View clinical trials related to Shock, Hemorrhagic.
Filter by:Overall aim of this work is to evaluate new methods of resuscitation that can be applied by front-line responders on the battlefield, in civilian life, or which can be used during initial resuscitation in the first fixed facility to which the injured patient is brought.
Information on the management of casualties from the ongoing conflicts in Afghanistan and Iraq has brought in to question the traditional approach to blood transfusion in hemorrhaging patients. Present recommendations for when to transfuse plasma products is when coagulation tests become abnormal. The proposed trial will investigate whether the more aggressive plasma transfusion strategies as advocated from researchers based on the Central Asian conflicts is valid. Since a study to determine the full impact of an altered plasma transfusion practice would require thousands of patients, a feasibility trial is appropriate and is being proposed. The hypotheses are thus: Primary Hypothesis- A multicentre trial that investigates the earlier use of plasma in patients with hemorrhagic shock going for emergency surgery will be feasible. Secondary Hypotheses- The early use of a universal donor blood plasma (AB+ plasma) in patients with shock due to blood loss (i.e. hemorrhagic) going for emergency surgery will reduce overall exposure to the total number of blood donor products (so-called allogeneic blood exposure). A reduction in allogeneic blood exposure would then reduce the total number of blood transfusion-related complications. The early use of this plasma product is safe and will not increase the incidence of blood clotting or other transfusion-related complications.
In this study we hope to delineate the typical vasoactive mediator response of trauma patients to shock. We plan to assess serum levels of vasopressin and also catecholamines, angiotensin, and cortisol during resuscitation of trauma patients to delineate high risk populations for vasopressin deficiency.
MP4OX is a novel oxygen therapeutic agent specifically developed to perfuse and oxygenate tissue at risk for ischemia and hypoxia. MP4OX is a pegylated hemoglobin-based colloid and and as a result of its molecular size and unique oxygen dissociation characteristics, targets oxygen delivery to ischemic tissues by selectively off-loading oxygen in tissues predisposed to low oxygen tension. Sangart is currently evaluating MP4OX to reduce organ dysfunction and failure in trauma patients with lactic acidosis due to severe hemorrhagic shock.
Based on encouraging results from animal studies, the investigators hypothesize that early administration of IV Premarin® in patients with hemorrhagic shock will safely reduce secondary injury, and improve survival.
Background: Bleeding and coagulopathy still accounts for the majority of early in-hospital deaths following trauma. There have been lately several published studies suggesting that higher transfusion ratios of fresh frozen plasma (FFP), platelets (PTL) and cryoprecipitate (CRYO) to red blood cell (RBC) are associated with survival advantages. However, the evidence comes from retrospective data limited by a significant number of unaddressed confounders. In addition, the use of blood products bears known and important risks of complications. Hypothesis: The adoption of a formula-driven transfusion practice with pre-defined ratios of FFP to PTL to RBC transfusion (1:1:1) is feasible and superior to current laboratory-guided transfusion practice in treating and/or preventing early coagulopathy improving survival rates in massively bleeding trauma patients . Objective: To exam the feasibility of implementing a pre-defined ratio of FFP to PTL to RBC (1:1:1) transfusion protocol and its impact on a population of bleeding trauma patients. Design: A two-year pilot feasibility randomized control trial at Sunnybrook Health Sciences Centre. Randomization: 70 patients are expected to be randomized to lab-driven or to formula-driven massive transfusion protocol and followed-up to 28 days or hospital discharge. Study outcomes: protocol violation; in-hospital mortality by exsanguination; death at 28 days; coagulation competence defined by current standard coagulation tests (INR & PTT < 1.5 times normal; PTL ≥ 50 and Fibrinogen ≥ 1.0) or clotting factor levels ≥ 30%; correlation of current standard coagulation tests with clotting factors levels; cessation of bleeding; incidence of ALI, sepsis, MOF, transfusion-related circulatory overload, transfusion reactions; Ventilator-free days; ICU & Hospital LOS; thromboembolic events. Intervention protocol: Transfusion of pre-defined ratios of FFP and PTL to RBC (1:1:1) (formula-driven) for the first 12h of hospitalization without coagulation tests guidance while patient is hemorrhaging or before if bleeding stops. Statistical analysis: protocol compliance rate and in-hospital mortality rates within 24h and at 28 days will be assessed using Chi-square test. ROC analysis will be used to analyze coagulation competence. Main expected outcomes: implementation of a formula-driven transfusion protocol is feasible and coagulation competence will be achieved faster and more efficiently in the study group.
This project seeks to determine the effect of prehospital resuscitation with hypertonic saline vs. conventional crystalloids on the inflammatory response after injury. The leading cause of late mortality following injury is multiple organ dysfunction syndrome (MODS), which results from a dysfunctional inflammatory response after injury. Previous studies suggest that hypertonic saline may be beneficial by modulating this initial response and decreasing subsequent organ injury. This project takes advantage of a unique opportunity, afforded by an NIH-funded multi-center clinical trial of hypertonic resuscitation (conducted by the Resuscitation Outcomes Consortium), to obtain blood samples from patients enrolled in this trial to analyze inflammatory responses early after hypertonic vs. conventional resuscitation. This study was an ancillary study to the main randomized clinical trial and thus prospective observational in nature The proposed study will be carried out in experiments grouped in three Specific Aims: Aim 1 provides a thorough investigation of the immunomodulatory response following hypertonic resuscitation with regard to neutrophil, monocyte, and T cell responses at serial time points after injury and resuscitation. Aim 2 comprises experiments to investigate the mechanisms by which hypertonicity may alter inflammatory cell signaling. Aim 3 seeks to correlate the laboratory findings with clinical endpoints reflective of immune dysfunction including inflammation, organ failure, nosocomial infection, and sepsis. The investigators hypothesize that hypertonic resuscitation will be associated with modulation of the excessive inflammatory response seen after injury and thus will result in reduced rates of inflammatory organ injury.
The purpose for this study is to measure the physiology of human undergoing a Lower Body Negative Pressure usea non-invasive low-power optical technique, near-infrared diffuse optical spectroscopy measurement and compare these measurement to standard monitoring procedures delineated in the Brooke Army Medical Center. The Brooke Army Medical Center can use near-infrared diffuse optical spectroscopy to provide functional physiologic tissue and organ information without ionizing radiation and without withdrawing any blood, in a cost-effective and rapid manner. Monitoring for the onset of circulatory shock in a wounded soldier on the battlefield is typically performed by measurement of arterial blood pressure, arterial oxygen saturation, or simple auscultation of the pulse. Shock is typically recognized by non-specific signs and subjective symptoms such as cold clammy skin, pallor, weak thready pulse, unstable vital signs, and diminished mentation.
The goal of this study will be to determine if a lower than normal blood pressure during surgery for bleeding in the abdomen or chest will result in decreased bleeding and decreased chance of death.
The purpose of the present trial is therefore to assess effects of arginine vasopressin vs. saline placebo on hospital admission rate (primary end point), as well as hemodynamic variables, fluid resuscitation requirements and hospital discharge rate (secondary study end points) in presumed traumatic hemorrhagic shock patients with a systolic arterial blood pressure <90 mm Hg after 10 min of standard shock treatment. Accordingly, the study reflects an add-on design to standard traumatic shock therapy. The hypothesis is that both arginine vasopressin and saline placebo have comparable effects on hemodynamic variables, fluid resuscitation requirements, and hospital admission and discharge rate. The alternative hypothesis is that arginine vasopressin has more beneficial effects on hemodynamic variables, fluid resuscitation requirements, and hospital admission and discharge rate than saline placebo.