View clinical trials related to Hemorrhage.
Filter by:The SAHaRA trial will clarify the role of treating anemia with Red Blood Cell (RBC) transfusion in a unique and vulnerable patient population, and determine whether that impacts on functional outcomes and mortality. It will guide best practice standards and clarify the optimal RBC transfusion strategy in patients with aSAH.
Postpartum hemorrhage is a significant contributor to maternal morbidity and mortality and is worldwide. TXA has recently been proven to reduce mortality when given to women in setting of diagnosed PPH. US obstetricians and anesthesiologists are hesitant to use TXA in the peripartum period especially for prevention of PPH due to uncertainty of an optimal dose and safety profile. The purpose of this study is to characterize the pharmacokinetics of TXA when given prophylactically at time of delivery. In addition investigators will determine the pharmacodynamics of TXA in the peripartum period.
This is phase 3b study seeks to evaluate the safety of elagolix in combination with estradiol/norethindrone acetate for the management of heavy menstrual bleeding associated with uterine fibroids in premenopausal women. This study is double-blinded in the first year and an open-label for the next three years.
This was a prospective, cohort study.
This phase III trial will establish whether IL-1Ra, with sub-cutaneous (SC) administration twice daily for up to 21 days post aneurysmal subarachnoid haemorrhage (aSAH), improves clinical outcome as measured by ordinal shift in mRS at 6 months. Patients with SAH transferred to a neurosurgical centre will be identified and approached for study participation. Following consent, patients will be randomised to receive either IL-1Ra or placebo for a maximum of 21 days from onset of symptoms. Patients who are found to be non-aneurysmal following randomisation will be withdrawn from the study treatment. Blood samples for plasma IL-6 will be obtained prior to randomisation and at day 3-5 post randomisation for IL-6 & IL-1 measurement. Safety will be measured at 30 days post randomisation and outcome assessed at 6 months post randomisation.
Patients who experience lung injury are often placed on a ventilator to help them heal; however, if the ventilator volume settings are too high, it can cause additional lung injury. It is proven that using lower ventilator volume settings improves outcomes. In patients with acute brain injury, it is proven that maintaining a normal partial pressure of carbon dioxide in the arterial blood improves outcomes. Mechanical ventilator settings with higher volumes and higher breathing rates are sometimes required to maintain a normal partial pressure of carbon dioxide. These 2 goals of mechanical ventilation, using lower volumes to prevent additional lung injury but maintaining a normal partial pressure of carbon dioxide, are both important for patients with acute brain injury. The investigators have designed a computerized ventilator protocol in iCentra that matches the current standard of care for mechanical ventilation of patients with acute brain injury by targeting a normal partial pressure of carbon dioxide with the lowest ventilator volume required. This is a quality improvement study with the purpose of observing and measuring the effects of implementation of a standard of care mechanical ventilation protocol for patients with acute brain injury in the iCentra electronic medical record system at Intermountain Medical Center. We hypothesize that implementation of a standardized neuro lung protective ventilation protocol will be feasible, will achieve a target normal partial pressure of carbon dioxide, will decrease tidal volumes toward the target 6 mL/kg predicted body weight, and will improve outcomes.
Postpartum hemorrhage (PPH) occurs in up to one in ten deliveries worldwide and is the leading cause of maternal morbidity and mortality. In developing countries 30% of women develop PPH because access to a number of treatments is not readily available. Interestingly, the rate of PPH and consequently of maternal morbidity has increased significantly even in developed nations, such as Canada, over the past decades. This rate is also increasing amongst parturients in Ontario. Unfortunately, few effective preventative treatments exist. Antifibrinolytic drugs are routinely used to reduce bleeding and the requirement for blood transfusions in a wide range of hemorrhagic conditions. The most commonly used antifibrinolytic drug is tranexamic acid (TXA). TXA is safe, affordable, with very few side effects. The World Health Organization recommended that TXA be used to reduce blood loss in several conditions, including in patients with established PPH refractory to conventional therapy.However, little is known about the prophylactic use of TXA to prevent PPH.
Each year, approximately 30,000 people in the United States suffer an intra-cranial hemorrhage due to aneurysmal rupture. Of those surviving the initial event, up to 40% will go on to have further neurological injury secondary to stroke (delayed cerebral ischemia) caused by constriction of blood vessels (i.e. vasospasm). Previous studies have shown that the medication sildenafil, given intravenously, improves vasospasm, but has an associated degree of hypotension. The degree of hypotension was well within safety thresholds for these patients. Sildenafil is a medication that strongly inhibits the protein phosphodiesterase-V (PDE-V). The hypothesis for this study is that oral sildenafil will also improve vasospasm, but does not result in as much hypotension. Specifically, the investigators look to show that comparable doses of oral sildenafil produces the same degree of PDE-V inhibition as an intravenous dose while the degree of hypotension is reduced. Additionally, using measurements of cerebral blood flow regulation acquired using transcranial Doppler ultrasound, the investigators look to show that oral sildenafil produces the same degree of improvement in vasospasm and blood flow regulation.
The aim of this prospective study is to reveal the natural history of symptomatic hemorrhage in adult patients with cerebral cavernous malformation with the goal of informing the treatment plan.
Massive hemorrhage is a major cause of potentially preventable death following trauma. A common consequence of hemorrhagic shock is uncontrollable bleeding from coagulopathy, leading to death from exsanguination. Even when bleeding is controlled, patients are at increased risk of complications and mortality. Reconstituted whole blood, or component therapy with packed red blood cells (PRBCs), plasma, and platelets was introduced by the military in recent conflicts in Iraq and Afghanistan with remarkable results and has been adopted by most civilian trauma centers. Despite improving coagulopathy, it is apparent that transfusion of blood components is not equivalent to whole blood transfusion. Transfusion of high plasma volumes may be associated with increased risk of allergic reaction, transfusion associated acute lung injury (TRALI), hypervolemic cardiac failure, and acute respiratory distress syndrome (ARDS). Military services have recently reintroduced fresh whole blood (WB) for standard resuscitation of massive hemorrhage, have found that WB offers a survival advantage over component therapy, and that risks of transfusion reactions are similar for WB and PRBCs. On the civilian side, whole blood is an FDA-licensed product that has been in use in pediatric open heart surgery and autologous blood donation but is no longer commonly available for other indications. However, the military results are renewing interest in whole blood for trauma resuscitation. The use of low-antibody titer whole blood leukoreduced with a platelet-sparing filter was recently approved by the University of California Los Angeles Blood and Blood Derivatives Committee and two other trauma centers for male trauma patients. This study will test the feasibility of providing stored WB for resuscitation of patients in hemorrhagic shock and determine the effects of WB on clinical outcomes as well as the effects on coagulation, fibrinolysis, and inflammation, compared to standard blood component therapy.