View clinical trials related to Shock, Traumatic.
Filter by: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.
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.
Hypothesis: We hypothesize that resuscitation regimens which minimize the total volume of resuscitation fluid, while restoring organ perfusion, will lead to lower morbidity and mortality in critically ill patients following trauma.
The purpose of this study is to determine if hypertonic saline with and without dextran can improve overall survival in victims of trauma with shock. Injury and lost blood from trauma can cause your body to be in shock (low blood pressure related to blood loss). This decreased blood flow can lead to organ damage. In order to restore the blood pressure and blood flow, the medics give fluids into the patients' veins as soon as possible. This is called "resuscitation." The resuscitation fluid most commonly used is "isotonic" or one that is the same concentration as the blood. The investigators are trying to determine if infusing a "hypertonic" fluid (or one more concentrated than the blood) can increase the blood pressure and restore blood flow more efficiently. The hypertonic fluids the investigators are using are called hypertonic saline with dextran (HSD) and hypertonic saline (no dextran). Hypertonic saline is a salt solution that is slightly more concentrated than your blood. Dextran is a sugar solution.
The purpose of this study is to evaluate the clinical outcome of patients following blunt traumatic injury with hypovolemic shock, who receive either lactated ringer's solution or hypertonic saline with dextran (HSD) resuscitation; also, to focus specifically on neurologic outcome in patients with brain injury and on the effect of HSD resuscitation on inflammatory cell responsiveness.