscitated with component therapy. General Hypothesis #2: Differences in prehospital and acute phase resuscitation systolic blood pressure will be associated with differential outcomes in patients with traumatic brain injury at discharge and at 6 months. Study Design: The LITES network will perform a multicenter, prospective, observational cohort study over a 4 year period to determine the impact of whole blood resuscitation in trauma patients with hemorrhagic shock at risk of large volume resuscitation with and without TBI. Early whole blood resuscitation will be compared to standard component resuscitation. The study will also further characterize blood pressure and resuscitation endpoints in poly-trauma patients with traumatic brain injury. Six Trauma sites with appropriate characteristics will be selected from 12 LITES Network sites across the country. Study Setting: The study will be performed utilizing busy level I trauma centers within the LITES Network located across the country, at sites where either whole blood has currently been incorporated into standard of care or where component blood transfusion is being utilized for patients in hemorrhagic shock at risk for large volume resuscitation. Study Population: The study will focus on patients who suffer blunt or penetrating injury, transported to a SWAT participating LITES trauma center with evidence of hemorrhagic shock at risk of large volume blood resuscitation.
Acute traumatic coagulopathy (ATC) is common in severe trauma patients (around 25 to 30% of patients with severe trauma) and is associated with increased mortality. ATC is associated with fibrinogen and clotting factors deficiencies. Therefore, ATC management relies on early administration of fibrinogen and blood products in case of massive transfusion with a 1:1 or 1:2 ratio between Fresh Frozen Plasma (FFP) and Red Blood Cells (RBC). This strategy relies on fast supply of FFP. To overcome delay for FFP ordering, transport and defrosting, the PROCOAG study proposes to use prothrombrin concentrate complex (PCC) as alternative to treat coagulation factor deficiency. PCC is readily available upon hospital arrival. In addition to fibrinogen treatment, it is thought that PCC can be efficient in ATC management, while reducing risks associated with massive transfusion. ProCoag is a randomized, controlled, double-blinded, parallel clinical trial aiming at showing superiority of early PPC+ fibrinogen strategy on fibrinogen only strategy for the management of patients at risk of massive transfusion. Early administration of PPC should optimize patient blood management and therefore reduce blood products transfused within the first 24 hours following a severe trauma.